CN112481919A

CN112481919A - Automatic embossing machine for plush products

Info

Publication number: CN112481919A
Application number: CN202011416712.3A
Authority: CN
Inventors: 岑卫东
Original assignee: Cixi Juyuan Plush Products Co ltd
Current assignee: Cixi Juyuan Plush Products Co ltd
Priority date: 2020-12-07
Filing date: 2020-12-07
Publication date: 2021-03-12

Abstract

The invention relates to an automatic embossing machine for plush products, which comprises a rack, a bedplate transversely fixed at the top of the rack and a main body arranged on the upper side of the bedplate, wherein the main body comprises a first support frame, a second support frame, a first frame plate, a second frame plate, a traction assembly, a first embossing assembly and a second embossing assembly; the traction assembly, the first embossing assembly and the second embossing assembly are arranged between the first frame plate and the two second frame plates; the invention can adjust the height position of the transmission belt to adjust the vertical distance between each guide roller and the driving roller, the first embossing roller and the second embossing roller, thereby adjusting the tightness of the raw material according to the thickness and the feeding speed of the raw material, ensuring that the raw material can always keep proper tightness during embossing to effectively avoid the deformation of embossing patterns, further ensuring the embossing quality, reducing the processing reject ratio and simultaneously expanding the application range.

Description

Automatic embossing machine for plush products

Technical Field

The invention relates to an automatic embossing machine for plush products.

Background

When the plush product is processed, the plush product needs to be sequentially subjected to the working procedures of dyeing, carding, coating, embossing, shearing, hot rolling, air drying and the like, the embossing refers to the process of embossing patterns on the surface of a raw material by using an embossing roller, and the embossing is usually finished on a matched automatic embossing machine; the existing automatic embossing machine cannot adjust the tightness of raw materials according to the thickness and the feeding speed of the raw materials, has small application range, and is difficult to maintain in a proper range once the thickness and the feeding speed of the raw materials are changed, so that the embossing patterns are deformed due to over-tightness or over-looseness of the raw materials during embossing, the embossing quality is influenced, the processing reject ratio is increased, and a waiting solution is needed urgently.

Disclosure of Invention

In view of the current state of the prior art, the technical problem to be solved by the present invention is to provide an automatic embossing machine for plush products, which can adjust the tightness of raw materials according to the thickness and the feeding speed of the raw materials so that the raw materials can always keep proper tightness during embossing, thereby effectively avoiding the deformation of embossing patterns, ensuring the embossing quality, reducing the processing fraction defective and simultaneously expanding the application range.

The technical scheme adopted by the invention for solving the technical problems is as follows: the automatic embossing machine for the plush products comprises a rack, a bedplate transversely fixed at the top of the rack and a main body arranged on the upper side of the bedplate, and is characterized in that the main body comprises a first support frame, a second support frame, a first frame plate, a second frame plate, a traction assembly, a first embossing assembly and a second embossing assembly, wherein the first support frame and the second support frame are respectively fixed on the front side and the rear side of the upper plane of the bedplate; the traction assembly, the first embossing assembly and the second embossing assembly are arranged between the first frame plate and the two second frame plates; the traction assembly comprises a first motor, a first roller shaft and a driving roller; the first motor is fixed on the outer wall of one second frame plate at the rear side, the first roller shaft is transversely and rotatably inserted between the first frame plate and one second frame plate at the front side, and the rotating shaft of the first motor transversely and forwardly penetrates through one second frame plate at the rear side and is connected with the rear end of the first roller shaft; the driving roller is sleeved and fixed on the first roller shaft and is arranged between the first frame plate and a second frame plate on the front side; the first embossing assembly comprises a second motor, a second roller shaft and a first embossing roller, and the second motor is fixed on the outer wall of a second frame plate on the rear side; the second roller shaft transversely and rotatably penetrates between the first frame plate and a second frame plate on the front side, the rotating shaft of the second motor transversely and forwardly penetrates through the second frame plate on the rear side and is connected with the rear end of the second roller shaft, and the first embossing roller is sleeved and fixed on the second roller shaft and is arranged between the first frame plate and the second frame plate on the front side; the second embossing assembly comprises a third motor, a third roller and a second embossing roller; the third motor is fixed on the outer wall of a second frame plate at the rear side, the third roller shaft is transversely and rotatably inserted between the first frame plate and a second frame plate at the front side, the rotating shaft of the third motor transversely and forwardly penetrates through the second frame plate at the rear side and is connected with the rear end of the third roller shaft, and the second embossing roller is sleeved and fixed on the third roller shaft and is arranged between the first frame plate and the second frame plate at the front side; a first belt wheel is further sleeved and fixed on the first roller shaft, a second belt wheel is correspondingly sleeved and fixed on the second roller shaft, and a first belt is further sleeved and fixed on the first belt wheel and the second belt wheel; the first belt wheel is sleeved and fixed on the first roll shaft and is arranged between the two second frame plates, a third belt wheel is further sleeved and fixed on the second roll shaft, correspondingly, a fourth belt wheel is further sleeved and fixed on the third roll shaft, and a second belt is further sleeved and fixed on the third belt wheel and the fourth belt wheel; first band pulley, second band pulley, third band pulley, fourth band pulley, first belt and second belt all locate between two second frame plates, the rear side of third band pulley is located to the second band pulley.

Preferably, the embossing device further comprises a guide assembly, the guide assembly is arranged on the upper side of the bedplate and is matched with the traction assembly, the first embossing assembly and the second embossing assembly, the guide assembly comprises four transmission belts, guide units and lifting assemblies, the transmission belts are transversely fixed on the bedplate through the lifting assemblies, are arranged between the first frame plate and the second frame plate on the front side and are arranged below the traction assembly, the first embossing assembly and the second embossing assembly, the four guide units are sequentially arranged on the top of the transmission belts from left to right, each guide unit comprises a guide roller and two shaft seats, and the two shaft seats are symmetrically fixed on the edges of the front side and the rear side of the top of the transmission belt respectively; the guide roller is rotatably connected between the two shaft seats; the guide rollers in the four guide units are all parallel to each other and are distributed at intervals with the driving roller, the first embossing roller and the second embossing roller.

Preferably, the lifting assembly comprises a bottom plate, a lifting plate, a column sleeve, a guide column, a supporting plate and a driving assembly; the bottom plate is transversely fixed on the upper plane of the bedplate, the lifting plate is transversely arranged above the bottom plate, the number of the column sleeves is four, the four column sleeves are respectively embedded at four corners of the lifting plate, the number of the guide columns is four, the four guide columns are respectively vertically penetrated in the four column sleeves, the lower ends of the four guide columns are all fixed on the bottom plate, the number of the support plates is four, the four support plates are symmetrically arranged in pairs, the upper ends of the two support plates on the front side are all fixed on the front side edge of the conveying belt, the upper ends of the two support plates on the rear side are all fixed on the rear side edge of the conveying belt, and the lower end of each support plate is fixed on the upper plane of the; the driving assembly is arranged between the bottom plate and the lifting plate.

Preferably, the driving assembly comprises a first guide rail, a first sliding block, a traction seat, an internal thread seat, a screw, a hand wheel, an end block and a transmission assembly; the end block includes two, two end block all fixes on the last plane of bottom plate and distributes around, pull the seat and locate between two end blocks, first guide rail transversely fixes on the last plane of bottom plate and locates the below of pulling the seat, first slider includes a plurality of, a plurality of first slider all overlaps and establishes on first guide rail and all fixes the bottom at pulling the seat, the internal thread seat inlays to be established in pulling the seat, the screw rod transversely alternates in the internal thread seat spiro union, the rotatable interlude setting respectively in two end blocks in the both ends of screw rod, the place ahead of fixing at the front end of screw rod and locating an end block of front side is established to the hand wheel cover, transmission assembly locates between pulling seat and the lifter plate.

Preferably, the transmission assembly comprises a back plate, a connecting frame, a second guide rail and a second sliding block; the backplate is vertically fixed on the right side of traction seat, the link is fixed on the lower plane of lifter plate and is located the right side of backplate, the right side at the backplate is fixed in the slope of second guide rail, the left side of link still is fixed with two second sliders that slope distributes at least, every the second slider all overlaps and establishes on the second guide rail and all can follow the second guide rail and slide.

Preferably, a first support is further fixed to the front side of the lifting plate, a pointer plate is further fixed to the first support, a second support is further fixed to the upper plane of the base plate, a graduated scale is further fixed to the second support, and the pointer plate and the graduated scale are matched with each other.

Preferably, two wheel shafts which are transversely distributed and parallel to each other are further arranged between the two second frame plates in an inserting mode, a rotatable pressing wheel is further sleeved on each wheel shaft, and the two pressing wheels are respectively pressed on the upper side surfaces of the first belt and the second belt.

Preferably, each second frame plate is provided with two slotted holes, two ends of one wheel axle on the left side are respectively inserted into the slotted holes on the left sides of the two second frame plates, and two ends of one wheel axle on the right side are respectively inserted into the slotted holes on the right sides of the two second frame plates; and two ends of each wheel shaft are also sleeved with a nut in a screwed mode, and each nut is tightly pressed on the outer wall of the corresponding second frame plate.

Compared with the prior art, the invention has the advantages that: the invention can adjust the height position of the transmission belt to adjust the vertical distance between each guide roller and the driving roller, the first embossing roller and the second embossing roller, thereby adjusting the tightness of the raw material according to the thickness and the feeding speed of the raw material, ensuring that the raw material can always keep proper tightness during embossing to effectively avoid the deformation of embossing patterns, further ensuring the embossing quality, reducing the processing reject ratio and simultaneously expanding the application range.

Drawings

FIG. 1 is a right front side structural view of the present invention;

FIG. 2 is a right rear side structural view of the main body of the present invention;

FIG. 3 is a left front side structural view of the guide assembly of the present invention;

fig. 4 is a right rear side structural view of the transmission assembly of the present invention.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, a detailed description of known functions and known components of the invention have been omitted.

As shown in fig. 1 to 4, an automatic embossing machine for plush products comprises a frame 1, a platen 2 transversely fixed on the top of the frame 1, and a main body 3 arranged on the upper side of the platen 2, wherein the main body 3 comprises a first support frame 31, a second support frame 33, a first frame plate 32, a second frame plate 34, a traction assembly, a first embossing assembly and a second embossing assembly, the first support frame 31 and the second support frame 33 are respectively fixed on the front side and the rear side of the upper plane of the platen 2, the first frame plate 32 is vertically fixed on the top of the first support frame 31, the second frame plate 34 comprises two second frame plates 34, and the two second frame plates 34 are vertically fixed on the top of the second support frame 33 and sequentially arranged from front to rear; the traction assembly, the first embossing assembly and the second embossing assembly are arranged between the first frame plate 32 and the two second frame plates 34; the pulling assembly comprises a first motor 37, a first roller shaft 38 and a drive roller 35; the first motor 37 is fixed on the outer wall of one second frame plate 34 at the rear side, the first roller shaft 38 is transversely and rotatably inserted and connected between the first frame plate 32 and one second frame plate 34 at the front side, and the rotating shaft of the first motor 37 transversely and forwardly penetrates one second frame plate 34 at the rear side and is connected with the rear end of the first roller shaft 38; the driving roller 35 is fixed on the first roller shaft 38 and is arranged between the first frame plate 32 and a second frame plate 34 on the front side; the first embossing assembly includes a second motor 319, a second roller shaft 310 and a first embossing roller 36, the second motor 319 is fixed on an outer wall of one second frame plate 34 at the rear side; the second roller shaft 310 is transversely and rotatably inserted between the first frame plate 32 and a second frame plate 34 at the front side, the rotating shaft of the second motor 319 transversely and forwardly penetrates through a second frame plate 34 at the rear side and is connected with the rear end of the second roller shaft 310, and the first embossing roller 36 is sleeved and fixed on the second roller shaft 310 and is arranged between the first frame plate 32 and a second frame plate 34 at the front side; the second embossing assembly comprises a third motor 313, a third roller shaft 314 and a second embossing roller 315; a third motor 313 is fixed on the outer wall of one second frame plate 34 at the rear side, a third roller shaft 314 transversely and rotatably penetrates between the first frame plate 32 and one second frame plate 34 at the front side, the rotating shaft of the third motor 313 transversely and forwardly penetrates through one second frame plate 34 at the rear side and is connected with the rear end of the third roller shaft 314, and a second embossing roller 315 is sleeved and fixed on the third roller shaft 314 and is arranged between the first frame plate 32 and one second frame plate 34 at the front side; a first belt wheel 39 is further sleeved and fixed on the first roller shaft 38, correspondingly, a second belt wheel 311 is further sleeved and fixed on the second roller shaft 310, and a first belt 312 is further sleeved and fixed on the first belt wheel 39 and the second belt wheel 311; the first pulley 39 is sleeved and fixed on the first roller shaft 38 and is arranged between the two second frame plates 34, the second roller shaft 310 is further sleeved and fixed with a third pulley 318, correspondingly, the third roller shaft 314 is further sleeved and fixed with a fourth pulley 316, and the third pulley 318 and the fourth pulley 316 are further sleeved and fixed with a second belt 317; the first pulley 39, the second pulley 311, the third pulley 318, the fourth pulley 316, the first belt 312, and the second belt 317 are disposed between the two second chassis 34, and the second pulley 311 is disposed at the rear side of the third pulley 318.

The automatic embossing machine for the plush products further comprises a guide assembly 4, wherein the guide assembly 4 is arranged on the upper side of the bedplate 2 and matched with a traction assembly, a first embossing assembly and a second embossing assembly, the guide assembly 4 comprises a transmission belt 46, four guide units and lifting assemblies, the transmission belt 46 is transversely fixed on the bedplate 2 through the lifting assemblies, is arranged between the first frame plate 32 and one second frame plate 34 on the front side and is arranged below the traction assembly, the first embossing assembly and the second embossing assembly, the four guide units are sequentially arranged at the top of the transmission belt 46 from left to right, each guide unit comprises a guide roller 48 and two shaft seats 47, and the two shaft seats 47 are symmetrically fixed on the front side edge and the rear side edge of the top of the transmission belt 46 respectively; the guide roller 48 is rotatably connected between the two shaft seats 47; the guide rollers 48 of the four guide units are all parallel to each other and spaced apart from the drive roller 35, the first embossing roller 36 and the second embossing roller 315.

The lifting assembly comprises a bottom plate 41, a lifting plate 42, a column sleeve 43, a guide column 44, a supporting plate 45 and a driving assembly; the base plate 41 is transversely fixed on the upper plane of the bedplate 2, the lifting plate 42 is transversely arranged above the base plate 41, the column sleeves 43 comprise four columns, the four column sleeves 43 are respectively embedded at four corners of the lifting plate 42, the guide columns 44 comprise four columns, the four guide columns 44 are respectively vertically penetrated in the four column sleeves 43, the lower ends of the four guide columns 44 are all fixed on the base plate 41, the supporting plates 45 comprise four supporting plates 45, the four supporting plates 45 are symmetrically arranged in pairs, the upper ends of the two supporting plates 45 on the front side are all fixed on the front side edge of the transmission belt 46, the upper ends of the two supporting plates 45 on the rear side are all fixed on the rear side edge of the transmission belt 46, and the lower end of each supporting plate 45 is fixed; the drive assembly is disposed between the base plate 41 and the lift plate 42.

The driving assembly comprises a first guide rail 411, a first sliding block 412, a traction seat 49, an internal thread seat 413, a screw 414, a hand wheel 415, an end block 410 and a transmission assembly; the end blocks 410 comprise two end blocks 410, the two end blocks 410 are fixed on the upper plane of the base plate 41 and distributed front and back, the traction seat 49 is arranged between the two end blocks 410, the first guide rail 411 is transversely fixed on the upper plane of the base plate 41 and arranged below the traction seat 49, the first sliding block 412 comprises a plurality of sliding blocks, the first sliding blocks 412 are sleeved on the first guide rail 411 and fixed at the bottom of the traction seat 49, the internal thread seat 413 is embedded in the traction seat 49, the screw rod 414 is transversely threaded in the internal thread seat 413 in a penetrating manner, two ends of the screw rod 414 are respectively and rotatably threaded in the two end blocks 410, the hand wheel 415 is sleeved and fixed at the front end of the screw rod 414 and arranged in front of one end block 410 on the front side, and the transmission component is arranged between the traction seat 49 and the.

The driving assembly comprises a back plate 419, a connecting frame 416, a second guide rail 418 and a second sliding block 417; the back plate 419 is vertically fixed on the right side of the traction seat 49, the connecting frame 416 is fixed on the lower plane of the lifting plate 42 and is arranged on the right side of the back plate 419, the second guide rail 418 is obliquely fixed on the right side of the back plate 419, at least two second sliding blocks 417 obliquely distributed are further fixed on the left side of the connecting frame 416, and each second sliding block 417 is sleeved on the second guide rail 418 and can slide along the second guide rail 418.

A first support 420 is further fixed on the front side of the lifting plate 42, a pointer plate 421 is further fixed on the first support 420, a second support 422 is further fixed on the upper plane of the bottom plate 41, a graduated scale 423 is further fixed on the second support 422, and the pointer plate 421 is matched with the graduated scale 423.

Two wheel shafts 6 which are transversely distributed and parallel to each other are further arranged between the two second frame plates 34 in an inserting mode, a rotatable pressing wheel 5 is further sleeved on each of the two wheel shafts 6, and the two pressing wheels 5 are respectively pressed on the upper side surfaces of the first belt 312 and the second belt 317.

Each second frame plate 34 is provided with two slotted holes 341, two ends of one wheel axle 6 on the left side are respectively inserted into the slotted holes 341 on the left sides of the two second frame plates 34, and two ends of one wheel axle 6 on the right side are respectively inserted into the slotted holes 341 on the right sides of the two second frame plates 34; both ends of each wheel shaft 6 are also sleeved with a nut 7 in a screwed connection mode, and each nut 7 is pressed on the outer wall of the corresponding second frame plate 34.

When the plush product is used, one end of the plush product sequentially passes below the leftmost guide roller 48, above the driving roller 35, below the left second guide roller 48, above the first embossing roller 36, below the left third guide roller 48, above the second embossing roller 315 and below the rightmost one guide roller 48 from left to right along the upper side of the left end of the conveying belt 46, and is then led outwards to the right along the upper side of the right end of the conveying belt 46.

The conveying belt 46 is started to run, the first motor 37 is started to rotate the rotating shaft of the conveying belt, the driving roller 35 is driven to rotate by the first roller shaft 38, the first belt pulley 39 is driven to rotate by the rotation of the first roller shaft 38, the second roller shaft 310 and a third belt pulley 318 arranged on the second roller shaft 310 are driven to rotate in the same direction by the first belt 312 and the second belt pulley 311, the third roller shaft 314 is driven to rotate by the second belt 317 and the fourth belt pulley 316, the first embossing roller 36 and the second embossing roller 315 are driven to rotate in the same direction with the driving roller 35, and the plush product is driven to feed; if the plush product slips due to insufficient traction force, the second motor 319 or the third motor 313 can be started to work, and then the second roller shaft 310 or the third roller shaft 314 is driven to actively rotate, so that the traction force is increased.

If the tightness of the plush product conveying needs to be adjusted, the hand wheel 415 can be held by hand and rotated to further drive the screw 414 to rotate between the two end blocks 410, so as to drive the internal thread seat 413 to move back and forth according to the principle of threaded connection, further enable the traction seat 49 to slide back and forth along the first guide rail 411 by virtue of the plurality of first sliding blocks 412, further drive the second guide rail 418 to move back and forth by virtue of the back plate 419, further drive the lifting plate 42 to move up and down by virtue of the relative sliding between the second guide rail 418 and each second sliding block 417 fixed on the connecting frame 416, and further drive the lifting plate 42 to move up and down by virtue of the connecting frame 416, and when the lifting plate 42 moves, the four column sleeves 43 respectively slide up and down along the four guide columns 44.

When the lifting plate 42 moves up and down, the first support 420 drives the pointer plate 421 to move up and down, and the end of the pointer plate 421 moves up and down along the scale on the graduated scale 423, so as to accurately calculate and record the displacement of the lifting plate 42.

The invention can adjust the height position of the transmission belt 46 to adjust the vertical distance between each guide roller 48 and the driving roller 35, the first embossing roller 36 and the second embossing roller 315, thereby adjusting the tightness of the raw material according to the thickness and the feeding speed of the raw material, so that the raw material can always keep proper tightness during embossing to effectively avoid the deformation of an embossing pattern, further ensuring the embossing quality and reducing the processing fraction defective, and simultaneously expanding the application range.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. The automatic embossing machine for the plush products comprises a rack, a bedplate transversely fixed at the top of the rack and a main body arranged on the upper side of the bedplate, and is characterized in that the main body comprises a first support frame, a second support frame, a first frame plate, a second frame plate, a traction assembly, a first embossing assembly and a second embossing assembly, wherein the first support frame and the second support frame are respectively fixed on the front side and the rear side of the upper plane of the bedplate; the traction assembly, the first embossing assembly and the second embossing assembly are arranged between the first frame plate and the two second frame plates; the traction assembly comprises a first motor, a first roller shaft and a driving roller; the first motor is fixed on the outer wall of one second frame plate at the rear side, the first roller shaft is transversely and rotatably inserted between the first frame plate and one second frame plate at the front side, and the rotating shaft of the first motor transversely and forwardly penetrates through one second frame plate at the rear side and is connected with the rear end of the first roller shaft; the driving roller is sleeved and fixed on the first roller shaft and is arranged between the first frame plate and a second frame plate on the front side; the first embossing assembly comprises a second motor, a second roller shaft and a first embossing roller, and the second motor is fixed on the outer wall of a second frame plate on the rear side; the second roller shaft transversely and rotatably penetrates between the first frame plate and a second frame plate on the front side, the rotating shaft of the second motor transversely and forwardly penetrates through the second frame plate on the rear side and is connected with the rear end of the second roller shaft, and the first embossing roller is sleeved and fixed on the second roller shaft and is arranged between the first frame plate and the second frame plate on the front side; the second embossing assembly comprises a third motor, a third roller and a second embossing roller; the third motor is fixed on the outer wall of a second frame plate at the rear side, the third roller shaft is transversely and rotatably inserted between the first frame plate and a second frame plate at the front side, the rotating shaft of the third motor transversely and forwardly penetrates through the second frame plate at the rear side and is connected with the rear end of the third roller shaft, and the second embossing roller is sleeved and fixed on the third roller shaft and is arranged between the first frame plate and the second frame plate at the front side; a first belt wheel is further sleeved and fixed on the first roller shaft, a second belt wheel is correspondingly sleeved and fixed on the second roller shaft, and a first belt is further sleeved and fixed on the first belt wheel and the second belt wheel; the first belt wheel is sleeved and fixed on the first roll shaft and is arranged between the two second frame plates, a third belt wheel is further sleeved and fixed on the second roll shaft, correspondingly, a fourth belt wheel is further sleeved and fixed on the third roll shaft, and a second belt is further sleeved and fixed on the third belt wheel and the fourth belt wheel; first band pulley, second band pulley, third band pulley, fourth band pulley, first belt and second belt all locate between two second frame plates, the rear side of third band pulley is located to the second band pulley.

2. The automatic embossing machine for plush products as claimed in claim 1, further comprising a guide assembly, wherein the guide assembly is arranged at the upper side of the platen and is matched with the traction assembly, the first embossing assembly and the second embossing assembly, the guide assembly comprises a transmission belt, four guide units and a lifting assembly, the transmission belt is transversely fixed on the platen by the lifting assembly and is arranged between the first frame plate and a second frame plate at the front side and below the traction assembly, the first embossing assembly and the second embossing assembly, the four guide units are arranged at the top of the transmission belt in sequence from left to right, each guide unit comprises a guide roller and two shaft seats, and the two shaft seats are symmetrically fixed at the front and rear side edges of the top of the transmission belt respectively; the guide roller is rotatably connected between the two shaft seats; the guide rollers in the four guide units are all parallel to each other and are distributed at intervals with the driving roller, the first embossing roller and the second embossing roller.

3. The automated embossing machine for plush products as claimed in claim 2, wherein the lifting assembly comprises a base plate, a lifting plate, a cylinder sleeve, a guide post, a bracing plate and a driving assembly; the bottom plate is transversely fixed on the upper plane of the bedplate, the lifting plate is transversely arranged above the bottom plate, the number of the column sleeves is four, the four column sleeves are respectively embedded at four corners of the lifting plate, the number of the guide columns is four, the four guide columns are respectively vertically penetrated in the four column sleeves, the lower ends of the four guide columns are all fixed on the bottom plate, the number of the support plates is four, the four support plates are symmetrically arranged in pairs, the upper ends of the two support plates on the front side are all fixed on the front side edge of the conveying belt, the upper ends of the two support plates on the rear side are all fixed on the rear side edge of the conveying belt, and the lower end of each support plate is fixed on the upper plane of the; the driving assembly is arranged between the bottom plate and the lifting plate.

4. The automated embossing machine for plush products as claimed in claim 3, wherein the drive assembly comprises a first guide rail, a first slide, a traction block, an internally threaded block, a screw, a handwheel, an end block and a transmission assembly; the end block includes two, two end block all fixes on the last plane of bottom plate and distributes around, pull the seat and locate between two end blocks, first guide rail transversely fixes on the last plane of bottom plate and locates the below of pulling the seat, first slider includes a plurality of, a plurality of first slider all overlaps and establishes on first guide rail and all fixes the bottom at pulling the seat, the internal thread seat inlays to be established in pulling the seat, the screw rod transversely alternates in the internal thread seat spiro union, the rotatable interlude setting respectively in two end blocks in the both ends of screw rod, the place ahead of fixing at the front end of screw rod and locating an end block of front side is established to the hand wheel cover, transmission assembly locates between pulling seat and the lifter plate.

5. The automated embossing machine for plush products as claimed in claim 4, wherein the driving assembly comprises a back plate, a connecting frame, a second guide rail and a second slider; the backplate is vertically fixed on the right side of traction seat, the link is fixed on the lower plane of lifter plate and is located the right side of backplate, the right side at the backplate is fixed in the slope of second guide rail, the left side of link still is fixed with two second sliders that slope distributes at least, every the second slider all overlaps and establishes on the second guide rail and all can follow the second guide rail and slide.

6. The coating transmission device of plush products as claimed in claim 5, characterized in that a first bracket is further fixed on the front side of the lifting plate, a pointer plate is further fixed on the first bracket, a second bracket is further fixed on the upper plane of the base plate, a graduated scale is further fixed on the second bracket, and the pointer plate and the graduated scale are mutually matched.

7. The automatic embossing machine for plush products as claimed in claim 1, wherein two laterally distributed and parallel wheel shafts are further disposed between the two second frame plates, a rotatable pressing wheel is further sleeved on each of the two wheel shafts, and the two pressing wheels are respectively pressed on the upper side surfaces of the first belt and the second belt.

8. The automatic embossing machine for plush products as claimed in claim 7, wherein each of said second frame plates has two slots formed therein, wherein both ends of a left one of said axles are inserted into the slots on the left side of the two second frame plates, and both ends of a right one of said axles are inserted into the slots on the right side of the two second frame plates; and two ends of each wheel shaft are also sleeved with a nut in a screwed mode, and each nut is tightly pressed on the outer wall of the corresponding second frame plate.