CN110076883A - A kind of synthesis flow of graphene and boron carbide ceramics - Google Patents
A kind of synthesis flow of graphene and boron carbide ceramics Download PDFInfo
- Publication number
- CN110076883A CN110076883A CN201910478270.6A CN201910478270A CN110076883A CN 110076883 A CN110076883 A CN 110076883A CN 201910478270 A CN201910478270 A CN 201910478270A CN 110076883 A CN110076883 A CN 110076883A
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- China
- Prior art keywords
- nail
- induction
- fixedly connected
- belt
- compacting
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B17/00—Details of, or accessories for, apparatus for shaping the material; Auxiliary measures taken in connection with such shaping
- B28B17/02—Conditioning the material prior to shaping
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B17/00—Details of, or accessories for, apparatus for shaping the material; Auxiliary measures taken in connection with such shaping
- B28B17/02—Conditioning the material prior to shaping
- B28B17/026—Conditioning ceramic materials
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B3/00—Producing shaped articles from the material by using presses; Presses specially adapted therefor
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B3/00—Producing shaped articles from the material by using presses; Presses specially adapted therefor
- B28B3/20—Producing shaped articles from the material by using presses; Presses specially adapted therefor wherein the material is extruded
Abstract
The invention discloses the synthesis flows of a kind of graphene and boron carbide ceramics, wherein, it includes process equipment and the composite material ingredient chamber being set in the process equipment that the graphene, which synthesizes conveyer belt process equipment with boron carbide ceramics, the composite material ingredient chamber is equipped with composite material ingredient sector, the composite material raw material quantitative of melting can be squeezed into composite silk by the composite material ingredient sector, power transmission chamber is equipped with below the composite material ingredient sector, power transmission mechanism is equipped in the power transmission chamber, driving motor is equipped in the power transmission mechanism;Present apparatus mechanism is simple, use simplicity, manual labor can be saved, plain edition belt is processed into composite core Composite Skin band, the belt has many advantages, such as that elongation is very small, tensile strength is big, heat resistance is good, good stability of the dimension, it is a kind of extraordinary synchronous belt strength layer material, and process is simple, process velocity is fast.
Description
Technical field
The present invention relates to conveyer belt processing technique field, the resultant current of specifically a kind of graphene and boron carbide ceramics
Journey.
Background technique
The present invention relates to a kind of graphene and the compound transmission belt processing unit (plant) of boron carbide ceramics, belt on the market now
It is mostly for plain edition belt, tensile strength, heat resistance and dimensional stability are all very poor, can only meet the electricity to small torque
Machine uses, and other kinds of Composite Skin band often processing difficulties, be unable to do without manual labor, therefore lead to cost increase, valence
Lattice can also rise with it.
Summary of the invention
Deficiency in view of the above technology, the invention proposes the synthesis flows of a kind of graphene and boron carbide ceramics, can
Overcome drawbacks described above.
The present invention is the synthesis flow of a kind of graphene and boron carbide ceramics, wherein the graphene and boron carbide ceramics close
It include process equipment and the composite material ingredient chamber being set in the process equipment at conveyer belt process equipment, it is described compound
Material ingredient chamber is equipped with composite material ingredient sector, and the composite material ingredient sector can be by the composite material raw material quantitative of melting
Be squeezed into composite silk, power transmission chamber is equipped with below the composite material ingredient sector, is set in the power transmission chamber
Dynamic conveying mechanism, driving motor is equipped in the power transmission mechanism, and the driving motor provides for the process equipment
Power, the composite material ingredient sector right side, which is equipped with, squeezes nail nail cavity, described equipped with pressing mechanism in the extruding nail nail cavity
Power transmission mechanism further includes the lower layer's sending belt being set in the power transmission chamber, and lower layer's sending belt is to the extruding
It follows closely and conveys lower layer's belt in nail cavity, the pressing mechanism includes being set to the upper layer sending belt squeezed in nail nail cavity, described
Pressing mechanism can compress the upper layer sending belt, lower layer's sending belt and composite silk between the two, described to squeeze
Nailing machine structure is equipped in nail pressing nail cavity, the nailing machine structure can add the composite core belt compressed by the pressing mechanism
Nail prevents from sliding between lower layer's sending belt and the upper layer sending belt, is equipped with and is compacted out on the right side of the nailing machine structure
Expect chamber, compacting discharging mechanism is equipped in the compacting discharging chamber, the compacting discharging mechanism can will nail on the composite material of nail
Core belt compresses again and transfers out the process equipment;
The process is technically characterized in that the composite material ingredient sector can be by the extruding of the composite material raw material quantitative of melting
At composite silk, the driving motor provides power for the process equipment, and the upper layer can be rolled up and be sent by the pressing mechanism
Band, lower layer's sending belt and composite silk between the two compress, and the nailing machine structure can will be by the pressing mechanism
The composite core belt of compression prevents from sliding between lower layer's sending belt and the upper layer sending belt plus nail, institute
Stating compacting discharging mechanism can compress the composite core belt for nailing on nail again and transfer out the process equipment.
Preferably, the power transmission mechanism include be fixedly installed in the power transmission chamber and be connected by power with it is described
The input shaft of driving motor is fixedly connected with input driving pulley on the input shaft, and the input shaft upper end is fixedly connected with
Drive bevel gear is inputted, front and back rotation, which is equipped with, in the power transmission chamber inputs connecting shaft, fixed in the input connecting shaft to connect
It is connected to input connection bevel gear, the input drive bevel gear is engaged with input connection bevel gear, the power transmission chamber
In rotate upwardly and downwardly be equipped with positioned at the input connecting shaft upper end and extend upwardly to the shove in the composite material ingredient chamber pass
Axis is passed, the input connection driven wheel of differential for being fixedly connected on shove transmission axle lower end, institute are equipped in the power transmission chamber
It states input connection driven wheel of differential to engage with input connection bevel gear, the input connecting shaft front end, which is fixedly connected with, send band
Driving pulley, front and back rotation is equipped in the power transmission chamber be located on the right side of the input connecting shaft under around tape spool, under described
Layer sending belt be wrapped in it is described under on tape spool, be fixedly connected under described around tape spool front end send band driven pulley, it is described to send band
Driving pulley send band driven pulley to connect by belt with described;
It is characterized by: the driving motor drives the input shaft rotation, the input shaft passes through the input active conical tooth
Wheel and the cooperation of the input connection bevel gear drive the input connecting shaft to rotate, and the input connecting shaft passes through the input
Connection driven wheel of differential and input connection bevel gear, described send send the mating band with driven pulley with described with driving pulley
Move the shove transmission axle, it is described under rotated around tape spool, it is described under around tape spool by rotation by lower layer's belt of winding pine
It opens, starts that band is sent to work.
Preferably, the composite material ingredient sector includes the composite wood being rotatably dispose in the composite material ingredient chamber
Expect ingredient transmission axle, is fixedly connected with composite material ingredient driven wheel of differential in the composite material ingredient transmission axle, it is described multiple
The shove transmitting drive bevel gear for being fixedly connected on shove transmission axle upper end is equipped in condensation material ingredient chamber, the shove passes
It passs drive bevel gear to engage with the composite material ingredient driven wheel of differential, the composite material ingredient transmission axle front end is fixed to be connected
It is connected to composite material ingredient transmitting driving pulley, rotation, which is equipped with, in the composite material ingredient chamber is located at the composite material ingredient
Ingredient Coupling Shaft on the right side of transmission axle is fixedly connected with ingredient switching driven pulley, the composite wood in the ingredient Coupling Shaft
Material ingredient transmitting driving pulley is connect with ingredient switching driven pulley by belt, and ingredient Coupling Shaft front end is fixed to be connected
It is connected to switching driving pulley, rotation is equipped with the composite material positioned at the ingredient Coupling Shaft right end in the composite material ingredient chamber
Ingredient axis, the composite material ingredient shaft rear end are fixedly connected with composite material ingredient driven pulley (not shown), the switching
Driving pulley is connect with the composite material ingredient driven pulley (not shown) by belt, the composite material ingredient axis front end
It is fixedly connected with capacity turntable, is fixed in the composite material ingredient chamber and determines on the outside of the capacity turntable
Disk, the price fixing upper end are in communication with the outside by feed channel, and price fixing lower end is equipped with silk pressing and condenses road, under the price fixing
Side is fixedly connected with varactor, and sliding is equipped with the transfiguration sliding block extended upwardly to inside the price fixing in the varactor, described
Transfiguration sliding block is fixedly connected by transfiguration spring with the varactor bottom, and rotation is equipped with and is located in the composite material ingredient chamber
On the downside of the ingredient Coupling Shaft and the conveying axis symmetrical above and below with lower layer's sending belt, it is fixedly connected on the conveying axis pair
The conveying roller of title, the switching driving pulley are connect by belt with the conveying roller, are passed through between the conveying roller
Belt reversion connection;
It is characterized by: the shove transmission axle transmits drive bevel gear by the shove and the composite material ingredient is driven
The cooperation of bevel gear drives the composite material ingredient transmission axle to rotate, and the composite material ingredient transmission axle passes through described multiple
Condensation material ingredient transmits driving pulley and the cooperation of ingredient switching driven pulley drives the ingredient Coupling Shaft to rotate, described
Ingredient Coupling Shaft drives the conveying roller to rotate by the cooperation of the switching driving pulley and the conveying roller, auxiliary fortune
Lower layer's sending belt is sent, the ingredient Coupling Shaft passes through the switching driving pulley and the composite material ingredient driven pulley
The cooperation of (not shown) drives the composite material ingredient axis rotation, to drive the capacity turntable to rotate, to carry out
Composite wood slurry is pressed into silk, and falls into lower layer's sending belt upper surface.
Preferably, power transmission mechanism includes the induction connection being rotatably dispose in the power transmission chamber
Axis is fixedly connected with induction connection driven pulley, the input driving pulley and induction connection in the induction connecting shaft
Driven pulley is connected by belt, and the induction connecting shaft upper end is equipped with induction connection drive bevel gear, the power transmission chamber
The rotation of middle front and back is equipped with the second induction connecting shaft, is fixedly connected with induction driving wheel in the second induction connecting shaft, and described the
Two induction connecting shaft front ends are fixedly connected with induction connection driven wheel of differential, the induction connection drive bevel gear and the induction
Driven wheel of differential engagement is connected, sliding is equipped with induction sliding block in the power transmission chamber, and the induction sliding block passes through induction spring
It is fixedly connected with bottom wall in the power transmission chamber, the induction upper end of slide block is fixedly connected with induction push rod, and the induction is slided
Rotation is equipped with induction lifting shaft before and after block, and the induction goes up and down shaft rear end and is fixedly connected with lifting wheel, in the power transmission chamber
Front and back rotation is equipped with the inductive transfer axis being located on the right side of the induction lifting shaft, and fixed to be connected with inductive transfer driven
Wheel, the lifting wheel, which moves up and down, to be engaged with the induction driving wheel, the inductive transfer driven wheel, the inductive transfer axis
On be fixedly connected with induction drive bevel gear, rotate upwardly and downwardly to be connected in the power transmission chamber and extend upwardly to extruding nail
Induction input shaft in nail cavity, the induction input shaft lower end are fixedly connected with induction driven wheel of differential, the induction initiative taper
Gear is engaged with the induction driven wheel of differential, is fixedly connected with ejector pin driving pulley on the induction input shaft;
It is characterized by: the input shaft is driven by the cooperation of the input driving pulley and the induction connection driven pulley
The induction connecting shaft rotation, the induction connecting shaft connects drive bevel gear by the induction and induction connection is driven
Bevel gear drives the second induction connecting shaft rotation that can depress the induction push rod after lower layer's sending belt, which is transported, to be come,
So that the lifting wheel is engaged with the induction driving wheel, the inductive transfer driven wheel, so that the induction be driven to pass
Axis rotation is passed, the inductive transfer axis drives the induction by the induction drive bevel gear and the induction driven wheel of differential
Input shaft rotation.
Preferably, the pressing mechanism includes being rotatably dispose in described squeeze in nail nail cavity to put band connection wheel, described to put
It is fixedly connected on band connection wheel and puts band driven wheel, be equipped with and be fixedly connected on the induction input shaft in the extruding nail nail cavity
Band driving wheel is put at end, and the band driving wheel of putting is engaged with the band driven wheel of putting, and the band connection wheel front end of putting is fixedly connected
Put band driving pulley, extrudings nail nail cavity rotation equipped with putting tape spool, it is described put tape spool front end and be fixedly connected with put with driven
Belt wheel, the band driving pulley of putting are connect with driven pulley by belt with described put, and the upper layer sending belt is wound on
It is described to put tape spool;
Wherein, the nailing machine structure includes being rotatably dispose in the nail nail driving shaft squeezed in nail nail cavity, and the nail nail is actively
Nail nail driving pulley is fixedly connected on axis, described put is connect with nail nail driving pulley by belt with driven pulley, institute
It states front end on nail nail driving shaft and is fixedly connected with swing rod, the swing rod front end is fixedly connected with drive shaft, the extruding nail nail
It is rotatably connected in chamber and is fixedly connected with sheave on the fluted roller shaft followed closely on the right side of nail driving shaft, the fluted roller shaft, it is described
Shaft and the sheave are cooperatively connected, and are hinged with nail nail connecting rod before and after the extruding nail nail cavity on wall body, and the nail nail connecting rod has
End is followed closely wall body in nail cavity with the extruding by reset spring and is fixedly connected, and sliding is equipped with nail nail and slides in the extruding nail nail cavity
Block, the nail nail sliding block are followed closely nail cavity with the extruding by nail langrage spring and are fixedly connected, and are fixedly connected on the left of the nail nail sliding block
There is pressure fixed pole, sliding slot is equipped in the extruding nail nail cavity, sliding is equipped with ejector pin sliding block in the sliding slot, is equipped with position in the sliding slot
Nail on the left of the ejector pin sliding block, the extruding follow closely sliding in nail cavity and are equipped with symmetrical retaining screw sliding block, the retaining screw
Nail cavity is followed closely with the extruding by retaining screw spring and is fixedly connected in the mutual principle end of sliding block;
Wherein, described squeeze rotates the compacting input shaft equipped with extending upwardly in the compacting discharging chamber in nail nail cavity, described
Compacting driven pulley is fixedly connected on compacting input shaft, the ejector pin driving pulley and the compacting driven pulley pass through belt
Connection, it is described to be compacted be equipped with the compacting input drive bevel gear for being fixedly connected on the compacting input shaft upper end, institute in discharging chamber
It states rotation in compacting discharging chamber and is equipped with compacting transmission axle, the compacting transmission axle front end is fixedly connected with turntable, before the turntable
Surface is hinged with catch bar, and the catch bar and the ejector pin sliding block are hinged, and the compacting transmission axle is equipped with compacting main belt
Wheel, the compacting transmitting shaft rear end are fixedly connected with compacting input driven wheel of differential, the compacting input drive bevel gear and institute
State compacting input driven wheel of differential engagement;
Wherein, the compacting discharging mechanism includes being rotatably dispose in the compacting discharging chamber and compacting shaft symmetrical above and below,
Compacting roller is fixedly connected in the compacting shaft, the compacting shaft front end is fixedly connected with compaction band symmetrical above and below
Wheel, the compacting belt wheel are inverted by belt and are connected, and the compacting driving pulley and upside compacting belt wheel are connected by belt
It connects;
It is characterized by: the induction input shaft is put by described with described in driving wheel and the cooperation drive put with driven wheel
The rotation of band connection wheel is put, the band connection wheel of putting is driven by described put with driving pulley and the cooperation put with driven pulley
Described to put tape spool rotation, the tape spool of putting starts to unclamp the upper layer sending belt, and the tape spool of putting is put by described with driven belt
The cooperation of wheel and the nail nail driving pulley drives the nail nail driving shaft rotation, and the nail nail driving shaft drives the swing rod to turn
Dynamic, the swing rod drives the nail to follow closely connecting rod swing by the cooperation of the drive shaft and the sheave, and the nail follows closely connecting rod
Swing can depress the nail, so that it will be conveyed through nail on the composite core belt rivet come, meanwhile, the induction input shaft
The compacting input shaft is driven to rotate by the cooperation of the ejector pin driving pulley and the compacting driven pulley, the compacting is defeated
Enter axis and drives the compacting to transmit by the cooperation of the compacting input drive bevel gear and the compacting input driven wheel of differential
Axis rotation, the compacting transmission axle are pushed away the nail by the cooperation of the turntable, the catch bar and the ejector pin sliding block
Reset is sent, it is described to drive the rotation with the cooperation by described, so that the mutually opposing rotation is driven, to complete
The composite core belt come will be conveyed through to be compacted and send out the process equipment.
In conclusion present apparatus mechanism is simple, using simplicity, manual labor can be saved and be processed into plain edition belt
Composite core Composite Skin band, which, which has, extends that very small, tensile strength is big, the good, good stability of the dimension of heat resistance etc.
Advantage is a kind of extraordinary synchronous belt strength layer material, and process is simple, and process velocity is fast.
Detailed description of the invention
It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art
Attached drawing needed in technical description is briefly described, it should be apparent that, the accompanying drawings in the following description is only to invent
Some embodiments for those of ordinary skill in the art without creative efforts, can also basis
These attached drawings obtain other attached drawings.
Fig. 1 is the overall structure diagram that graphene of the invention synthesizes conveyer belt process equipment with boron carbide ceramics;
Fig. 2 is structural schematic diagram at A in Fig. 1;
Fig. 3 is structural schematic diagram at B in Fig. 1.
Specific embodiment
All features disclosed in this specification or disclosed all processes or in the process the step of, in addition to mutually exclusive
Feature and/or step other than, can combine in any way.
Any feature disclosed in this specification (including any accessory claim, abstract and attached drawing), except non-specifically chatting
State, can it is equivalent by other or have similar purpose alternative features replaced.That is, unless specifically stated, each feature is
An example in a series of equivalent or similar characteristics.
As shown in Figure 1-3, the synthesis flow of a kind of graphene and boron carbide ceramics of apparatus of the present invention, wherein the graphite
Alkene synthesizes conveyer belt process equipment with boron carbide ceramics and includes process equipment 100 and be set in the process equipment 100
Composite material ingredient chamber 201, the composite material ingredient chamber 201 are equipped with composite material ingredient sector, the composite material ingredient
The composite silk that is squeezed into of the composite material raw material quantitative of melting, the composite material ingredient sector lower section can be equipped with by mechanism
Power transmission chamber 301 is equipped with power transmission mechanism in the power transmission chamber 301, is equipped with driving in the power transmission mechanism
Motor 302, the driving motor 302 are that the process equipment 100 provides power, are equipped on the right side of the composite material ingredient sector
Nail nail cavity 401 is squeezed, is equipped with pressing mechanism in the extruding nail nail cavity 401, the power transmission mechanism further includes being set to institute
Lower layer's sending belt 322 in power transmission chamber 301 is stated, under lower layer's sending belt 322 is conveyed into extruding nail nail cavity 401
Layer belt, the pressing mechanism include being set to the upper layer sending belt 407 squeezed in nail nail cavity 401, the pressing mechanism
The upper layer sending belt 407, lower layer's sending belt 322 and composite silk between the two can be compressed, the extruding
It follows closely and is equipped with nailing machine structure in nail cavity 401, the nailing machine structure can add the composite core belt compressed by the pressing mechanism
Upper nail prevents from sliding between lower layer's sending belt 322 and the upper layer sending belt 407, sets on the right side of the nailing machine structure
There is compacting discharging chamber 501, compacting discharging mechanism is equipped in the compacting discharging chamber 501, the compacting discharging mechanism can will nail on
The composite core belt of nail compresses again and transfers out the process equipment 100.
Valuably, the power transmission mechanism include be fixedly installed in the power transmission chamber 301 and be connected by power with
The input shaft 326 of the driving motor 302 is fixedly connected with input driving pulley 303, the input on the input shaft 326
326 upper end of axis is fixedly connected with input drive bevel gear 327, and front and back rotation is equipped with input connection in the power transmission chamber 301
Axis 328, is fixedly connected with input connection bevel gear 325 in the input connecting shaft 328, the input drive bevel gear 327 and
The input connection bevel gear 325 engages, and rotates upwardly and downwardly and is equipped with positioned at the input connecting shaft in the power transmission chamber 301
328 upper ends and the shove transmission axle 331 in the composite material ingredient chamber 201 is extended upwardly to, in the power transmission chamber 301
Driven wheel of differential 330 is connected equipped with the input for being fixedly connected on 331 lower end of shove transmission axle, the input is connected from mantle
Gear 330 is engaged with input connection bevel gear 325, and 328 front end of input connecting shaft, which is fixedly connected with, send band main belt
Wheel 329, front and back rotation is equipped in the power transmission chamber 301 be located on the right side of the input connecting shaft 328 under around tape spool 324,
Lower layer's sending belt 322 be wrapped in it is described under on tape spool 324, be fixedly connected under described around 324 front end of tape spool send band from
Movable belt pulley 323, it is described that band driving pulley 329 is sent to send band driven pulley 323 to connect by belt with described.
Valuably, the composite material ingredient sector includes being rotatably dispose in answering in the composite material ingredient chamber 201
Condensation material ingredient transmission axle 203 is fixedly connected with composite material ingredient from mantle tooth in the composite material ingredient transmission axle 203
204 are taken turns, the shove transmitting master for being fixedly connected on 331 upper end of shove transmission axle is equipped in the composite material ingredient chamber 201
Dynamic bevel gear 202, the shove transmitting drive bevel gear 202 is engaged with the composite material ingredient driven wheel of differential 204, described
203 front end of composite material ingredient transmission axle is fixedly connected with composite material ingredient transmitting driving pulley 205, and the composite material is matched
Expect that rotation is equipped with the ingredient Coupling Shaft 207 for being located at 203 right side of composite material ingredient transmission axle in chamber 201, the ingredient turns
Be fixedly connected with ingredient switching driven pulley 206 in spindle 207, composite material ingredient transmitting driving pulley 205 with it is described
Ingredient transfers driven pulley 206 by belt connection, and 207 front end of ingredient Coupling Shaft is fixedly connected with switching driving pulley
208, rotation is equipped with the composite material ingredient axis positioned at 207 right end of ingredient Coupling Shaft in the composite material ingredient chamber 201
210,210 rear end of composite material ingredient axis is fixedly connected with composite material ingredient driven pulley (not shown), the switching
Driving pulley 208 is connect with the composite material ingredient driven pulley (not shown) by belt, the composite material ingredient axis
210 front ends are fixedly connected with capacity turntable 218, are fixed in the composite material ingredient chamber 201 positioned at the capacity
The price fixing 209 in 218 outside of turntable, 209 upper end of price fixing is in communication with the outside by feed channel 217, under the price fixing 209
End is equipped with silk pressing and condenses road 219, is fixedly connected with varactor 214 on the downside of the price fixing 209, slides and set in the varactor 214
Have a transfiguration sliding block 211 extended upwardly to inside the price fixing 209, the transfiguration sliding block 211 by transfiguration spring 213 with it is described
214 bottom of varactor is fixedly connected, and rotation, which is equipped with, in the composite material ingredient chamber 201 is located under the ingredient Coupling Shaft 207
Side and the conveying axis 216 symmetrical above and below with lower layer's sending belt 322 are fixedly connected on the conveying axis 216 symmetrical defeated
Send idler wheel 215, the switching driving pulley 208 is connect with the conveying roller 215 by belt, the conveying roller 215 it
Between pass through belt reversion connection.
Valuably, power transmission mechanism includes that the induction being rotatably dispose in the power transmission chamber 301 connects
Spindle 319 is fixedly connected with induction connection driven pulley 318, the input driving pulley 303 in the induction connecting shaft 319
It connects driven pulley 318 with the induction to connect by belt, 319 upper end of induction connecting shaft is equipped with induction connection initiative taper
Gear 320, front and back rotation is equipped with the second induction connecting shaft 321, the second induction connecting shaft in the power transmission chamber 301
Induction driving wheel 316 is fixedly connected on 321, it is driven that second induction, 321 front end of connecting shaft is fixedly connected with induction connection
Bevel gear 317, the induction connection drive bevel gear 320 are engaged with induction connection driven wheel of differential 317, and the power is defeated
Sliding in chamber 301 is sent to be equipped with induction sliding block 313, the induction sliding block 313 passes through induction spring 315 and the power transmission chamber
Bottom wall is fixedly connected in 301, and 313 upper end of induction sliding block, which is fixedly connected with, incudes push rod 333, before the induction sliding block 313
Rotation is equipped with induction lifting shaft 314 afterwards, and 314 rear end of induction lifting shaft is fixedly connected with lifting wheel 312, the power transmission
Front and back rotation is equipped with the inductive transfer axis 309 for being located at 314 right side of induction lifting shaft in chamber 301, fixed to be connected with
Inductive transfer driven wheel 311, the lifting wheel 312 moves up and down can be driven with the induction driving wheel 316, the inductive transfer
Wheel 311 engages, and is fixedly connected on the inductive transfer axis 309 and incudes drive bevel gear 310, in the power transmission chamber 301
It rotates upwardly and downwardly to be connected with and extends upwardly to the induction input shaft 306 squeezed in nail nail cavity 401, the induction input shaft 306
Lower end is fixedly connected with induction driven wheel of differential 308, the induction drive bevel gear 310 and the induction driven wheel of differential 308
It engages, is fixedly connected with ejector pin driving pulley 307 on the induction input shaft 306.
Valuably, the pressing mechanism includes being rotatably dispose in described squeeze in nail nail cavity 401 to put band connection wheel 403,
It is described put to be fixedly connected on band connection wheel 403 put band driven wheel 402, equipped with being fixedly connected in extrudings nail nail cavity 401
Band driving wheel 405 is put in induction 306 upper end of input shaft, and the band driving wheel 405 of putting is nibbled with the band driven wheel 402 of putting
Close, it is described put 403 front end of band connection wheel and be fixedly connected with put band driving pulley 404, extrudings nail nail cavity 401 rotation is equipped with putting
Tape spool 408, it is described put 408 front end of tape spool be fixedly connected with put band driven pulley 406, it is described put band driving pulley 404 with it is described
Put band driven pulley 406 by belt connect, the upper layer sending belt 407 be wound on described in put tape spool 408;
Wherein, the nailing machine structure includes being rotatably dispose in the nail nail driving shaft 411 squeezed in nail nail cavity 401, the nail
Nail nail driving pulley 410 is fixedly connected on nail driving shaft 411, described put follows closely driving pulley with driven pulley 406 and the nail
410 are connected by belt, and front end is fixedly connected with swing rod 412 on the nail nail driving shaft 411, and 412 front end of swing rod is fixed
It is connected with and drives shaft 414, it is described to squeeze the slot being rotatably connected in nail nail cavity 401 positioned at 411 right side of nail nail driving shaft
Wheel shaft 415 is fixedly connected with sheave 416 on the fluted roller shaft 415, and the shaft 414 is cooperatively connected with the sheave 416, institute
It states and is hinged with nail nail connecting rod 417 on extruding nail 401 front and back wall body of nail cavity, the nail nail connecting rod 417 has end to pass through reset spring 427
It is fixedly connected with wall body in extruding nail nail cavity 401, sliding is equipped with nail nail sliding block 419 in the extruding nail nail cavity 401, described
Nail nail sliding block 419 is followed closely nail cavity 401 with the extruding by nail langrage spring and is fixedly connected, fixed on the left of the nail nail sliding block 419 to connect
It is connected to pressure fixed pole 418, is equipped with sliding slot 413 in the extruding nail nail cavity 401, sliding is equipped with ejector pin sliding block in the sliding slot 413
424, the nail 423 for being located at 424 left side of ejector pin sliding block is equipped in the sliding slot 413, extrudings is followed closely to be slided in nail cavity 401
Equipped with symmetrical retaining screw sliding block 422, the mutual principle end of the retaining screw sliding block 422 passes through retaining screw spring 421 and the extruding
Nail nail cavity 401 is fixedly connected;
Wherein, described to squeeze the compacting input shaft for rotating in nail nail cavity 401 and being equipped with and extending upwardly in the compacting discharging chamber 501
426, compacting driven pulley 425, the ejector pin driving pulley 307 and the pressure are fixedly connected on the compacting input shaft 426
Real driven pulley 425 is connected by belt, is equipped in the compacting discharging chamber 501 and is fixedly connected on the compacting input shaft 426
The compacting of upper end inputs drive bevel gear 510, and rotation is equipped with compacting transmission axle 502, the compacting in the compacting discharging chamber 501
502 front end of transmission axle is fixedly connected with turntable 504, and 504 front surface of turntable is hinged with catch bar 509, the catch bar 509
Hinged with the ejector pin sliding block 424, the compacting transmission axle 502 is equipped with compacting driving pulley 503, the compacting transmission axle
502 rear ends are fixedly connected with compacting input driven wheel of differential 505, and the compacting input drive bevel gear 510 and the compacting are defeated
Enter the engagement of driven wheel of differential 505;
Wherein, the compacting discharging mechanism includes being rotatably dispose in the compacting discharging chamber 501 and compacting symmetrical above and below turns
Axis 508 is fixedly connected with compacting roller 506 in the compacting shaft 508, and 508 front end of compacting shaft is fixedly connected with
Lower symmetrical compacting belt wheel 507, the compacting belt wheel 507 by belt reversion connection, the compacting driving pulley 503 with it is described
Upside is compacted belt wheel 507 and is connected by belt.
In the following, applicant with reference to attached drawing 1-3 and will be described above specifically to introduce a kind of graphene of the application
With the synthesis flow of boron carbide ceramics:
Under original state, the driving motor 302 is inactive, the lifting wheel 312 not with the induction driving wheel 316, described
Inductive transfer driven wheel 311 engages;
When start-up operation, the driving motor 302 drives the input shaft 326 to rotate, and the input shaft 326 passes through the input
The cooperation of drive bevel gear 327 and the input connection bevel gear 325 drives the input connecting shaft 328 to rotate, the input
Connecting shaft 328 connects driven wheel of differential 330 and the input by the input and connects bevel gear 325, described send with main belt
Wheel 329 and the cooperation sent with driven pulley 323 drive the shove transmission axle 331, it is described under rotated around tape spool 324, institute
It states down and is unclamped lower layer's belt of winding by rotation around tape spool 324, start that band is sent to work;
The shove transmission axle 331 transmits drive bevel gear 202 and the composite material ingredient from mantle tooth by the shove
The cooperation of wheel 204, drives the composite material ingredient transmission axle 203 to rotate, and the composite material ingredient transmission axle 203 passes through institute
The cooperation for stating composite material ingredient transmitting driving pulley 205 and ingredient switching driven pulley 206 drives the ingredient to transfer
Axis 207 rotates, and the ingredient Coupling Shaft 207 is driven by the cooperation of the switching driving pulley 208 and the conveying roller 215
The conveying roller 215 rotates, and auxiliary transports lower layer's sending belt 322, and the ingredient Coupling Shaft 207 is led by the switching
Movable belt pulley 208 and the cooperation of the composite material ingredient driven pulley (not shown) drive described 210 turns of composite material ingredient axis
It is dynamic, so that the capacity turntable 218 be driven to rotate, to carry out composite wood slurry being pressed into silk, and fall into the lower layer
322 upper surface of sending belt;
The input shaft 326 drives institute by the cooperation of the input driving pulley 303 and the induction connection driven pulley 318
It states induction connecting shaft 319 to rotate, the induction connecting shaft 319 connects drive bevel gear 320 and the induction by the induction
Connection driven wheel of differential 317 drives the second induction connecting shaft 321 to rotate, after lower layer's sending belt 322, which is transported, to be come, meeting
The 333 induction push rod 333 is depressed, so that the lifting wheel 312 and the induction driving wheel 316, the inductive transfer
Driven wheel 311 engages, so that the inductive transfer axis 309 be driven to rotate, the inductive transfer axis 309 passes through the induction active
Bevel gear 310 and the induction driven wheel of differential 308 drive the induction input shaft 306 to rotate;
The induction input shaft 306 is put with driving wheel 405 with described in the cooperation drive put with driven wheel 402 by described put
The rotation of band connection wheel 403, the band connection wheel 403 of putting are put with described with driven pulley 406 by described put with driving pulley 404
Cooperation drive described in put tape spool 408 rotation, the tape spool 408 of putting starts to unclamp the upper layer sending belt 407, described to put tape spool
408 drive the nail to follow closely 411 turns of driving shaft by described put with driven pulley 406 and the cooperation of the nail nail driving pulley 410
Dynamic, the nail nail driving shaft 411 drives the rotation of swing rod 412, the swing rod 412 by the drive shaft 414 with it is described
The cooperation of sheave 416 drives the nail nail connecting rod 417 to swing, and the nail nail swing of connecting rod 417 can depress the nail 423, from
And it will be conveyed through nail on the composite core belt rivet come, meanwhile, the induction input shaft 306 passes through the ejector pin main belt
Wheel 307 and the cooperation of the compacting driven pulley 425 drive the compacting input shaft 426 to rotate, and the compacting input shaft 426 is logical
The cooperation for crossing the compacting input drive bevel gear 510 and the compacting input driven wheel of differential 505 drives the compacting to transmit
Axis 502 rotates, and the compacting transmission axle 502 is matched by the turntable 504, the catch bar 509 with the ejector pin sliding block 424
It closes to push the nail 423 and reset, described 502 drive 508 rotation by described 503 and described 507 cooperation, thus
Described 506 mutually opposing rotations are driven, is compacted so that completion will be conveyed through the composite core belt come and sends out the processing
Equipment 100.
In conclusion present apparatus mechanism is simple, using simplicity, manual labor can be saved and be processed into plain edition belt
Composite core Composite Skin band, which, which has, extends that very small, tensile strength is big, the good, good stability of the dimension of heat resistance etc.
Advantage is a kind of extraordinary synchronous belt strength layer material, and process is simple, and process velocity is fast.
The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention
It should be determined by the scope of protection defined in the claims.
Claims (5)
1. the synthesis flow of a kind of graphene and boron carbide ceramics, wherein the graphene synthesizes conveyer belt with boron carbide ceramics and adds
Construction equipment includes process equipment and the composite material ingredient chamber being set in the process equipment, the composite material ingredient chamber
Equipped with composite material ingredient sector, the composite material ingredient sector can be multiple by being squeezed into for the composite material raw material quantitative of melting
Condensation material silk, the composite material ingredient sector lower section are equipped with power transmission chamber, are equipped with power transmission in the power transmission chamber
Mechanism is equipped with driving motor in the power transmission mechanism, and the driving motor provides power for the process equipment, described multiple
It is equipped on the right side of condensation material ingredient sector and squeezes nail nail cavity, be equipped with pressing mechanism, the power transmission machine in the extruding nail nail cavity
Structure further includes the lower layer's sending belt being set in the power transmission chamber, and lower layer's sending belt is defeated into extruding nail nail cavity
Lower layer's belt is sent, the pressing mechanism includes being set to the upper layer sending belt squeezed in nail nail cavity, the pressing mechanism energy
The upper layer sending belt, lower layer's sending belt and composite silk between the two are compressed, extrudings is followed closely in nail cavity
Equipped with nailing machine structure, the composite core belt compressed by the pressing mechanism can be prevented institute plus nail by the nailing machine structure
It states and is slided between lower layer's sending belt and the upper layer sending belt, compacting discharging chamber is equipped on the right side of the nailing machine structure, it is described
It is compacted be equipped with compacting discharging mechanism in discharging chamber, the compacting discharging mechanism can will nail on the composite core belt of nail again
It compresses and transfers out the process equipment;
The process is technically characterized in that the composite material ingredient sector can be by the extruding of the composite material raw material quantitative of melting
At composite silk, the driving motor provides power for the process equipment, and the upper layer can be rolled up and be sent by the pressing mechanism
Band, lower layer's sending belt and composite silk between the two compress, and the nailing machine structure can will be by the pressing mechanism
The composite core belt of compression prevents from sliding between lower layer's sending belt and the upper layer sending belt plus nail, institute
Stating compacting discharging mechanism can compress the composite core belt for nailing on nail again and transfer out the process equipment.
2. the synthesis flow of a kind of graphene and boron carbide ceramics according to claim 1, wherein the power transmission machine
Structure includes the input shaft for being fixedly installed in the power transmission chamber and being connected by power with the driving motor, on the input shaft
It is fixedly connected with input driving pulley, the input shaft upper end is fixedly connected with input drive bevel gear, the power transmission chamber
Middle front and back rotation is equipped with input connecting shaft, and input connection bevel gear, the input master are fixedly connected in the input connecting shaft
Dynamic bevel gear is engaged with input connection bevel gear, is rotated upwardly and downwardly and is equipped with positioned at input connection in the power transmission chamber
Axis upper end and the shove transmission axle in the composite material ingredient chamber is extended upwardly to, fixed connect is equipped in the power transmission chamber
It is connected to the input connection driven wheel of differential of shove transmission axle lower end, the input connection driven wheel of differential and the input connect
Bevel gear engagement is connect, the input connecting shaft front end, which is fixedly connected with, send band driving pulley, and front and back turns in the power transmission chamber
It is dynamic be equipped be located on the right side of the input connecting shaft under around tape spool, lower layer's sending belt be wrapped in it is described under on tape spool, institute
It states down to be fixedly connected with around tape spool front end and send band driven pulley, it is described that band driving pulley and described send is sent to pass through skin with driven pulley
Band connection;
It is characterized by: the driving motor drives the input shaft rotation, the input shaft passes through the input active conical tooth
Wheel and the cooperation of the input connection bevel gear drive the input connecting shaft to rotate, and the input connecting shaft passes through the input
Connection driven wheel of differential and input connection bevel gear, described send send the mating band with driven pulley with described with driving pulley
Move the shove transmission axle, it is described under rotated around tape spool, it is described under around tape spool by rotation by lower layer's belt of winding pine
It opens, starts that band is sent to work.
3. the synthesis flow of a kind of graphene and boron carbide ceramics according to claim 1, wherein the composite material is matched
Expect that mechanism includes the composite material ingredient transmission axle being rotatably dispose in the composite material ingredient chamber, the composite material ingredient
It is fixedly connected with composite material ingredient driven wheel of differential in transmission axle, is equipped in the composite material ingredient chamber and is fixedly connected on institute
State the shove transmitting drive bevel gear of shove transmission axle upper end, the shove transmitting drive bevel gear and the composite material ingredient
Driven wheel of differential engagement, the composite material ingredient transmission axle front end are fixedly connected with composite material ingredient transmitting driving pulley,
Rotation is equipped with the ingredient Coupling Shaft being located on the right side of the composite material ingredient transmission axle in the composite material ingredient chamber, described to match
Ingredient switching driven pulley is fixedly connected in material Coupling Shaft, the composite material ingredient transmitting driving pulley and the ingredient turn
It connects driven pulley to connect by belt, ingredient Coupling Shaft front end is fixedly connected with switching driving pulley, the composite material
Rotation is equipped with the composite material ingredient axis positioned at the ingredient Coupling Shaft right end, the composite material ingredient shaft rear end in ingredient chamber
It is fixedly connected with composite material ingredient driven pulley (not shown), the switching driving pulley and the composite material ingredient are driven
Belt wheel (not shown) is connected by belt, and the composite material ingredient axis front end is fixedly connected with capacity turntable, described compound
The price fixing being fixed on the outside of the capacity turntable in material ingredient chamber, the price fixing upper end pass through feed channel and the external world
Connection, price fixing lower end are equipped with silk pressing and condense road, are fixedly connected with varactor on the downside of the price fixing, in the varactor
Sliding is equipped with the transfiguration sliding block extended upwardly to inside the price fixing, and the transfiguration sliding block passes through transfiguration spring and the varactor
Bottom is fixedly connected, and rotation, which is equipped with, in the composite material ingredient chamber is located on the downside of the ingredient Coupling Shaft and rolls up with the lower layer
Send band symmetrical conveying axis up and down, be fixedly connected with symmetrical conveying roller on the conveying axis, the switching driving pulley with
The conveying roller is connected by belt, is inverted and is connected by belt between the conveying roller;
It is characterized by: the shove transmission axle transmits drive bevel gear by the shove and the composite material ingredient is driven
The cooperation of bevel gear drives the composite material ingredient transmission axle to rotate, and the composite material ingredient transmission axle passes through described multiple
Condensation material ingredient transmits driving pulley and the cooperation of ingredient switching driven pulley drives the ingredient Coupling Shaft to rotate, described
Ingredient Coupling Shaft drives the conveying roller to rotate by the cooperation of the switching driving pulley and the conveying roller, auxiliary fortune
Lower layer's sending belt is sent, the ingredient Coupling Shaft passes through the switching driving pulley and the composite material ingredient driven pulley
The cooperation of (not shown) drives the composite material ingredient axis rotation, to drive the capacity turntable to rotate, to carry out
Composite wood slurry is pressed into silk, and falls into lower layer's sending belt upper surface.
4. the synthesis flow of a kind of graphene and boron carbide ceramics according to claim 1, wherein the power is defeated
Sending mechanism includes the induction connecting shaft being rotatably dispose in the power transmission chamber, is fixedly connected with thoughts in the induction connecting shaft
Driven pulley should be connected, the input driving pulley and induction connection driven pulley are connected by belt, and the induction connects
Spindle upper end is equipped with induction connection drive bevel gear, and front and back rotation is equipped with the second induction connecting shaft, institute in the power transmission chamber
It states and is fixedly connected with induction driving wheel in the second induction connecting shaft, second induction connecting shaft front end is fixedly connected with induction and connects
Driven wheel of differential is connect, the induction connection drive bevel gear is engaged with induction connection driven wheel of differential, the power transmission
Sliding is equipped with induction sliding block in chamber, and the induction sliding block is fixedly connected by induction spring with bottom wall in the power transmission chamber,
The induction upper end of slide block is fixedly connected with induction push rod, and rotation is equipped with induction lifting shaft, the sense before and after the induction sliding block
Shaft rear end should be gone up and down and be fixedly connected with lifting wheel, front and back rotation, which is equipped with, in the power transmission chamber is located at the induction lifting shaft right side
The inductive transfer axis of side, fixed to be connected with inductive transfer driven wheel, the lifting wheel moves up and down can be with the induction
Driving wheel, the inductive transfer driven wheel engage, and induction drive bevel gear is fixedly connected on the inductive transfer axis, described dynamic
It rotates upwardly and downwardly to be connected in power conveyor chamber and extends upwardly to the induction input shaft squeezed in nail nail cavity, the induction input shaft
Lower end is fixedly connected with induction driven wheel of differential, and the induction drive bevel gear is engaged with the induction driven wheel of differential, described
Ejector pin driving pulley is fixedly connected on induction input shaft;
It is characterized by: the input shaft is driven by the cooperation of the input driving pulley and the induction connection driven pulley
The induction connecting shaft rotation, the induction connecting shaft connects drive bevel gear by the induction and induction connection is driven
Bevel gear drives the second induction connecting shaft rotation that can depress the induction push rod after lower layer's sending belt, which is transported, to be come,
So that the lifting wheel is engaged with the induction driving wheel, the inductive transfer driven wheel, so that the induction be driven to pass
Axis rotation is passed, the inductive transfer axis drives the induction by the induction drive bevel gear and the induction driven wheel of differential
Input shaft rotation.
5. the synthesis flow of a kind of graphene and boron carbide ceramics according to claim 1, wherein the pressing mechanism packet
Include and be rotatably dispose in described squeeze in nail nail cavity and put band connection wheel, it is described put to be fixedly connected on band connection wheel put with driven
Wheel, it is described squeeze nail nail cavity in be equipped be fixedly connected on it is described induction input shaft upper end put band driving wheel, it is described put band actively
Wheel engage with the band driven wheel of putting, it is described put band connection wheel front end and be fixedly connected with put band driving pulley, the extruding is followed closely
Chamber rotation, which is equipped with, puts tape spool, it is described put tape spool front end and be fixedly connected with put band driven pulley, it is described put band driving pulley with it is described
Put band driven pulley by belt connect, the upper layer sending belt be wound on described in put tape spool;
Wherein, the nailing machine structure includes being rotatably dispose in the nail nail driving shaft squeezed in nail nail cavity, and the nail nail is actively
Nail nail driving pulley is fixedly connected on axis, described put is connect with nail nail driving pulley by belt with driven pulley, institute
It states front end on nail nail driving shaft and is fixedly connected with swing rod, the swing rod front end is fixedly connected with drive shaft, the extruding nail nail
It is rotatably connected in chamber and is fixedly connected with sheave on the fluted roller shaft followed closely on the right side of nail driving shaft, the fluted roller shaft, it is described
Shaft and the sheave are cooperatively connected, and are hinged with nail nail connecting rod before and after the extruding nail nail cavity on wall body, and the nail nail connecting rod has
End is followed closely wall body in nail cavity with the extruding by reset spring and is fixedly connected, and sliding is equipped with nail nail and slides in the extruding nail nail cavity
Block, the nail nail sliding block are followed closely nail cavity with the extruding by nail langrage spring and are fixedly connected, and are fixedly connected on the left of the nail nail sliding block
There is pressure fixed pole, sliding slot is equipped in the extruding nail nail cavity, sliding is equipped with ejector pin sliding block in the sliding slot, is equipped with position in the sliding slot
Nail on the left of the ejector pin sliding block, the extruding follow closely sliding in nail cavity and are equipped with symmetrical retaining screw sliding block, the retaining screw
Nail cavity is followed closely with the extruding by retaining screw spring and is fixedly connected in the mutual principle end of sliding block;
Wherein, described squeeze rotates the compacting input shaft equipped with extending upwardly in the compacting discharging chamber in nail nail cavity, described
Compacting driven pulley is fixedly connected on compacting input shaft, the ejector pin driving pulley and the compacting driven pulley pass through belt
Connection, it is described to be compacted be equipped with the compacting input drive bevel gear for being fixedly connected on the compacting input shaft upper end, institute in discharging chamber
It states rotation in compacting discharging chamber and is equipped with compacting transmission axle, the compacting transmission axle front end is fixedly connected with turntable, before the turntable
Surface is hinged with catch bar, and the catch bar and the ejector pin sliding block are hinged, and the compacting transmission axle is equipped with compacting main belt
Wheel, the compacting transmitting shaft rear end are fixedly connected with compacting input driven wheel of differential, the compacting input drive bevel gear and institute
State compacting input driven wheel of differential engagement;
Wherein, the compacting discharging mechanism includes being rotatably dispose in the compacting discharging chamber and compacting shaft symmetrical above and below,
Compacting roller is fixedly connected in the compacting shaft, the compacting shaft front end is fixedly connected with compaction band symmetrical above and below
Wheel, the compacting belt wheel are inverted by belt and are connected, and the compacting driving pulley and upside compacting belt wheel are connected by belt
It connects;
It is characterized by: the induction input shaft is put by described with described in driving wheel and the cooperation drive put with driven wheel
The rotation of band connection wheel is put, the band connection wheel of putting is driven by described put with driving pulley and the cooperation put with driven pulley
Described to put tape spool rotation, the tape spool of putting starts to unclamp the upper layer sending belt, and the tape spool of putting is put by described with driven belt
The cooperation of wheel and the nail nail driving pulley drives the nail nail driving shaft rotation, and the nail nail driving shaft drives the swing rod to turn
Dynamic, the swing rod drives the nail to follow closely connecting rod swing by the cooperation of the drive shaft and the sheave, and the nail follows closely connecting rod
Swing can depress the nail, so that it will be conveyed through nail on the composite core belt rivet come, meanwhile, the induction input shaft
The compacting input shaft is driven to rotate by the cooperation of the ejector pin driving pulley and the compacting driven pulley, the compacting is defeated
Enter axis and drives the compacting to transmit by the cooperation of the compacting input drive bevel gear and the compacting input driven wheel of differential
Axis rotation, the compacting transmission axle are pushed away the nail by the cooperation of the turntable, the catch bar and the ejector pin sliding block
Reset is sent, it is described to drive the rotation with the cooperation by described, so that the mutually opposing rotation is driven, to complete
The composite core belt come will be conveyed through to be compacted and send out the process equipment.
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