阅读说明：本技术 一种采耳鹅毛棒自动生产设备 (Adopt ear goose feather stick automatic production equipment ) 是由 高德祥 于 2021-05-24 设计创作，主要内容包括：本发明公开了一种采耳鹅毛棒自动生产设备,涉及耳道护理用产品生产设备技术领域,包括鹅毛绒箱体、收紧固定装置、切断装置、捆绑装置、转动装置和细绳拉伸固定装置,所述收紧固定装置呈水平设置,所述鹅毛绒箱体设置在收紧固定装置的一侧,所述鹅毛绒箱体上设有进料口,所述鹅毛绒箱体的侧端设有出料管,所述细绳拉伸固定装置设置在收紧固定装置的上方,所述转动装置设置在收紧固定装置的一侧,所述捆绑装置设置在转动装置的侧端,所述切断装置设置在转动装置的侧端,本发明实现了对采耳鹅毛棒进行全自动化生产,提高了生产效率,减轻了劳动力。(The invention discloses automatic production equipment of an ear picking goose feather stick, which relates to the technical field of production equipment of products for ear canal nursing, and comprises a goose feather box body, a tightening and fixing device, a cutting device, a binding device, a rotating device and a string stretching and fixing device, wherein the tightening and fixing device is horizontally arranged, the goose feather box body is arranged at one side of the tightening and fixing device, a feed inlet is formed in the goose feather box body, a discharge pipe is arranged at the side end of the goose feather box body, the string stretching and fixing device is arranged above the tightening and fixing device, the rotating device is arranged at one side of the tightening and fixing device, the binding device is arranged at the side end of the rotating device, and the cutting device is arranged at the side end of the rotating device.)

1. An automatic production device for an ear picking goose feather rod is characterized by comprising a goose feather box body (1), a tightening fixing device (2), a cutting device (6), a binding device (5), a rotating device (4) and a string stretching fixing device (3), wherein the tightening fixing device (2) is horizontally arranged, the goose feather box body (1) is arranged on one side of the tightening fixing device (2), the string stretching fixing device (3) is arranged above the tightening fixing device (2), the rotating device (4) is arranged on one side of the tightening fixing device (2), the binding device (5) is arranged on the side end of the rotating device (4), the cutting device (6) is arranged on the side end of the rotating device (4), a feeding hole (11) is formed in the goose feather box body (1), a discharging pipe of the goose feather box body (1) is provided with a side end (12), the string stretching and fixing device (3) is arranged above the tightening and fixing device (2), the rotating device (4) is arranged on one side of the tightening and fixing device (2), the binding device (5) is arranged on the side end of the rotating device (4), and the cutting device (6) is arranged on the side end of the rotating device (4).

2. The automatic production equipment of the auricle goose feather rod as claimed in claim 1, wherein the tightening and fixing device (2) comprises a swing component (21) and a telescopic component (221), the swing component (21) is horizontally arranged, the swing component (21) comprises a swing barrel (211), a swing motor (212), a swing block (213), a swing rod (214), a swing plate (215) and a swing frame (218), the swing barrel (211) is horizontally arranged, the swing motor (212) is arranged in the swing barrel (211), the swing block (213) is arranged at one side of the swing motor (212), the output end of the swing motor (212) penetrates through the swing block (213), the swing rod (214) is arranged at the output end of the swing motor (212) and located at one side of the swing block (213), and a swing shaft is arranged on the swing rod (214), swing board (215) set up the one side at swinging arms (214), the junction of swing board (215) and swing piece (213) is equipped with the loose axle, be equipped with swing recess (217) on swing board (215), still be equipped with one cooperation recess (216) on swing board (215), the swing axle is located swing recess (217), swing span (218) are the level setting, swing span (218) set up the top at swing board (215), be equipped with a slip recess (2191) on swing span (218), still be equipped with one on swing span (218) and remove recess (219).

3. The automatic production equipment of the auristillage goose feather rod according to the claim 2, wherein the telescopic assembly (221) is arranged above the swing assembly (21), the telescopic assembly (221) comprises a telescopic shaft (222), a telescopic block (223), a telescopic rod (224), a telescopic thin rod (225) and a telescopic button (226), one end of the telescopic shaft (222) is arranged in the matching groove (216) on the swing plate (215), the telescopic block (223) is arranged at the other end of the telescopic shaft (222), the other end of the telescopic block (223) is arranged in the moving groove (219) on the swing frame (218), one end of the telescopic rod (224) is arranged on the telescopic block (223) and above the swing frame (218), the telescopic thin rod (225) is arranged at the other end of the telescopic rod (224), and the telescopic button (226) is arranged on the telescopic rod (224), the telescopic thin rod (225) is provided with a V-shaped fork rod (227).

4. An automatic production equipment of a auricle goose feather rod according to claim 3, wherein the thin rope stretching and fixing device (3) comprises a stretching fixing block (31), a clockwork spring (32), a stretching fixing thin rope (33) and a fixing thin rope block (34), the stretching fixing block (31) is arranged above the swinging frame (218), the clockwork spring (32) is sleeved on the stretching fixing block (31), the fixing thin rope block (34) is arranged on one corner of the top of the swinging frame (218), one end of the stretching fixing thin rope (33) is connected on the clockwork spring (32), the other end of the stretching fixing thin rope (33) is connected on the fixing thin rope block (34), and the stretching fixing thin rope (33) is positioned in the V-shaped fork lever (227).

5. The automatic production equipment of the auristillae goose feather rod according to the claim 2, wherein the rotating device (4) comprises a rotating frame (41), a rotating cylinder (42) and a hollow wood rod (43), the rotating frame (41) is horizontally arranged and is positioned at one side of the swinging plate (215), the rotating cylinder (42) is arranged on the rotating frame (41), a rotating groove is arranged inside the rotating frame (41), the hollow wood rod (43) is arranged on the rotating frame (41), the hollow wood rod (43) is arranged in a hollow way, and the diameter of the telescopic rod (224) is larger than the diameter of the bamboo stick (43).

6. The automatic production equipment of the auricle goose feather rod as claimed in claim 5, wherein the binding device (5) comprises a binding base (51), a binding motor (52), a binding left gear (53), a binding right gear (54) and a binding collar (55), the binding base (51) is arranged at the side end of the rotating frame (41), the binding motor (52) is arranged on the binding base (51), the binding left gear (53) is arranged at the output end of the binding motor (52), the binding right gear (54) is arranged at the side end of the binding left gear (53) and is meshed with the binding left gear, the center of the binding right gear (54) is hollow, the binding collar (55) is arranged on the binding right gear (54), the binding right gear (54) and the goose feather box body (1) are connected by a discharge pipe (12) and are arranged in communication with each other, the connecting part of the interior of the goose down box body (1) and the discharge pipe (12) is provided with a number control thorn (56), and the binding lantern ring (51) is provided with an adhesive tape.

7. The automatic production equipment of the auricle-collecting goose feather sticks as claimed in claim 5, wherein the cutting device (6) comprises a cutting frame (61), a cutting disc (62), cutting columns (63) and cutting blades (64), the cutting frame (61) is horizontally arranged and is positioned at the side end of the rotating frame (41), the cutting disc (62) is arranged on the cutting frame (61), the cutting columns (63) are provided with a plurality of numbers, the cutting columns (63) are all arranged on the cutting disc (62), and the cutting blades (64) are arranged on one of the cutting columns (63).

Technical Field

The invention relates to the technical field of production equipment for ear canal nursing products, in particular to automatic production equipment for a goose feather stick for picking ears.

Background

The ear pick has the handle and the ear pick in the ear picking process, the ear pick is usually made of wood and steel materials, the ears are easily injured due to the fact that the hands slide easily during use, an operator cannot observe the condition in the ears and can only pick the ears blindly or ask other people to help pick the ears, so that the ear pick does not have a method for cleaning the ear wax and easily injures the ear canals when picking the ears by feeling, and the ear picking rod is transported to the user.

The ear picking rod is a common ear canal nursing product and used for cleaning ear canals, the ear picking goose feather rod is the ear picking rod which is widely applied at present, the ear picking goose feather rod comprises a hollow stick, a certain amount of goose down is bound at the end part of the hollow stick, and the ear picking goose down is used for cleaning the ear canals, so that the ear picking rod is comfortable and safe.

In the prior art, the processing mode of the goose feather picking rod belongs to manual operation, wastes time and labor, is low in efficiency, has high labor cost and low automation degree, and has certain technical problems because the goose feather is light and fluffy and is difficult to fix at the end part of a hollow wood rod after being fed in the process of automatic production.

Disclosure of Invention

The embodiment of the invention provides automatic production equipment for a goose feather picking rod, and aims to solve the technical problems that in the prior art, a processing mode belongs to manual operation, time and labor are wasted, the efficiency is low, the labor cost is high, and the automation degree is low.

The embodiment of the invention adopts the following technical scheme: an automatic production device of a goose feather picking rod comprises a goose feather box body, a tightening and fixing device, a cutting device, a binding device, a rotating device and a string stretching and fixing device, the tightening and fixing device is horizontally arranged, the goose down box body is arranged at one side of the tightening and fixing device, the string stretching and fixing device is arranged above the tightening and fixing device, the rotating device is arranged at one side of the tightening and fixing device, the binding device is arranged at the side end of the rotating device, the cutting device is arranged at the side end of the rotating device, the goose down box body is provided with a feeding hole, the side end of the goose down box body is provided with a discharging pipe, the string stretching and fixing device is arranged above the tightening and fixing device, the rotating device is arranged on one side of the tightening and fixing device, the binding device is arranged on the side end of the rotating device, and the cutting device is arranged on the side end of the rotating device.

Further, tighten up fixing device and include swing subassembly and flexible subassembly, the swing subassembly is the level setting, the swing subassembly includes a swing section of thick bamboo, swing motor, swing piece, swinging arms, swing board and swing span, a swing section of thick bamboo is the level setting, swing motor sets up in a swing section of thick bamboo, the swing piece sets up in one side of swing motor, swing motor's output runs through swing piece, the swinging arms sets up on swing motor's output and is located one side of swing piece, be equipped with a pendulum shaft on the swinging arms, the swing board sets up in one side of swing arms, the junction of swing board and swing piece is equipped with the loose axle, be equipped with the swing recess on the swing board, still be equipped with a cooperation recess on the swing board, the pendulum shaft is located the swing recess, the swing span is the level setting, the swing span sets up in the top of swing board, the swing frame is provided with a sliding groove, and the swing frame is also provided with a moving groove.

Further, flexible subassembly sets up the top at the swing subassembly, flexible subassembly includes telescopic shaft, flexible piece, telescopic link, flexible thin pole and flexible knob, the one end setting of telescopic shaft is in the cooperation recess on the swing board, flexible piece sets up the other end at the telescopic shaft, the other end of flexible piece is located the removal recess on the swing span, the one end setting of telescopic link is on flexible piece and is located the top of swing span, flexible thin pole sets up the other end at the telescopic link, flexible knob sets up on the telescopic link, be equipped with a V type fork arm on the flexible thin pole.

Further, the tensile fixing device of string is including tensile fixed block, clockwork spring, tensile fixed string and fixed string piece, tensile fixed block sets up the top at the swing span, clockwork spring cover is established on tensile fixed block, fixed string piece sets up in the one corner at swing span top, the one end of tensile fixed string is connected on clockwork spring, the other end of tensile fixed string is connected on fixed string piece, tensile fixed string is located V type fork arm.

Further, rotating device includes the rotating turret, rotates drum and hollow stick, the rotating turret is the level setting and is located one side of swinging the board, it sets up on the rotating turret to rotate the drum, the inside of rotating turret is equipped with rotates the recess, hollow stick sets up on the rotating turret, hollow stick is the cavity setting, the diameter ratio of telescopic link is big than hollow stick diameter.

Furthermore, the binding device comprises a binding base, a binding motor, a binding left gear, a binding right gear and a binding lantern ring, wherein the binding base is arranged at the side end of the rotating frame, the binding motor is arranged on the binding base, the binding left gear is arranged at the output end of the binding motor, the binding right gear is arranged at the side end of the binding left gear and is meshed with the binding left gear, the center of the binding right gear is arranged in a hollow mode, the binding lantern ring is arranged on the binding right gear, the binding right gear is connected with the goose down box body through a discharging pipe and is arranged in a communicated mode, quantity control thorns are arranged at the connecting position of the inner portion of the goose down box body and the discharging pipe, and an adhesive tape is arranged on the binding lantern ring.

Further, cutting device is including cutting off the frame, cutting off the disc, cutting off the post and cutting off the blade, it is the level setting and is located the side of rotating turret to cut off the frame, it sets up on cutting off the frame to cut off the disc, it is equipped with a plurality of to cut off the post, a plurality of it all sets up on cutting off the disc to cut off the post, it sets up on one of them cutting off the post to cut off the blade.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, when the goose feather rod for picking ears is produced and processed, goose feathers are manually placed in a goose feather box body through a feed port, then a hollow wood rod is clamped and placed on a rotating frame through the operation of a manipulator, after the hollow wood rod is placed, an adhesive tape is manually sleeved on a binding lantern ring, a swing motor is operated to drive a moving rod and a moving thin rod on a moving block to move forwards in a rotating cylinder, after a V-shaped fork rod on the moving thin rod is moved to touch a stretching fixing thin rope and then is clamped, the V-shaped fork rod clamps the stretching fixing thin rope and then continues to move towards the inside of the hollow wood rod, the V-shaped fork rod clamps the stretching fixing thin rope and then moves through the hollow wood rod, and then continues to move forwards to penetrate through a binding right gear and a discharge pipe and move into the goose feather box body, at the moment, a moving button on the moving rod is positioned at a rotating groove in the rotating cylinder, when the V-shaped fork rod clamps the stretching and fixing thin rope and continues to move in the goose-down box body, the moving button is matched with the rotating groove to drive the moving rod to rotate, the moving rod rotates to drive the moving thin rod to rotate, the V-shaped fork rod on the moving thin rod is driven by the moving thin rod to clamp the stretching and fixing thin rope to rotate in the goose-down box body, so that the goose-down plush in the goose-down box body is sleeved on the stretching and fixing thin rope, after the sleeving is finished, the V-shaped fork rod is driven by the operation of the swing motor to clamp the stretching and fixing thin rope, the sleeved goose-down plush is moved out through the discharge pipe, after the goose-down is moved out of the goose-down box body, the sleeved goose-down plush is pulled and buckled through the quantity control thorns in the goose-down box body, the production numerical value of the goose-down plush can be quantitatively controlled in the production and processing process of the goose-down rod, after the V-shaped fork rod clamps the stretching and fixing thin rope to move out of the binding right toothed wheel, at the moment, the swing motor stops running, the binding motor runs to drive the adhesive tape on the binding lantern ring to rotate around, so that goose down is bound on the hollow wooden stick through the adhesive tape, the cutting column on the cutting disc is driven to rotate while the binding lantern ring rotates, the cutting blade on the cutting column is driven to cut off the adhesive tape, after cutting is completed, the moving thin rod and the moving rod are driven to return to the initial position through the running of the swing motor, meanwhile, the stretching and fixing thin rope is not influenced by force, and the stretching and fixing thin rope is rebounded to the initial position through the clockwork spring, so that the automatic production of the goose down stick is realized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of a first angular perspective structure of the present invention;

FIG. 2 is a schematic view of a second angular perspective structure according to the present invention;

FIG. 3 is a schematic view of a first angular retraction fixing device according to the present invention;

FIG. 4 is a schematic structural view of a second angle tightening fixture according to the present invention;

FIG. 5 is a schematic view of a string tensioning fixture according to the present invention;

FIG. 6 is a schematic view of the tightening and tightening device and the string stretching and fixing device according to the present invention;

FIG. 7 is a schematic view of a rotating device according to the present invention;

FIG. 8 is a schematic view of the binding apparatus of the present invention;

FIG. 9 is a schematic view of a cutting device according to the present invention;

FIG. 10 is a schematic view of a quantity control pin structure according to the present invention;

FIG. 11 is a schematic structural view of a goose feather rod after production;

FIG. 12 is a schematic view of the combination of a goose feather rod and a tensile fixing string according to the present invention;

FIG. 13 is a schematic view of a structure of the binding collar and the cutting blade of the present invention;

fig. 14 is a schematic view of a structure of a goose down sleeved in the invention.

Reference numerals

A goose down box body 1, a feeding hole 11, a discharging pipe 12, a tightening and fixing device 2, a swinging component 21, a swinging cylinder 211, a swinging motor 212, a swinging block 213, a swinging rod 214, a swinging plate 215, a matching groove 216, a swinging groove 217, a swinging bracket 218, a moving groove 219, a sliding groove 2191, a telescopic component 221, a telescopic shaft 222, a telescopic block 223, a telescopic rod 224, a telescopic thin rod 225, a telescopic button 226 and a V-shaped fork rod 227, the device comprises a thin rope stretching and fixing device 3, a stretching and fixing block 31, a clockwork spring 32, a stretching and fixing thin rope 33, a fixing thin rope block 34, a rotating device 4, a rotating frame 41, a rotating cylinder 42, a hollow wood stick 43, a binding device 5, a binding base 51, a binding motor 52, a binding left gear 53, a binding right gear 54, a binding lantern ring 55, a quantity control thorn 56, a cutting device 6, a cutting frame 61, a cutting disc 62, a cutting column 63 and a cutting blade 64.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the invention provides automatic production equipment for an ear picking goose feather rod, which comprises a goose feather box body 1, a tightening and fixing device 2, a cutting device 6, a binding device 5, a rotating device 4 and a string stretching and fixing device 3, wherein the tightening and fixing device 2 is horizontally arranged, the goose feather box body 1 is arranged at one side of the tightening and fixing device 2, the string stretching and fixing device 3 is arranged above the tightening and fixing device 2, the rotating device 4 is arranged at one side of the tightening and fixing device 2, the binding device 5 is arranged at the side end of the rotating device 4, the cutting device 6 is arranged at the side end of the rotating device 4, a feeding hole 11 is arranged on the goose feather box body 1, a discharging pipe 12 is arranged at the side end of the goose feather box body 1, the string stretching and fixing device 3 is arranged above the tightening and fixing device 2, the rotating device 4 is arranged at one side of the tightening and fixing device 2, the binding device 5 is arranged at the side end of the rotating device 4, the cutting device 6 is arranged at the side end of the rotating device 4, and the goose down can be stored through the goose down box body 1.

Preferably, the tightening and fixing device 2 includes a swing assembly 21 and a telescopic assembly 221, the swing assembly 21 is horizontally disposed, the swing assembly 21 includes a swing cylinder 211, a swing motor 212, a swing block 213, a swing rod 214, a swing plate 215 and a swing frame 218, the swing cylinder 211 is horizontally disposed, the swing motor 212 is disposed in the swing cylinder 211, the swing block 213 is disposed at one side of the swing motor 212, an output end of the swing motor 212 penetrates through the swing block 213, the swing rod 214 is disposed at an output end of the swing motor 212 and located at one side of the swing block 213, the swing rod 214 is provided with a swing shaft, the swing plate 215 is disposed at one side of the swing rod 214, a connection portion between the swing plate 215 and the swing block 213 is provided with a swing groove 217, the swing plate 215 is further provided with a matching groove 216, the swing shaft is located in the swing groove 217, the swing frame 218 is horizontally arranged, the swing frame 218 is arranged above the swing plate 215, the swing frame 218 is provided with a sliding groove 2191, the swing frame 218 is further provided with a moving groove 219, the swing motor 212 operates to drive the swing rod 214 on the output end of the swing motor 212 to rotate, the swing rod 214 rotates to drive the swing shaft on the swing rod 214 to swing in the swing groove 217 on the swing plate 215, and therefore the swing plate 215 is driven to move in the sliding groove 2191.

Preferably, the telescopic assembly 221 is disposed above the swing assembly 21, the telescopic assembly 221 includes a telescopic shaft 222, a telescopic block 223, a telescopic rod 224, a telescopic thin rod 225 and a telescopic button 226, one end of the telescopic shaft 222 is disposed in the matching groove 216 on the swing plate 215, the telescopic block 223 is disposed at the other end of the telescopic shaft 222, the other end of the telescopic block 223 is disposed in the moving groove 219 on the swing frame 218, one end of the telescopic rod 224 is disposed on the telescopic block 223 and above the swing frame 218, the telescopic thin rod 225 is disposed at the other end of the telescopic rod 224, the telescopic button 226 is disposed on the telescopic rod 224, the telescopic thin rod 225 is provided with a V-shaped fork 227, the telescopic shaft 222 disposed in the matching groove 216 on the swing plate 215 is moved by the swing plate 215, the telescopic shaft 222 moves to drive the telescopic block 223 to move in the moving groove 219, the telescopic block 223 moves to drive the telescopic rod 224 to move, and the telescopic rod 224 moves to drive the telescopic thin rod 225 and the telescopic button 226 on the telescopic rod 224 to move, so that the V-shaped fork 227 on the telescopic rod 224 is driven to move forwards.

Preferably, the tensile fixing device 3 of string is including tensile fixed block 31, clockwork spring 32, tensile fixed string 33 and fixed string 34, tensile fixed block 31 sets up the top at swing span 218, clockwork spring 32 cover is established on tensile fixed block 31, fixed string 34 sets up in the one corner at swing span 218 top, the one end of tensile fixed string 33 is connected on clockwork spring 32, the other end of tensile fixed string 33 is connected on fixed string 34, tensile fixed string 33 is located V type wishbone 227, moves forward through V type wishbone 227 and drives tensile fixed string 33 and move, can be after tensile fixed string 33 is moved through clockwork spring 32, not receive dynamics influence after, will stretch fixed string 33 rebound initial position.

Preferably, the rotating means 4 comprises a rotating frame 41, a rotating cylinder 42 and a hollow wooden stick 43, the rotating frame 41 is horizontally disposed and is located at one side of the swing plate 215, the rotating cylinder 42 is disposed on the rotating frame 41, a rotary groove is formed in the rotary frame 41, the hollow wooden stick 43 is arranged on the rotary frame 41, the hollow wooden stick 43 is hollow, the diameter of the telescopic rod 224 is larger than that of the bamboo stick 43 body, when the telescopic button 226 of the telescopic rod 224 is located at the rotating groove inside the rotating cylinder 42, by the cooperation of the telescopic button 226 with the rotating groove, thereby driving the telescopic rod 224 to rotate, the telescopic rod 224 rotates to drive the telescopic thin rod 225 to rotate, the telescopic thin rod 225 rotates to drive the V-shaped fork rod 227 on the telescopic thin rod 225 to clamp the stretching fixing thin rope 33 to rotate in the goose-down box body 1, and therefore the goose-down in the goose-down box body 1 is sleeved on the stretching fixing thin rope 33.

Preferably, the binding device 5 comprises a binding base 51, a binding motor 52, a binding left gear 53, a binding right gear 54 and a binding collar 55, the binding base 51 is arranged at the side end of the rotating frame 41, the binding motor 52 is arranged on the binding base 51, the binding left gear 53 is arranged at the output end of the binding motor 52, the binding right gear 54 is arranged at the side end of the binding left gear 53 and is meshed with the binding left gear 53, the center of the binding right gear 54 is arranged in a hollow manner, the binding collar 55 is arranged on the binding right gear 54, the binding right gear 54 is connected with the goose down box body 1 through the discharging pipe 12 and is arranged in a communicating manner, a number control thorn 56 is arranged at the joint of the interior of the goose down box body 1 and the discharging pipe 12, an adhesive tape is arranged on the binding collar 51, and the adhesive tape can be sleeved on the binding collar 55 through the arranged binding collar 55, the quantity control thorns 56 can be used for pulling and buckling the sleeved goose down when the sleeved goose down is arranged, so that the production numerical value of the sleeved goose down can be quantitatively controlled in the production and processing process of the goose down rod, the binding motor 52 operates to drive the binding left gear 53 on the output end of the binding motor 52 to rotate, the binding left gear 53 rotates to drive the binding right gear 54 to rotate, and the binding right gear 54 rotates to drive the binding lantern ring 55 to rotate.

Preferably, the cutting device 6 includes a cutting frame 61, a cutting disc 62, a plurality of cutting posts 63 and a cutting blade 64, the cutting frame 61 is horizontally disposed and located at a side end of the rotating frame 41, the cutting disc 62 is disposed on the cutting frame 61, the plurality of cutting posts 63 are disposed on the cutting disc 62, the cutting blade 64 is disposed on one cutting post 63, in preparation, the adhesive tape is firstly sleeved on the binding collar 55, then the head end of the adhesive tape is stretched onto the cutting blade 64, the adhesive tape on the binding collar 55 rotates one circle through the binding collar 55 and turns on the hollow wood stick 43 one circle, the cutting posts 63 on the cutting disc 62 are driven to rotate one grid through the binding collar 55 rotating one circle, so as to drive the cutting blade 64 on the cutting post 63 to separate from one end of the adhesive tape, when the binding collar 55 rotates six circles, the goose stick can be exactly bound and fixed on the hollow wood stick 43, after the cutting post 63 rotates six grids, the cutting blade 64 on one cutting post 63 is driven to cut the adhesive tape, and after the cutting blade 64 cuts the adhesive tape, one end of the adhesive tape is adhered to the cutting blade 64, so that the hollow wooden stick 43 and the goose down are fixed.

The working principle is as follows: when the goose-feather picking rod is produced and processed, firstly, goose-feather is manually placed in the goose-feather box body 1 through the feed port 11, then the hollow wood stick 43 is clamped and placed on the rotating frame 41 through the operation of the manipulator, after the hollow wood stick 43 is placed, the adhesive tape is sleeved on the binding lantern ring 55, the operation of the swing motor 212 drives the telescopic rod 224 and the telescopic thin rod 225 on the moving block to move forwards in the rotating cylinder 42, when the V-shaped fork rod 227 on the telescopic thin rod 225 is moved to touch the stretching fixing thin rope 33 and then is clamped, the V-shaped fork rod 227 clamps the stretching fixing thin rope 33 and then continues to move towards the inside of the hollow wood stick 43, after the stretching fixing thin rope 33 is clamped by the V-shaped fork rod 227 and moves through the hollow wood stick 43, the V-shaped fork rod 227 continues to move forwards, penetrates through the right gear 54 and the discharge pipe 12 and moves to the inside of the goose-feather box body 1, at this time, the telescopic knob 226 on the telescopic rod 224 is positioned at the rotating groove inside the rotating cylinder 42, when the V-shaped fork rod 227 clamps the stretching and fixing thin rope 33 and continues to move in the goose-down box body 1, the stretching and fixing thin rope 224 is driven to rotate through the matching of the stretching knob 226 and the rotating groove, the stretching rod 224 rotates to drive the stretching thin rod 225 to rotate, the stretching thin rod 225 rotates to drive the V-shaped fork rod 227 on the stretching thin rod 225 to clamp the stretching and fixing thin rope 33 to rotate in the goose-down box body 1, so that the goose down in the goose-down box body 1 is sleeved on the stretching and fixing thin rope 33, after the sleeving is completed, the V-shaped fork rod 227 is driven to clamp the stretching and fixing thin rope 33 through the operation of the swing motor 212 to move out the sleeved goose down through the discharge pipe 12, after the goose down is moved out of the goose-down box body 1, the sleeved goose down is pulled and buckled through the quantity control thorns 56 in the goose-down box body 1, and the quantity of the goose down is quantitatively controlled in the production and processing process of the goose-down rod, when the V-shaped fork rod 227 clamps the stretching and fixing string 33 and moves out of the discharge pipe 12 and is positioned on one side of the binding right gear 54, the swing motor 212 stops running, the binding motor 52 runs to drive the adhesive tape on the binding sleeve ring 55 to rotate around, so that goose down is bound on the hollow stick 43 through the adhesive tape, the cutting column 63 on the cutting disc 62 is driven to rotate while the binding sleeve ring 55 rotates, so that the cutting blade 56 on the cutting column 63 is driven to cut the adhesive tape, after the cutting is finished, the swing motor 212 runs to drive the stretching and fixing string 225 and the stretching and fixing string 224 to return to the initial position, the stretching and fixing string 33 is not influenced by force, and the stretching and fixing string 33 rebounds to the initial position through the clockwork spring 32, so that the automatic production of the goose down sticks is realized.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.