CN115120988A - Floss filling machine for plush toy shoes - Google Patents

Abstract

The invention relates to a velvet toy shoe silk floss filling machine, which comprises a bottom plate frame and a supporting die frame arranged at the upper end of the bottom plate frame, wherein the middle part of the upper end of the supporting die frame is provided with a connecting groove, the front side and the rear side of the supporting die frame are respectively provided with a cabinet door, and the velvet toy shoe silk floss filling machine also comprises: the device comprises a dispersing module, a filling module and a feeding pipe, wherein the dispersing module is installed in a connecting groove at the upper end of a support die carrier, the dispersing module is used for uniformly dispersing silk floss raw materials, the filling module is installed at the right end of the dispersing module, the filling module is used for uniformly filling the dispersed silk floss in the dispersing module into plush toy shoes, the feeding pipe is installed in the middle of the upper end of the dispersing module, and the feeding pipe is communicated with the dispersing module. When the plush toy shoe is filled, the floss raw materials can be effectively stirred and dispersed, the phenomena of winding and knotting of the raw materials are avoided, and meanwhile, impurities in the raw materials can be removed, so that the subsequent uniform filling of the raw materials is facilitated.

Description

Floss filling machine for plush toy shoes

Technical Field

The application relates to the field of silk floss filling, in particular to a silk floss filling machine for plush toy shoes.

Background

The plush toy is made of plush fabric and other textile materials as main fabrics, and various fillers are filled in the plush toy, and the plush toy has the characteristics of vivid and lovely shape, soft touch, extrusion resistance, convenience in cleaning, strong decoration and the like. Therefore, the plush toy is a good choice for children's toys, for decorating houses and for delivering as a gift.

In the existing silk floss filling equipment of plush toy shoes, such as Chinese patent with publication number CN215461984U, a filling device for plush toy processing is disclosed, specifically, filling cotton is filled into a filling cotton storage box, a pushing handle is held, the filling cotton storage box is inlaid below the inside of a frame body, a reserved opening of the plush toy penetrates through an external adjustable filling head, a sliding block is held to push the filling head backwards, a high-elasticity return spring inside is contracted, an adjusting sheet contraction hoop is pulled backwards through a steel wire connecting rope, four triangular opening and closing opening adjusting sheets are opened inside the plush toy, a foot is stepped on a switch, a plush toy filling machine is started, cotton in the filling cotton storage box is conveyed into a fixed filling opening through a cotton suction opening, and the cotton is conveyed to the plush toy through a fixed cotton conveying pipe.

In the prior art, the stuffed toy can be filled, but on the first hand, when the stuffed toy is filled in the prior art, the silk floss raw materials cannot be dispersed and purified, and are easy to be wound and knotted, so that the subsequent filling effect of the raw materials is influenced; in the second aspect, in the prior art, when the stuffed toy is stuffed, the control is performed by the foot switch, and at present, the hands and the feet are required to be matched with each other when the stuffed toy is stuffed with silk floss, and the foot switch is easy to be touched by mistake.

Disclosure of Invention

Inside in order to realize filling plush toy shoes to velvet homodisperse, this application provides a plush toy shoes silk floss filling machine.

The application provides a plush toy shoes silk floss filling machine adopts following technical scheme:

the utility model provides a plush toy shoes silk floss filling machine, includes the bed plate frame and sets up the support die carrier in the bed plate frame upper end, supports die carrier upper end middle part and is provided with the spread groove, and both sides are provided with the cabinet door respectively around the support die carrier, still include:

the dispersion module is arranged in a connecting groove at the upper end of the support die frame and is used for uniformly dispersing the silk floss raw material;

the filling module is arranged at the right end of the dispersion module and is used for uniformly filling the dispersed silk floss in the dispersion module into the plush toy shoes;

the feed pipe is installed in dispersion module upper end middle part, and the feed pipe is linked together with dispersion module.

Through adopting above-mentioned technical scheme, carry the dispersion module through the inlet pipe inside with the raw materials, the dispersion module can carry out homodisperse to the raw materials, prevents that the raw materials from taking place to twine accumulational phenomenon, and the dispersion module can filter the removal to the inside impurity of raw materials simultaneously, and the silk floss raw materials after the dispersion are inside through filling the module and evenly filling plush toy shoes.

Preferably, the dispersion module includes a fixed cylinder, a drive assembly, a rotating sleeve, a dispersion assembly, a grid plate and a negative pressure fan, the fixed cylinder be cylindrical hollow structure, the fixed cylinder is installed at support die carrier upper end middle part, the fixed cylinder mid-mounting has a drive assembly, the rotating sleeve is installed in the drive assembly outside, the rotating sleeve passes through the bearing and installs inside the fixed cylinder, be provided with the annular chamber between fixed cylinder and the rotating sleeve, evenly be provided with the dispersion assembly in the annular chamber, the dispersion assembly is installed on the rotating sleeve outer wall, the rotating sleeve right side is open structure, the grid plate is installed on the rotating sleeve right side, evenly be provided with the discharge opening on the grid plate, the grid plate is connected with the drive assembly through the bearing, the negative pressure fan is installed on the drive assembly right side.

By adopting the technical scheme, when the driving component rotates, the driving component can drive the negative pressure fan to work, so that negative pressure is generated inside the rotating sleeve, silk floss raw materials enter the annular cavity between the fixed cylinder and the rotating sleeve through the feeding pipe, the silk floss raw materials enter the rotating sleeve through the feeding hole due to the negative pressure generated inside the rotating sleeve, and when the raw materials move to the inside of the filling module, the negative pressure fan can drive the raw materials to be sprayed outwards.

Preferably, drive assembly includes driving motor, axis of rotation and connecting rod, driving motor passes through the motor cabinet and installs on the fixed cylinder left side, installs the axis of rotation on driving motor's the output shaft, and the axis of rotation runs through the setting inside rotating the sleeve, and the axis of rotation is connected with rotating the sleeve through the connecting rod.

Through adopting above-mentioned technical scheme, driving motor can drive through the axis of rotation and rotate sleeve simultaneous movement, rotates the sleeve and can carry out homodisperse to the raw materials through the dispersion subassembly, does benefit to the raw materials entering after the dispersion and rotates inside the sleeve.

Preferably, the dispersion subassembly includes baffle, live-rollers, driving lever, running gear and ring frame, evenly install the baffle on the live-rollers lateral surface, install the live-rollers through the bearing between the adjacent baffle, the live-rollers is cylindrical structure, has evenly arranged the driving lever on the live-rollers, and running gear is installed to the live-rollers tip, and the ring frame is installed on the inside left side of fixed cylinder, and the ring frame inboard evenly is provided with the latch, and the latch meshes with running gear respectively mutually.

Through adopting above-mentioned technical scheme, when rotating the sleeve and rotating, rotate the sleeve and drive live-rollers synchronous motion, the running gear of live-rollers tip meshes with the latch of ring frame mutually for the live-rollers can the rotation along with rotating the synchronous pivoted of sleeve, and the driving lever on the live-rollers can be stirred the raw materials, prevents that the silk floss raw materials from blockking up in the feed inlet of rotating the sleeve outside.

Preferably, the outer side surface of the rotating sleeve is uniformly provided with an arc-shaped groove, the inner side surface of the arc-shaped groove is uniformly provided with a feeding hole, the arc-shaped groove and the rotating roller are coaxial, and the deflector rod is tightly attached to the inner side surface of the arc-shaped groove.

Through adopting above-mentioned technical scheme, when rotating the inside negative pressure that produces of sleeve, the silk floss raw materials can get into through the feed port and rotate inside the sleeve, and when the raw materials took place to block up on the feed port, the driving lever can be stirred the raw materials.

Preferably, evenly install the dispersion board on the fixed section of thick bamboo inner wall, the dispersion board is the rectangle structure, evenly is provided with U type frame on the dispersion board, and U type frame is corresponding with the driving lever.

Through adopting above-mentioned technical scheme, when the annular chamber of raw materials between solid fixed cylinder and rotating sleeve is inside, the dispersion plate can play the effect of stirring, and when the driving lever passed from the U type frame middle part on the dispersion plate, the driving lever can disperse the raw materials, does benefit to the raw materials and carries out follow-up processing.

Preferably, the filling module comprises a discharge barrel, a connecting frame and a filling assembly, the discharge barrel is installed on the right side of the fixed barrel and is of a funnel-shaped structure, the connecting frame is installed on the right side of the discharge barrel, and the filling assembly is connected to the middle of the connecting frame in a thread fit mode.

By adopting the technical scheme, when the raw materials enter the discharging barrel, the raw materials are uniformly filled into the plush toy shoes through the filling assembly.

Preferably, fill the subassembly and include pipe, expanding spring, carriage and rotation sleeve pipe, the pipe is installed on the link right side, is connected with the carriage through sliding fit's mode on the pipe, lies in to install expanding spring on the left pipe of carriage, installs the rotation sleeve pipe through the bearing on the carriage.

By adopting the technical scheme, the end part of the plush toy shoe is provided with the opening, the end part of the conduit is inserted into the opening on the plush toy shoe, the opening is connected with the sliding frame, and the conduit is inserted into the deepest part of the plush toy shoe through the sliding frame, so that the raw materials can be filled from inside to outside.

Preferably, the sliding frame is provided with a guide groove, a resistance switch is arranged in the guide groove, and the lower end of the rotating sleeve is connected with the resistance switch.

Through adopting above-mentioned technical scheme, it is connected with driving motor through resistance switch to rotate the sleeve pipe, when rotating the sleeve pipe and rotating, rotates sleeve pipe and resistance switch contact for driving motor circular telegram, along with rotating sleeve pipe pivoted angle is big more, and the access value of resistance is little less, and driving motor's rotational speed is fast more.

Preferably, the end of the conduit is provided with a guide sleeve, the guide sleeve is made of flexible material, and the end of the guide sleeve is provided with a groove.

By adopting the technical scheme, the guide sleeve made of flexible materials can play a role in buffering, and the phenomenon that plush toy shoes are damaged is avoided.

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

1. in order to prevent the silk floss raw material from winding, the dispersing assembly is arranged in the invention, when the rotating sleeve rotates, the rotating sleeve drives the rotating roller to synchronously move, the rotating gear at the end part of the rotating roller is meshed with the latch of the annular frame, so that the rotating roller can rotate while synchronously rotating along with the rotating sleeve, and the deflector rod on the rotating roller can stir the raw material to prevent the raw material from winding and knotting;

2. in order to ensure that the dispersed silk floss raw materials can accurately enter the rotating sleeve, the outer side surface of the rotating sleeve is uniformly provided with arc-shaped grooves, the inner side surface of each arc-shaped groove is uniformly provided with a feeding hole, the arc-shaped grooves are coaxial with the rotating roller, and the deflector rod is tightly attached to the inner side surface of each arc-shaped groove;

3. in order to facilitate accurate control of silk floss filling, a guide groove is formed in the sliding frame, a resistance switch is arranged in the guide groove, the lower end of the rotating sleeve is connected with the resistance switch, the rotating sleeve is connected with a driving motor through the resistance switch, when the rotating sleeve rotates, the rotating sleeve is in contact with the resistance switch, the driving motor is powered on, the larger the rotating angle of the rotating sleeve is, the smaller the resistance access value is, and the higher the rotating speed of the driving motor is, so that accurate manual regulation and control are facilitated.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a schematic sectional structure of the present application.

Fig. 3 is a partial structural schematic diagram between the dispersing module and the filling module of the present application.

Fig. 4 is a schematic cross-sectional view of the dispersion module of the present application with respect to the feed tube.

Fig. 5 is a schematic cross-sectional view of a dispersion module according to the present application.

FIG. 6 is a schematic perspective view of a fill module of the present application;

FIG. 7 is a schematic cross-sectional view of a fill module of the present application;

fig. 8 is a schematic cross-sectional structure of a dispersion plate according to the present application.

Description of reference numerals: 1. a bottom plate frame; 2. supporting the die carrier; 3. a dispersion module; 31. a fixed cylinder; 311. a dispersion plate; 32. a drive assembly; 321. a drive motor; 322. a rotating shaft; 323. a connecting rod; 33. rotating the sleeve; 34. a dispersion assembly; 341. a baffle plate; 342. a rotating roller; 343. a deflector rod; 344. a rotating gear; 345. an annular frame; 35. a grid plate; 36. a negative pressure fan; 4. a filling module; 41. a discharging barrel; 42. a connecting frame; 43. a fill assembly; 431. a conduit; 432. a tension spring; 433. a carriage; 434. rotating the sleeve; 5. and (4) feeding a pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses plush toy shoes silk floss filling machine, the realization that can be accurate is to filling the inside function of plush toy shoes after dispersing the silk floss raw materials.

The first embodiment is as follows:

referring to fig. 1-2, for a fine hair toy shoes silk floss filling machine that this embodiment disclosed, including base plate frame 1 and the support die carrier 2 of setting in base plate frame 1 upper end, support 2 upper ends middle parts of die carrier and be provided with the spread groove, both sides are provided with the cabinet door respectively around the support die carrier 2, still include:

the dispersing module 3 is arranged in a connecting groove at the upper end of the supporting die carrier 2, and the dispersing module 3 is used for uniformly dispersing silk floss raw materials;

the filling module 4 is arranged at the right end of the dispersing module 3, and the filling module 4 is used for uniformly filling the floss silk dispersed in the dispersing module 3 into the plush toy shoes;

and the feeding pipe 5 is arranged in the middle of the upper end of the dispersion module 3, and the feeding pipe 5 is communicated with the dispersion module 3.

In the in-service use process, inlet pipe 5 is linked together with the material case, and inside dispersion module 3 was carried with the raw materials through inlet pipe 5, dispersion module 3 can carry out homodisperse to the raw materials, prevented that the raw materials from taking place to twine accumulational phenomenon, and dispersion module 3 can filter the getting rid of to the inside impurity of raw materials simultaneously, and the silk floss raw materials after the dispersion is inside through filling module 4 evenly filling plush toy shoes.

The feeding pipe 5 is detachably arranged, and the feeding pipe 5 with a proper size is selected according to the size of the plush toy shoes to be processed, so that the uniform filling effect of the plush toy shoes is ensured.

Example two:

referring to fig. 2 to 5, on the basis of the first embodiment, in order to achieve uniform dispersion of the silk floss raw material and filtration and removal of the raw material, a corresponding dispersion module 3 is provided in the second embodiment.

Referring to fig. 2 to 3, the dispersing module 3 includes a fixed cylinder 31, a driving assembly 32, a rotating sleeve 33, a dispersing assembly 34, a grid plate 35 and a negative pressure fan 36, fixed cylinder 31 be cylindrical hollow structure, fixed cylinder 31 is installed at the 2 upper ends middle parts of support die carrier, fixed cylinder 31 mid-mounting has drive assembly 32, drive assembly 32 installs outside and rotates sleeve 33, it installs inside fixed cylinder 31 to rotate sleeve 33 through the bearing, be provided with the annular chamber between fixed cylinder 31 and the rotation sleeve 33, evenly be provided with dispersion subassembly 34 in the annular chamber, dispersion subassembly 34 is installed on rotating sleeve 33 outer wall, it is open structure to rotate sleeve 33 right side, rotating sleeve 33 installs grid plate 35 in the right side, evenly be provided with the discharge opening on grid plate 35, grid plate 35 is connected with drive assembly 32 through the bearing, negative pressure fan 36 is installed on drive assembly 32 right side.

In the actual use process, when the driving assembly 32 rotates, the driving assembly 32 can drive the negative pressure fan 36 to work, so that negative pressure is generated inside the rotating sleeve 33, the silk floss raw material enters the annular cavity between the fixed cylinder 31 and the rotating sleeve 33 through the feeding pipe 5, due to the negative pressure generated inside the rotating sleeve 33, the silk floss raw material enters the rotating sleeve 33 through the feeding hole, and when the raw material moves to the inside of the filling module 4, the negative pressure fan 36 can drive the raw material to be sprayed outwards.

The driving assembly 32 comprises a driving motor 321, a rotating shaft 322 and a connecting rod 323, the driving motor 321 is installed on the left side of the fixed cylinder 31 through a motor base, the rotating shaft 322 is installed on an output shaft of the driving motor 321, the rotating shaft 322 penetrates through the rotating sleeve 33, and the rotating shaft 322 is connected with the rotating sleeve 33 through the connecting rod 323.

In the in-service use process, driving motor 321 can drive through axis of rotation 322 and rotate sleeve 33 synchronous motion, and it can carry out homodisperse to the raw materials through dispersion subassembly 34 to rotate sleeve 33, does benefit to inside the raw materials entering of dispersed sleeve 33.

In order to prevent the silk floss raw material from winding, the dispersing assembly 34 is provided in the embodiment, the dispersing assembly 34 includes a baffle 341, a rotating roller 342, a shift lever 343, a rotating gear 344 and an annular frame 345, the baffle 341 is uniformly installed on the outer side surface of the rotating sleeve 33, the rotating roller 342 is installed between adjacent baffles 341 through a bearing, the rotating roller 342 is in a cylindrical structure, the shift lever 343 is uniformly arranged on the rotating roller 342, the rotating gear 344 is installed at the end of the rotating roller 342, the annular frame 345 is installed on the left side inside the fixed cylinder 31, and the inner side of the annular frame 345 is uniformly provided with latch teeth which are respectively meshed with the rotating gear 344.

In the actual use process, when the rotating sleeve 33 rotates, the rotating sleeve 33 drives the rotating roller 342 to move synchronously, the rotating gear 344 at the end of the rotating roller 342 is meshed with the latch of the annular frame 345, so that the rotating roller 342 can rotate along with the rotating sleeve 33 synchronously, and the shift lever 343 on the rotating roller 342 can shift the raw materials, thereby preventing the silk floss raw materials from blocking the feed hole outside the rotating sleeve 33.

In order to ensure that the dispersed silk floss raw material can accurately enter the rotating sleeve 33, in this embodiment, an arc-shaped groove is uniformly arranged on the outer side surface of the rotating sleeve 33, a feeding hole is uniformly arranged on the inner side surface of the arc-shaped groove, the arc-shaped groove and the rotating roller 342 are coaxial, and the shift lever 343 is tightly attached to the inner side surface of the arc-shaped groove.

In the in-service use process, when the inside negative pressure that produces of rotating sleeve 33, the silk floss raw materials can get into inside rotating sleeve 33 through the feed port, and when the raw materials took place to block up on the feed port, driving lever 343 can stir the raw materials.

It should be noted that, in order to prevent the silk floss raw material from being blocked, the position of the shift lever 343 corresponds to the position of the feed port, the inner side surface of the shift lever 343 is tightly attached to the surface of the arc-shaped groove, and when the shift lever 343 rotates, the shift lever 343 can shift the raw material which does not completely enter the interior of the feed port, thereby preventing the feed port from being blocked.

In order to further improve the dispersion effect of the raw materials, the inner wall of the fixed cylinder 31 in this embodiment is uniformly provided with a dispersion plate 311, the dispersion plate 311 is in a rectangular structure, and the dispersion plate 311 is uniformly provided with a U-shaped frame corresponding to the shift lever 343.

In the in-service use process, when the raw materials is inside the annular chamber between fixed cylinder 31 and the rotating sleeve 33, dispersion plate 311 can play the effect of stirring, and when driving lever 343 passed through from the U type frame middle part on dispersion plate 311, driving lever 343 can disperse the raw materials, prevents that silk floss from taking place winding phenomenon, does benefit to the raw materials and carries out subsequent processing.

It should be noted that, when impurities are doped in the silk floss raw material or the silk floss raw material is twisted, the impurities and the twisted silk floss will not enter the inside of the rotating sleeve 33 through the feeding hole, and the impurities and the twisted silk floss will be always located in the annular cavity between the fixed cylinder 31 and the rotating sleeve 33.

It should be noted that a discharge outlet is arranged at the lower end of the fixed cylinder 31, an arc-shaped plate is arranged on the discharge outlet, and when the impurities accumulated in the annular cavity are more, the impurities and the wound silk floss are manually collected through the discharge outlet.

Example three:

referring to fig. 6 to 7, in addition to the second embodiment, in order to achieve the function of uniformly filling the dispersed raw material into the inside of the plush toy shoe, a corresponding filling module 4 is provided in the third embodiment.

Fill module 4 and include play feed cylinder 41, link 42 and packing subassembly 43, play feed cylinder 41 installs on solid fixed cylinder 31 right side, goes out feed cylinder 41 and is the infundibulate structure, goes out feed cylinder 41 right side and installs link 42, and link 42 middle part is connected with packing subassembly 43 through screw-thread fit's mode.

In actual use, when the raw materials enter the discharging barrel 41, the raw materials are uniformly filled into the plush toy shoes through the filling assembly 43.

The filling assembly 43 comprises a guide pipe 431, a telescopic spring 432, a sliding frame 433 and a rotating sleeve 434, wherein the guide pipe 431 is installed on the right side of the connecting frame 42, the sliding frame 433 is connected to the guide pipe 431 in a sliding fit mode, the telescopic spring 432 is installed on the guide pipe 431 located on the left side of the sliding frame 433, and the rotating sleeve 434 is installed on the sliding frame 433 through a bearing.

In actual use, an opening is formed in the end of the plush toy shoe, the end of the conduit 431 is inserted into the opening in the plush toy shoe, the opening is connected with the sliding frame 433, and the conduit 431 is inserted into the deepest part of the plush toy shoe through the sliding frame 433, so that raw materials can be filled from inside to outside.

In order to facilitate accurate control of silk floss filling, a guide groove is formed in the sliding frame 433 in the embodiment, a resistance switch is arranged in the guide groove, a return spring is arranged in the guide groove, and the lower end of the rotary sleeve 434 is connected with the resistance switch.

In practical use, the rotating sleeve 434 is connected to the driving motor 321 through a resistance switch, and when the rotating sleeve 434 rotates, the rotating sleeve 434 contacts the resistance switch to electrify the driving motor 321, and as the rotating angle of the rotating sleeve 434 is larger, the access value of the resistance is smaller, and the rotating speed of the driving motor 321 is faster.

The end part of the conduit 431 is provided with a guide sleeve which is made of flexible material, and the end part of the guide sleeve is provided with a groove.

In the actual use process, the guide sleeve made of flexible materials can play a role in buffering, the conduit 431 is prevented from puncturing the plush toy shoes, and the subsequent processing of the plush toy shoes is facilitated.

The implementation principle of the embodiment is as follows:

s1: the raw material is filled, the feeding pipe 5 is communicated with an external material box, when the driving assembly 32 rotates, the driving assembly 32 can drive the negative pressure fan 36 to work, so that negative pressure is generated inside the rotating sleeve 33, and the silk floss raw material enters an annular cavity between the fixed cylinder 31 and the rotating sleeve 33 through the feeding pipe 5.

S2: raw material dispersion cleaning, when the rotating sleeve 33 rotates, the rotating sleeve 33 drives the rotating roller 342 to move synchronously, the rotating gear 344 at the end of the rotating roller 342 is meshed with the latch of the annular frame 345, so that the rotating roller 342 can rotate along with the rotating sleeve 33 synchronously, the shift lever 343 on the rotating roller 342 can shift the raw material, the silk floss raw material is prevented from blocking the feed hole on the outer side of the rotating sleeve 33, and the dispersed raw material enters the rotating sleeve 33 through the feed hole.

S3: the raw materials are filled, an opening is formed in the end portion of each plush toy shoe, the end portion of the guide pipe 431 is inserted into the opening on each plush toy shoe, the opening is connected with the sliding frame 433, the guide pipe 431 is inserted into the deepest portion of each plush toy shoe through the sliding frame 433, the raw materials can be filled from inside to outside, the driving motor 321 can be controlled through the rotating sleeve 434, and then the filling of the raw materials can be regulated and controlled in real time.

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

Claims (10)

1. The utility model provides a wool toy shoes silk floss filling machine, includes bed plate frame (1) and support die carrier (2) of setting in bed plate frame (1) upper end, supports die carrier (2) upper end middle part and is provided with the spread groove, and both sides are provided with the cabinet door respectively around supporting die carrier (2), and its characterized in that still includes:

the dispersion module (3), the dispersion module (3) is installed in the connecting groove at the upper end of the support die carrier (2), and the dispersion module (3) is used for uniformly dispersing the silk floss raw material;

the filling module (4), the filling module (4) is installed at the right end of the dispersing module (3), and the filling module (4) is used for uniformly filling the floss silk dispersed in the dispersing module (3) into the plush toy shoes;

the feeding pipe (5), the feeding pipe (5) is installed in the middle of the upper end of the dispersion module (3), and the feeding pipe (5) is communicated with the dispersion module (3).

2. The plush toy shoe floss filling machine according to claim 1, characterized in that: the dispersing module (3) comprises a fixed cylinder (31), a driving assembly (32), a rotating sleeve (33), a dispersing assembly (34), a grid plate (35) and a negative pressure fan (36), the fixed cylinder (31) is of a cylindrical hollow structure, the fixed cylinder (31) is installed in the middle of the upper end of the support die carrier (2), the driving assembly (32) is installed in the middle of the fixed cylinder (31), the rotating sleeve (33) is installed on the outer side of the driving assembly (32), the rotating sleeve (33) is installed inside the fixed cylinder (31) through a bearing, an annular cavity is arranged between the fixed cylinder (31) and the rotating sleeve (33), the dispersing assembly (34) is uniformly arranged in the annular cavity, the dispersing assembly (34) is installed on the outer wall of the rotating sleeve (33), the right side of the rotating sleeve (33) is of an open structure, the grid plate (35) is installed on the right side of the rotating sleeve (33), and discharge holes are uniformly formed in the grid plate (35), the grid plate (35) is connected with the driving component (32) through a bearing, and the right side of the driving component (32) is provided with a negative pressure fan (36).

3. The plush toy shoe floss filling machine according to claim 2, characterized in that: drive assembly (32) include driving motor (321), axis of rotation (322) and connecting rod (323), driving motor (321) are installed on fixed section of thick bamboo (31) left side through the motor cabinet, install axis of rotation (322) on the output shaft of driving motor (321), and axis of rotation (322) run through to set up inside rotating sleeve (33), and axis of rotation (322) are connected with rotating sleeve (33) through connecting rod (323).

4. The plush toy shoe floss filling machine according to claim 2, characterized in that: dispersion subassembly (34) are including baffle (341), live-rollers (342), driving lever (343), bull gear (344) and ring frame (345), evenly install baffle (341) on rotating sleeve (33) lateral surface, live-rollers (342) are installed through the bearing between adjacent baffle (341), live-rollers (342) are cylindrical structure, evenly arranged on live-rollers (342) driving lever (343), live-gears (344) are installed to live-rollers (342) tip, ring frame (345) are installed to the inside left side of fixed cylinder (31), ring frame (345) inboard evenly is provided with the latch, the latch meshes with live-gears (344) respectively mutually.

5. The plush toy shoe floss filler as claimed in claim 4, wherein: arc-shaped grooves are uniformly formed in the outer side face of the rotating sleeve (33), feeding holes are uniformly formed in the inner side face of each arc-shaped groove, the arc-shaped grooves are coaxial with the rotating rollers (342), and the shifting rods (343) are tightly attached to the inner side face of each arc-shaped groove.

6. The plush toy shoe floss filler as claimed in claim 5, wherein: the dispersion plate (311) is uniformly installed on the inner wall of the fixed cylinder (31), the dispersion plate (311) is of a rectangular structure, U-shaped frames are uniformly arranged on the dispersion plate (311), and the U-shaped frames correspond to the shifting rods (343).

7. The plush toy shoe floss filler as claimed in claim 2, wherein: fill module (4) including play feed cylinder (41), link (42) and packing subassembly (43), go out feed cylinder (41) and install on solid fixed cylinder (31) right side, go out feed cylinder (41) and be the infundibulate structure, go out feed cylinder (41) right side and install link (42), link (42) middle part is connected with packing subassembly (43) through screw-thread fit's mode.

8. The plush toy shoe floss filler of claim 7, wherein: fill subassembly (43) and include pipe (431), expanding spring (432), carriage (433) and rotation sleeve pipe (434), pipe (431) are installed on link (42) right side, are connected with carriage (433) through sliding fit's mode on pipe (431), are located and install expanding spring (432) on the pipe (431) on carriage (433) left side, install through the bearing on carriage (433) and rotate sleeve pipe (434).

9. The plush toy shoe floss filler of claim 8, wherein: the sliding frame (433) is provided with a guide groove, a resistance switch is arranged in the guide groove, and the lower end of the rotating sleeve (434) is connected with the resistance switch.

10. The plush toy shoe floss filler of claim 9, wherein: the end part of the guide pipe (431) is provided with a guide sleeve which is made of flexible materials, and the end part of the guide sleeve is provided with a groove.

Images