CN110126163A

CN110126163A - A kind of high molecular material fusion method

Info

Publication number: CN110126163A
Application number: CN201910441562.2A
Authority: CN
Inventors: 郝秀兰; 叶利红
Original assignee: Quzhou Hourui Machinery Equipment Co Ltd
Current assignee: Liying Medical Technology Shanghai Co ltd
Priority date: 2019-05-24
Filing date: 2019-05-24
Publication date: 2019-08-16
Anticipated expiration: 2039-05-24
Also published as: CN110126163B

Abstract

The invention discloses a kind of high molecular material fusion methods, including apparatus main body, it is set to the intracorporal transmission device of described device master, be set to the intracorporal cutoff device of described device master and is set to the intracorporal molding machine of described device master, the transmission device includes being set to the intracorporal feeding chamber of described device master, the feeding is intracavitary to be slidably provided with transport belt, what is be connected in the inner left wall of the feeding chamber is provided with first turn of chamber, described first turn intracavitary to be rotatably provided with reel, and the reel is fixedly connected with gearing shaft；The configuration of the present invention is simple, it is easy to operate, automatable drive high molecular material is processed, each work step movement sync rates are high, it is compact-sized, space hold is small, can more be used together and improve efficiency, there is stirring knife high molecular material to be stirred to dissipate high molecular material is made to be easier to enter mold fusion in inside.

Description

A kind of high molecular material fusion method

Technical field

The present invention relates to technical field of buildings, specially a kind of high molecular material fusion method.

Background technique

High molecular material includes plastics, rubber, fiber, film, adhesive and coating etc..Wherein, referred to as modern high score Plastics, synthetic fibers and the synthetic rubber of sub three big synthetic materials have become the development of the national economy and people's everyday life must Indispensable important materials, and the development of modern engineering technology, then to high molecular material, more stringent requirements are proposed, thus pushes High molecular material develops to high performance, functionalization and bioid direction, and current high molecular material fusion device occupies body Product is big, and the carrying of easy adhesion, feed belt is more, and vulnerable to fatigue wear, power is big, and therefore, urgent need wants a kind of safety, efficiently and high The device of the processing macro-molecular material of quality.

Summary of the invention

The purpose of the present invention is to provide a kind of high molecular material fusion methods, in the prior art above-mentioned scarce for overcoming It falls into.

A kind of high molecular material fusion method according to the present invention, including apparatus main body, be set in described device main body Transmission device, be set to the intracorporal cutoff device of described device master and be set to the intracorporal molding machine of described device master, The transmission device includes being set to the intracorporal feeding chamber of described device master, and the feeding is intracavitary to be slidably provided with transport skin Band, what is be connected in the inner left wall of the feeding chamber is provided with first turn of chamber, and described first turn intracavitary to be rotatably provided with Reel, the reel are fixedly connected with gearing shaft, and the left and right ends for interlocking shaft are rotatably assorted company by bearing It is connected to the reel and is arranged with bracing wire, the right end of the bracing wire is fixedly connected with link block, and the right end of the link block is fixed It is connected with fixture block, the cutoff device includes being set to the intracorporal high molecular material entrance of described device master, the macromolecule material Expect that is be connected in the right side inner wall of entrance is provided with the high molecular material channel being connected with the feeding chamber, the macromolecule What is be connected in the inner left wall of material passage is provided with the first cunning chamber, and first cunning is intracavitary to be slidably provided with block, What is be connected in the upper inside walls of the block is connected with the second cunning chamber, and second cunning is intracavitary to be slidably provided with jacking block, The jacking block is abutted against with the fixture block, and second turn of chamber, the molding machine are provided on the upside of the high molecular material channel Hydraulic cylinder including being set to the downside of second turn of chamber, the lower end power of the hydraulic cylinder is provided with hydraulic inner prop, described What is be connected in the right side inner wall of feeding chamber is provided with binder chamber, and it is intracavitary that the lower end extension of the hydraulic inner prop is passed through the binder And it is fixedly connected with pressing plate, what is be connected in the right side inner wall of the binder chamber is provided with the sliding chamber of third, and the binder is intracavitary can Sliding is provided with high molecular material mold, and sliding intracavitary be slidably provided with of the third is consolidated with the high molecular material mold Surely the lifting slider connected, the lifting slider be fixedly connected with the sliding chamber of the third up and down and with the lifting slider spiral shell The screw rod that line is cooperatively connected, the upper end of the screw rod, which extends to be passed through second turn of chamber and be rotatably assorted by bearing, is connected to institute In the upper inside walls for stating second turn of chamber.

Further technical solution, the transmission device includes being set to the intracorporal feeding chamber of described device master, described to send Expect it is intracavitary be slidably provided with charging plate, the haul chamber of opening upwards is provided in the charging plate, the haul is intracavitary can Rotation is provided with transport belt, and the left side of the drive for transporting belt, which drives, translation shaft, the front end of the feeding chamber What is be connected is provided with connecting cavity, and the third that is provided with being connected in the front inner wall of the connecting cavity turns chamber, and the translation turns The front end extension of axis is passed through the third and turns intracavitary and be fixedly connected with stem gear, and the third turns intracavitary slidable setting There is a rack gear being meshed with the stem gear, the lower end array arrangement of the rack gear and is fixedly connected with and turns chamber with the third The compressed spring that is fixedly connected of downside inner wall, what the third turned to be connected in the upper inside walls of chamber is provided with the symmetrical 4th Cunning chamber, the 4th cunning is intracavitary to be slidably provided with briquetting, and what is be connected in the upper inside walls of the described 4th sliding chamber is provided with 5th sliding chamber, the described 5th sliding intracavitary pulling block that is slidably provided with are servo-actuated shaft, and the pulling block is servo-actuated left end and the institute of shaft It states and is fixedly connected with top pressure spring transmission gear between the inner left wall of the 5th sliding chamber, the pulling block is servo-actuated the right end face of shaft On be fixedly connected with bracing wire, the other end of the bracing wire is fixedly connected on the lower end of the described 5th sliding chamber, the right side of the connecting cavity What is be connected in the inner wall of side is provided with the 6th sliding chamber being connected with the 5th cunning chamber, and the 6th cunning is intracavitary slidably to be set It is equipped with pushing block, is fixedly connected with compression spring between the right end of the pushing block and the right side inner wall of the 6th sliding chamber, it is described to send Expect that is be connected in the inner left wall of chamber is provided with first turn of chamber, described first turn intracavitary to be rotatably provided with linked gear, The bar shaped rack gear that the linked gear is meshed, what is be connected in the upper inside walls of first turn of chamber is provided with bracing wire channel.

Further technical solution, the cutoff device include being set in the upper inside walls of the feeding chamber of being connected High molecular material channel, the macromolecule for being provided with opening upwards being connected in the inner left wall in the high molecular material channel Material inlet, what is be connected in the inner left wall in the high molecular material channel is provided with the first sliding chamber, the described first sliding chamber What is be connected in the inner wall of downside is provided with the 7th cunning chamber, and what is be connected in the downside inner wall of the described 7th sliding chamber is provided with the 8th cunning Chamber, it is described first it is sliding it is intracavitary be slidably provided with block, the inner left wall of the left end of the block and the first sliding chamber it Between be fixedly connected with reset spring, in the block up and down be provided with top sliding block, the right side of the upper top sliding block is solid Surely be provided with resetting-mechanism, the lower end of the upper top sliding block extend be passed through it is the described 7th sliding intracavitary and be fixedly connected with fixed block, Be arranged with jacking sliding block in the fixed block, in the block up and down be provided with through-hole, the high molecular material entrance Interior to be rotatably provided with stirring knife, the stirring knife is fixedly connected with rotating shaft, the right side inner wall in the high molecular material channel Inside be provided with the 4th turn of chamber, the right end extension of the rotating shaft be passed through described 4th turn it is intracavitary and be fixedly connected with the first cone tooth Wheel, described 4th turn intracavitary to be provided with the second bevel gear that can be meshed with the first bevel gear, and the second bevel gear is solid Surely it is connected with power shaft, is provided with second turn of chamber in the upper inside walls of the 4th turn of chamber, the upper end of the power shaft is prolonged Stretch be passed through described second turn it is intracavitary and be fixedly connected with the first belt, be fixedly connected with switch block on first belt, described Two turns intracavitary to be provided with the follower gear that can be meshed with the switch block, and the follower gear is fixedly connected with screw rod, and described Two turns intracavitary to be provided with the second belt that can be meshed with the switch block, and the second belt drive has a servo-actuated shaft, it is described with The transmission gear that can be meshed with the charging plate is fixedly connected on turn axis, in the upper inside walls of second turn of chamber roller It is provided with motor, the upper end power of power shaft is cooperatively connected in the lower end of motor.

Further technical solution, the molding machine include the hydraulic cylinder for being set to the downside of second turn of chamber, institute The lower end power for stating hydraulic cylinder is provided with hydraulic inner prop, and what is be connected in the right side inner wall of the feeding chamber is provided with binder chamber, The lower end of the hydraulic inner prop extends that be passed through the binder intracavitary and be fixedly connected with pressing plate, in the right side inner wall of the binder chamber What is be connected is provided with the sliding chamber of third, and the binder is intracavitary to be slidably provided with high molecular material mold, the sliding chamber of the third Interior to be slidably provided with the lifting slider being fixedly connected with the high molecular material mold, the lower end of the screw rod, which extends, to be passed through The third is sliding intracavitary and is threadedly engaged and connect with the lifting slider, the setting being connected in the downside inner wall of the binder chamber There is the transport chamber of left and right perforation described device main body, the transport is intracavitary to be rotatably provided with the conveyer belt being in communication with the outside, The conveyer belt inner support has roller, and array is placed with plank on the conveyer belt, and described transport is fixed in intracavitary upper inside walls It is connected with sanding machine.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, automatable drive high molecular material into Row processing, each work step movement sync rates are high, and compact-sized, space hold is small, can more be used together and improve efficiency, have anti- The integrality of viscous guarantee of work high molecular material, inside have stirring knife high molecular material stirred dissipate make high molecular material be easier into Enter mold fusion, not easy to make mistakes, more efficient, transmitting in the conveyer belt of high molecular material has roller support, makes holding for conveyer belt Weight effect is more preferable, and the service life is longer.

Detailed description of the invention

Fig. 1 is overall structure diagram inside a kind of high molecular material fusion method of the invention；

Fig. 2 is the top view of Fig. 1 in the present invention " A-A "；

Fig. 3 is the top view of Fig. 2 in the present invention " B-B "；

Fig. 4 is the right view of Fig. 1 in the present invention " C-C "；

Fig. 5 is the enlarged diagram of Fig. 1 in the present invention " D ".

Specific embodiment

Below with reference to Fig. 1-5, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

Referring to Fig.1-5, a kind of high molecular material fusion method of embodiment according to the present invention, including apparatus main body 11, The transmission device that is set in described device main body 11, the cutoff device being set in described device main body 11 and it is set to institute The molding machine in apparatus main body 11 is stated, the transmission device includes the feeding chamber 80 being set in described device main body 11, institute It states in feeding chamber 80 to be slidably provided with and transports belt 45, what is be connected in the inner left wall of the feeding chamber 80 is provided with the One turn of chamber 58, reel 61 is rotatably provided in first turn of chamber 58, and the reel 61 is fixedly connected with gearing and turns Axis 59, the left and right ends for interlocking shaft 59 are rotatably assorted by bearing to be connected to the reel 61 and is arranged with bracing wire 12, The right end of the bracing wire 12 is fixedly connected with link block 67, and the right end of the link block 67 is fixedly connected with fixture block 65, described to cut Expect that device includes the high molecular material entrance 46 being set in described device main body 11, the right side of the high molecular material entrance 46 What is be connected in inner wall is provided with the high molecular material channel 44 being connected with the feeding chamber 80, the high molecular material channel What is be connected in 44 inner left wall is provided with the first sliding chamber 71, is slidably provided with block 75 in the described first sliding chamber 71, What is be connected in the upper inside walls of the block 75 is connected with the second sliding chamber 68, is slidably provided in the described second sliding chamber 68 Jacking block 69, the jacking block 69 are abutted against with the fixture block 65, and the upside in the high molecular material channel 44 is provided with second turn of chamber 81, the molding machine includes the hydraulic cylinder 33 for being set to the downside of second turn of chamber 81, and the lower end of the hydraulic cylinder 33 is dynamic Power is provided with hydraulic inner prop 32, and what is be connected in the right side inner wall of the feeding chamber 80 is provided with binder chamber 25, it is described it is hydraulic in The lower end of column 32, which extends, to be passed through in the binder chamber 25 and is fixedly connected with pressing plate 31, phase in the right side inner wall of the binder chamber 25 Connection is provided with the sliding chamber 26 of third, is slidably provided with high molecular material mold 22, the third in the binder chamber 25 The lifting slider 24 being fixedly connected with the high molecular material mold 22, the lifting slider are slidably provided in sliding chamber 26 24 are fixedly connected with the sliding chamber 26 of the third up and down and are threadedly engaged the screw rod 28 of connection with the lifting slider 24, described The upper end of screw rod 28, which extends to be passed through second turn of chamber 81 and be rotatably assorted by bearing, is connected to the upper of second turn of chamber 81 On the inner wall of side.

Valuably or illustratively, the transmission device includes the feeding chamber 80 being set in described device main body 11, institute It states and is slidably provided with charging plate 15 in feeding chamber 80, the haul chamber 49 of opening upwards is provided in the charging plate, it is described It is rotatably provided in haul chamber 49 and transports belt 45, the left side of the drive for transporting belt 45, which drives, translation shaft 47, what the front end of the feeding chamber 80 was connected is provided with connecting cavity 82, is connected in the front inner wall of the connecting cavity 82 It is provided with third and turns chamber 50, the front end extension of the translation shaft 47 is passed through the third and turns in chamber 50 and be fixedly connected with connecting shaft Gear 48, the third turn slidably to be provided with the rack gear 84 being meshed with the stem gear 48, the rack gear in chamber 50 84 lower end array arrangement and it is fixedly connected with the compressed spring 83 being fixedly connected with the downside inner wall that the third turns chamber 50, institute State the symmetrical 4th sliding chamber 85 that is provided with that third turns to be connected in the upper inside walls of chamber 50, in the described 4th sliding chamber 85 slidably Be provided with briquetting 54, what is be connected in the upper inside walls of the described 4th sliding chamber 85 is provided with the 5th sliding chamber 51, and the described 5th is sliding It is slidably provided with pulling block in chamber 51 and is servo-actuated shaft 53, the pulling block is servo-actuated the left end of shaft 53 and the described 5th and slides chamber 51 Top pressure spring transmission gear 52 is fixedly connected between inner left wall, the pulling block is servo-actuated fixed in the right end face of shaft 53 connect It is connected to bracing wire 87, the other end of the bracing wire 87 is fixedly connected on the lower end of the described 5th sliding chamber 51, the right side of the connecting cavity 82 What is be connected in the inner wall of side is provided with the 6th sliding chamber 55 being connected with the described 5th sliding chamber 51, can slide in the described 6th sliding chamber 55 Dynamic is provided with pushing block 88, is fixedly connected with compression between the right end of the pushing block 88 and the right side inner wall of the 6th sliding chamber 55 Spring 56, what is be connected in the inner left wall of the feeding chamber 80 is provided with first turn of chamber 58, can turn in first turn of chamber 58 It is dynamic to be provided with linked gear 60, the bar shaped rack gear 86 that the linked gear 60 is meshed, in the upside of first turn of chamber 58 What is be connected in wall is provided with bracing wire channel 62.

Valuably or illustratively, the cutoff device includes the upper inside walls for being set to the feeding chamber 80 being connected Interior high molecular material channel 44, what is be connected in the inner left wall in the high molecular material channel 44 is provided with opening upwards High molecular material entrance 46, what is be connected in the inner left wall in the high molecular material channel 44 is provided with the first sliding chamber 71, institute State the 7th sliding chamber 78 that is provided with being connected in the downside inner wall of the first sliding chamber 71, phase in the downside inner wall of the described 7th sliding chamber 78 Connection is provided with the 8th sliding chamber 78, is slidably provided with block 75, the left end of the block 75 in the described first sliding chamber 71 It is fixedly connected with reset spring 72 between the inner left wall of the described first sliding chamber 71, the setting in the block 75 up and down There is upper top sliding block 73, the right side of the upper top sliding block 73 is fixedly installed resetting-mechanism 74, and the lower end of the upper top sliding block 73 is prolonged It stretches and is passed through in the described 7th sliding chamber 78 and is fixedly connected with fixed block 76, jacking sliding block 77, institute are arranged in the fixed block 76 State in block 75 up and down be provided with through-hole 89, be rotatably provided with stirring knife 43 in the high molecular material entrance 46, The stirring knife 43 is fixedly connected with rotating shaft 42, and the 4th turn of chamber is provided in the right side inner wall in the high molecular material channel 44 34, the right end extension of the rotating shaft 42 is passed through in the 4th turn of chamber 34 and is fixedly connected with first bevel gear 40, described The second bevel gear 35 that can be meshed with the first bevel gear 40 is provided in 4th turn of chamber 34, the second bevel gear 35 is solid Surely it is connected with power shaft 37, is provided with second turn of chamber 81, the power shaft 37 in the upper inside walls of the 4th turn of chamber 34 Upper end extend and be passed through in second turn of chamber 81 and be fixedly connected with the first belt 38, be fixedly connected on first belt 38 There is switch block 39, the follower gear 29 that can be meshed with the switch block 39, the follower gear are provided in second turn of chamber 81 29 are fixedly connected with screw rod 28, and the second belt 41 that can be meshed with the switch block 39, institute are provided in second turn of chamber 81 Stating the drive of the second belt 41 has servo-actuated shaft 53, and being fixedly connected in the servo-actuated shaft 53 can be meshed with the charging plate 15 Transmission gear 52, motor 36 has been provided in the upper inside walls of second turn of chamber roller 18, the upper end of power shaft 37 is dynamic Force-fitting is connected to the lower end of motor 36.

Valuably or illustratively, the molding machine includes the hydraulic cylinder for being set to the downside of second turn of chamber 81 33, the lower end power of the hydraulic cylinder 33 is provided with hydraulic inner prop 32, and what is be connected in the right side inner wall of the feeding chamber 80 sets It is equipped with binder chamber 25, the lower end of the hydraulic inner prop 32, which extends, to be passed through in the binder chamber 25 and be fixedly connected with pressing plate 31, institute It states the third that is provided with being connected in the right side inner wall of binder chamber 25 and slides chamber 26, be slidably provided with height in the binder chamber 25 Molecular material mold 22 is slidably provided in the sliding chamber 26 of the third and to be fixedly connected with the high molecular material mold 22 Lifting slider 24, the lower end of the screw rod 28, which extends, to be passed through in the sliding chamber 26 of the third and is threadedly engaged with the lifting slider 24 It connecting, what is be connected in the downside inner wall of the binder chamber 25 is provided with the transport chamber 23 of left and right perforation described device main body 11, It is rotatably provided with the conveyer belt 19 being in communication with the outside in the transport chamber 23,19 inner support of conveyer belt has roller 18, Array is placed with plank 17 on the conveyer belt 19, is fixedly connected with sanding machine 21 in upper inside walls in the transport chamber 23.

When present apparatus work, high molecular material raw material enters from high molecular material entrance 46, starts motor 36, drives dynamic Power shaft 37 rotates, and then second bevel gear 35 is driven to rotate, and then first bevel gear 40 is driven to rotate, and then rotation is driven to turn Axis 42 rotates, and then the rotation of stirring knife 43 is driven to make high molecular material raw material is evenly dispersed to enter high molecular material channel 44, simultaneously The rotation of power shaft 37 drives the rotation of the first belt 38, and then switch block 39 is driven to rotate, and then drives the rotation of the second belt 41, into And servo-actuated shaft 53 is driven to rotate, and then rotate with nutating gear 52, and then charging plate 15 is driven to move right, and then drive Stem gear 48 is creeped rotation on rack gear 84, and then is driven and transported belt 45 and rotate, and then drive the height transported on belt 45 Molecular material raw material is from left to right taped against on high molecular material mold 22, while transporting belt 45 on high molecular material mold 22 High molecular material raw material flatten, while charging plate 15 moves right and briquetting 54 is driven to move right, and then drives 87 band of bracing wire Dynamic servo-actuated shaft 53 moves right, and then drives pushing block 88 to move down, and then move down with carry-over bar 84, and then the company of drive Shaft gear 48 is disengaged from rack gear 84, and motor 36 inverts, and power shaft 37 is driven to rotate, and then drives 35 turns of second bevel gear It is dynamic, and then drive first bevel gear 40 to rotate, and then rotating shaft 42 is driven to rotate, and then the rotation of stirring knife 43 is driven to make macromolecule Material feedstock is evenly dispersed to enter high molecular material channel 44, while the rotation of power shaft 37 drives the rotation of the first belt 38, into And drive switch block 39 to rotate, and then drive the rotation of the second belt 41, and then servo-actuated shaft 53 rotate, and then with nutating gear 52 rotations, and then drive charging plate 15 to be moved to the left, and then press sliding block 77 is driven to be moved to the left, and then drive upper top sliding block 73 When being connected to each other with jacking block 69, upper top sliding block 73, which moves up, drives jacking block 69 to move up, and then fixture block 65 is driven to be moved to the left, And then link block 67 is driven to be moved to the left, and then drive bracing wire 12 that reel 61 is driven to rotate, and then drive and interlock 59 turns of shaft It is dynamic, and then drive linked gear 60 to rotate, and then bar shaped rack gear 86 is driven to move right, the 89 face high score of through-hole in block 75 When sub- material passage 44, high molecular material can be layered on charging plate 15 and be moved to the left to limit on the left position, bar shaped rack gear 86 is to moving to left It is dynamic, and then drive linked gear 60 to rotate, and then drive gearing shaft 59 to rotate, and then drive reel 61 to rotate, and then band Dynamic bracing wire 12 drives link block 67 to move right, and then fixture block 65 is driven to move right, and then jacking block 69 is driven to move up, into And upper top sliding block 73 is driven to move down, reset spring 72 drives block 75 to move right, and high molecular material tiling finishes, at this time Hydraulic cylinder 33 starts, and band hydrodynamic pressure inner prop 32 moves down, and then moves down compacting high molecular material block, pressure with dynamic pressure plate 31 End hydraulic cylinder 33 restores state, and the rotation of switch block 39 at this time drives follower gear 29 to rotate, and then drives screw rod 28 to rotate, and then band Dynamic lifting slider 24 moves up, and forms the high molecular material finished and falls on plank 17, is sent to the external world with conveyer belt 19.

Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention It is subject to claims appended hereto.

Claims

1. a kind of high molecular material fusion method, including apparatus main body, it is set to the intracorporal transmission device of described device master, setting In the intracorporal cutoff device of described device master and it is set to the intracorporal molding machine of described device master, the transmission device includes It is set to the intracorporal feeding chamber of described device master, the feeding is intracavitary to be slidably provided with transport belt, the feeding chamber What is be connected in inner left wall is provided with first turn of chamber, and described first turn intracavitary to be rotatably provided with reel, the spiral Wheel is fixedly connected with gearing shaft, the left and right ends for interlocking shaft be rotatably assorted by bearing be connected to the reel around Equipped with bracing wire, the right end of the bracing wire is fixedly connected with link block, and the right end of the link block is fixedly connected with fixture block, described to cut Material device includes being set to the intracorporal high molecular material entrance of described device master, in the right side inner wall of the high molecular material entrance What is be connected is provided with the high molecular material channel being connected with the feeding chamber, the inner left wall in the high molecular material channel What is be inside connected is provided with the first cunning chamber, and first cunning is intracavitary to be slidably provided with block, the upper inside walls of the block What is be inside connected is connected with the second cunning chamber, and second cunning is intracavitary to be slidably provided with jacking block, the jacking block and the fixture block It abuts against, second turn of chamber is provided on the upside of the high molecular material channel, the molding machine includes being set to described second Turn the hydraulic cylinder of the downside of chamber, the lower end power of the hydraulic cylinder is provided with hydraulic inner prop, in the right side inner wall of the feeding chamber What is be connected is provided with binder chamber, and the lower end of the hydraulic inner prop extends that be passed through the binder intracavitary and be fixedly connected with pressing plate, What is be connected in the right side inner wall of the binder chamber is provided with the sliding chamber of third, and the binder is intracavitary to be slidably provided with macromolecule Material molds, the third cunning is intracavitary to be slidably provided with the lifting slider being fixedly connected with the high molecular material mold, The lifting slider is fixedly connected with the sliding chamber of the third up and down and is threadedly engaged the screw rod of connection with the lifting slider, The upper end of the screw rod, which extends to be passed through second turn of chamber and be rotatably assorted by bearing, is connected to the upside of second turn of chamber On inner wall.

2. a kind of high molecular material fusion method according to claim 1, it is characterised in that: the transmission device includes setting It is placed in the intracorporal feeding chamber of described device master, the feeding is intracavitary to be slidably provided with charging plate, setting in the charging plate There is the haul chamber of opening upwards, the haul is intracavitary to be rotatably provided with transport belt, a left side for the drive for transporting belt Side, which drives, translation shaft, connecting cavity that the front end of the feeding chamber was connected be provided with, in the front inner wall of the connecting cavity The third that is provided with being connected turns chamber, and the front end of the translation shaft, which extends, is passed through the intracavitary and company of being fixedly connected with of the third turn Shaft gear, the third turn intracavitary and are slidably provided with the rack gear being meshed with the stem gear, the lower end of the rack gear Array arrangement and it is fixedly connected with the compressed spring being fixedly connected with the downside inner wall that the third turns chamber, the third turns chamber What is be connected in upper inside walls is provided with symmetrical 4th cunning chamber, and the 4th cunning is intracavitary to be slidably provided with briquetting, described What is be connected in the upper inside walls of 4th sliding chamber is provided with the 5th sliding chamber, the described 5th it is sliding it is intracavitary be slidably provided with pulling block with Turn axis, the pulling block are servo-actuated between the left end of shaft and the inner left wall of the 5th sliding chamber and are fixedly connected with top pressure spring biography Moving gear, the pulling block are servo-actuated in the right end face of shaft and are fixedly connected with bracing wire, and the other end of the bracing wire is fixedly connected on Described 5th slides the lower end of chamber, and being provided with for being connected in the right side inner wall of the connecting cavity slides what chamber was connected with the described 5th 6th sliding chamber, the described 6th sliding intracavitary is slidably provided with pushing block, the right side of the right end of the pushing block and the 6th sliding chamber Compression spring is fixedly connected between inner wall, what is be connected in the inner left wall of the feeding chamber is provided with first turn of chamber, described First turn intracavitary to be rotatably provided with linked gear, the bar shaped rack gear that the linked gear is meshed, first turn of chamber What is be connected in upper inside walls is provided with bracing wire channel.

3. a kind of high molecular material fusion method according to claim 1, it is characterised in that: the cutoff device includes phase High molecular material channel in the upper inside walls for being set to the feeding chamber of connection, in the left side in the high molecular material channel The high molecular material entrance for being provided with opening upwards being connected in wall is connected in the inner left wall in the high molecular material channel Logical is provided with the first sliding chamber, and what is be connected in the downside inner wall of the described first sliding chamber is provided with the 7th sliding chamber, and the described 7th is sliding What is be connected in the downside inner wall of chamber is provided with the 8th cunning chamber, and first cunning is intracavitary to be slidably provided with block, the gear It is fixedly connected with reset spring between the left end of block and the inner left wall of the first sliding chamber, setting up and down in the block It is equipped with top sliding block, resetting-mechanism is fixedly installed on the right side of the upper top sliding block, the lower end of the upper top sliding block, which extends, to be passed through Described 7th slides intracavitary and is fixedly connected with fixed block, and jacking sliding block is arranged in the fixed block, is passed through up and down in the block Logical is provided with through-hole, stirring knife is rotatably provided in the high molecular material entrance, the stirring knife is fixedly connected with rotation Shaft, the 4th turn of chamber is provided in the right side inner wall in the high molecular material channel, and the right end extension of the rotating shaft is passed through Described 4th turn intracavitary and be fixedly connected with first bevel gear, and described 4th turn intracavitary be provided with can be with the first bevel gear phase The second bevel gear of engagement, the second bevel gear are fixedly connected with power shaft, set in the upper inside walls of the 4th turn of chamber It is equipped with second turn of chamber, the upper end of the power shaft, which extends, is passed through described second turn intracavitary and be fixedly connected with the first belt, institute It states and is fixedly connected with switch block on the first belt, described second turn intracavitary to be provided with the follower gear that can be meshed with the switch block, The follower gear is fixedly connected with screw rod, and described second turn intracavitary to be provided with the second belt that can be meshed with the switch block, The second belt drive has servo-actuated shaft, and the transmission that can be meshed with the charging plate is fixedly connected in the servo-actuated shaft Gear, motor has been provided in the upper inside walls of second turn of chamber roller, and the upper end power of power shaft is cooperatively connected in electricity The lower end of machine.

4. a kind of high molecular material fusion method according to claim 1, it is characterised in that: the molding machine includes setting It is placed in the hydraulic cylinder of the downside of second turn of chamber, the lower end power of the hydraulic cylinder is provided with hydraulic inner prop, the feeding chamber Right side inner wall in be connected be provided with binder chamber, the lower end of the hydraulic inner prop extends that be passed through the binder intracavitary and fixed It is connected with pressing plate, what is be connected in the right side inner wall of the binder chamber is provided with the sliding chamber of third, and the binder is intracavitary slidable It is provided with high molecular material mold, sliding intracavitary be slidably provided with of the third is fixedly connected with the high molecular material mold Lifting slider, the lower end of the screw rod extends that be passed through the third sliding intracavitary and be threadedly engaged and connect with the lifting slider, What is be connected in the downside inner wall of the binder chamber is provided with the transport chamber of left and right perforation described device main body, and the transport is intracavitary It rotatably is provided with the conveyer belt being in communication with the outside, the conveyer belt inner support has roller, array arrangement on the conveyer belt There is plank, described transport is fixedly connected with sanding machine in intracavitary upper inside walls.