CN110281401A - It is a kind of using porous ceramics as the photocatalyst air purifying material of carrier - Google Patents

Abstract

The invention discloses a kind of using porous ceramics as the photocatalyst air purifying material of carrier, chamber is cut including cutting body and being set to described cut in body, it further include being slideably positioned in described to cut cutting in chamber and flatten unit, described cut is additionally provided with hydraulic pressure drive control system mechanism in body, described cut is controlled by the hydraulic pressure drive control system mechanism to flatten with flatten unit and cut material, described cut is additionally provided with below chamber into chamber, described to enter in chamber equipped with introducing mechanism；Present apparatus mechanism is simple, use simplicity, the present apparatus is run using hydraulic with mechanically operated mode, saves machine cost, and easy to maintenance, in addition to key position, remaining part measure of precision need not be excessively high, can realize automation by cutting scavenging material into the process of release, each process successively carries out, improved efficiency can improve the income of enterprise well.

Description

It is a kind of using porous ceramics as the photocatalyst air purifying material of carrier

Technical field

It is specifically a kind of using porous ceramics as the photocatalyst air of carrier the present invention relates to scavenging material technical field Scavenging material.

Background technique

Photocatalyst scavenging material uses and its extensively in air purification field, however these scavenging materials are in process In, it needs to be cut according to time package size, and the scavenging material cutting means in tradition are driven using hydraulic (or air pressure) It is dynamic, and hydraulic (or air pressure) drives its use cost high, maintenance process is difficult, therefore in equipment fault, can not quickly tie up It repairs, greatly reduces enterprise income, there are larger drawback, need to improve.

Summary of the invention

Deficiency in view of the above technology, the invention proposes a kind of using porous ceramics as the photocatalyst air purifying material of carrier Material.

The present invention is a kind of using porous ceramics as the photocatalyst air purifying material of carrier, including cuts body and setting Chamber is cut in described cut in body, further includes being slideably positioned in described to cut cutting in chamber and flatten unit, the sanction It cuts and is additionally provided with hydraulic pressure drive control system mechanism in body, controlled by the hydraulic pressure drive control system mechanism and described cut and flatten Mechanism flattens and cuts material, and described cut is additionally provided with below chamber into chamber, described to enter in chamber equipped with introducing mechanism, imports It is additionally provided with dynamic branch chamber below mechanism, power transmission control mechanism is provided in the dynamic branch chamber, the power passes Dynamic control mechanism controls the operation of the introducing mechanism by belt pulley to control the importing and stopping of material, the power transmission Control mechanism also controls the operating condition of the hydraulic pressure drive control system mechanism, controls the fortune cut with flatten unit with this Row, the chamber front that enters are additionally provided with release chamber, release and be equipped with ejecting mechanism in chamber, passed through by the power transmission control mechanism The rotation of shaft is pushed into collection device to control the ejecting mechanism for the material cut.

Preferably, the power transmission control mechanism includes setting as in the dynamic branch chamber and being connected by power in described The power input shaft of power motor upper surface, be equipped in the dynamic branch chamber be fixedly connected on it is dynamic on the power input shaft Power inputs driving pulley, and the power input active for being fixedly connected on the power input shaft upper end is equipped in the dynamic branch chamber It takes turns, rotation passes through described one equipped with the first order kinetics distributing shaft in the induction cavity is extended on thinking in the dynamic branch chamber Power transmission is equipped with that be fixedly connected on the level-one dynamic by grade power distributing shaft into the induction cavity, in the dynamic branch chamber The first order kinetics of power distributing shaft lower end distribute drive bevel gear, and wall body transfer is dynamic before and after the dynamic branch chamber is equipped with second motive force Shaft is distributed, the second motive force being fixedly connected in the second motive force distribution shaft is equipped in the dynamic branch chamber actively It takes turns, power input driven wheel is fixed on the first order kinetics distributing shaft, the power input driven wheel and the power are defeated Enter driving wheel engagement；

Wherein, it is equipped in the dynamic branch chamber and is fixedly connected on the second motive force distribution shaft and is located at the second motive force First order kinetics in front of driving wheel distribute driven wheel of differential, the first order kinetics distribution driven wheel of differential and the first order kinetics point It is engaged with drive bevel gear, dynamic be equipped with of wall body transfer is located on the left of second motive force distribution shaft before and after the dynamic branch chamber Second motive force transmission shaft, the second motive force being fixedly connected on the second motive force transmission shaft is equipped in the dynamic branch chamber Driven wheel, the second motive force driven wheel are engaged with the second motive force driving wheel, and fixed connect is equipped in the dynamic branch chamber The second motive force driving pulley for being connected to the second motive force transmission shaft and being located in front of the second motive force driven wheel, it is described dynamic Balance sliding slot, the second motive force driving pulley and balance sliding slot bilateral symmetry, the power point are equipped in power splitter cavity The balance slide block being slidably connected in the balance sliding slot is equipped in stream chamber, described balance slide block or so surface is symmetrically arranged with outward Side extends to the balancing pole on the second motive force transmission shaft, and the balancing pole and the second motive force transmission shaft are hinged, described Balance slide block or so surface is fixedly connected by balancing spring with the balance sliding slot inner surface；

Wherein, the connecting rod for being fixedly connected on the balance slide block upper surface, the power point are equipped in the dynamic branch chamber Rotation is equipped with three-level transmission shaft before and after flowing chamber, is equipped with three be fixedly connected on the three-level transmission shaft in the dynamic branch chamber Grade power driving pulley, be equipped in the dynamic branch chamber be fixedly connected on three-level transmission shaft front end second motive force it is driven Belt wheel, counter wheel is additionally provided in the dynamic branch chamber, and the second motive force driven pulley is dynamic by belt and the second level Advocate movable belt pulley, counter wheel connection, spring damping frame, the spring resistance are fixed in the wall of the dynamic branch bottom of chamber Sliding is equipped with damping elevating lever in Buddhist nun's frame, and the damping elevating lever connects by the way that damping spring and spring damping frame bottom are fixed It connects, the lifting wheel for being fixedly connected on the damping elevating lever upper end, the lifting wheel upper surface is equipped in the dynamic branch chamber It is connected with and extends upwardly to the mandril cut in chamber；

Wherein, dynamic branch bottom of chamber wall rotation is equipped with the connection shaft being located on rear side of the spring damping frame, the power It is defeated that the power input driven pulley power input driven pulley power being fixedly connected in the connection shaft is equipped in splitter cavity Enter driven pulley, the power input driven pulley power input driven pulley power input driven pulley and the power input Driving pulley is connected by belt, and the fifth wheel for being fixedly connected on the connection shaft upper end is equipped in the dynamic branch chamber, Wall rotation in the dynamic branch bottom of chamber is equipped with the biography for extending upwardly to and in the release chamber and being located on front side of the spring damping frame Shaft is passed, the transmitting driven wheel being fixedly connected in the transmitting shaft is equipped in the dynamic branch chamber, the release chamber is set There is the promotion runner for being fixedly connected on the transmitting shaft upper end, front and back rotation is equipped with level Four and is driven in the dynamic branch chamber Axis is equipped with the three-level power driven pulley being fixedly connected on the level Four transmission shaft, the power in the dynamic branch chamber The level Four power driving pulley for being fixedly connected on level Four transmission shaft front end, the three-level power driven belt are equipped in splitter cavity Wheel is connect with the three-level power driving pulley by belt.

Preferably, the introducing mechanism includes being fixedly installed on the lead-in zone into chamber, the lead-in zone rotation It is described into being equipped with the material caster being fixedly connected on the input shaft in chamber equipped with input shaft, it is described enter in chamber be equipped with It is fixedly connected on the driven pulley of the input shaft front end, the driven pulley and the level Four power driving pulley pass through belt Connection, the material caster drives the lead-in zone, described to be equipped with induction push plate into sliding in chamber, and the chamber right wall that enters is consolidated Surely there is limited block, the induction push plate incudes spring by material and is fixedly connected with the limited block left surface, and the induction pushes away The right surface of plate is fixedly connected with the oriented push rod extended in the induction cavity, and material will push the induction push plate to the right after coming in It slides.

Preferably, the hydraulic pressure drive control system mechanism includes hydraulic control chamber, and front and back rotation is set in the hydraulic control chamber There is control first rotating shaft, the control main belt being fixedly connected in the control first rotating shaft is equipped in the hydraulic control chamber It takes turns, the control driven wheel of differential for being fixedly connected on the control first rotating shaft front end, the liquid is equipped in the hydraulic control chamber Rotation is equipped with the control input lever extended downward into the induction cavity in pressure control chamber, and the induction cavity is equipped with and is fixedly connected on The control drive bevel gear of the control input lever upper end, the control drive bevel gear are nibbled with the control driven wheel of differential It closes, front and back rotation is equipped with the second shaft of control in the hydraulic control chamber, is equipped in the hydraulic control chamber and is fixedly connected on institute The control driven pulley in the second shaft of control is stated, the control driven pulley, which is submitted, is connected to controls connecting rod, sliding in the main valve Dynamic to be equipped with control sliding block, the control sliding block and the main valve are hinged, and the hydraulic pump is connected by oil circuit oil circuit and the main valve It connects.

Preferably, it is equipped with induction cavity on the right side of the introducing mechanism, is equipped in the induction cavity and is fixedly connected on the level-one The induction drive bevel gear of power distributing shaft upper end, be equipped in the induction cavity hingedly with the induction connecting rod on the push rod, institute It states induction connecting rod and the connecting rod is hinged, the induction for being fixedly connected on the control input lever lower end is equipped in the induction cavity Driven wheel of differential is equipped with the inductive transfer bevel gear for being fixedly connected on the push rod right end in the induction cavity.

Preferably, described cut with flatten unit includes being slideably positioned in the mainboard cut in chamber, described to cut chamber Middle bilateral symmetry is equipped with and is fixedly connected on the catenating slider that the mainboard is located remotely from each other face, and the catenating slider passes through damping spring Cut bottom wall under chamber with described and be fixedly connected, it is described cut symmetrically to be equipped in chamber be fixedly connected on the mainboard lower surface Guide sleeve, sliding is equipped with guide post in the guide sleeve, and the guide post upper surface is fixedly connected by compression spring with the guide sleeve inner wall, The guide post lower surface, which is fixedly connected with, cuts pressing plate, and the pressing plate lower surface that cuts is fixedly connected with the mandril, described The right surface of movable slider is fixed with briquetting, and the mainboard lower end is fixed with cutter.

Preferably, the hydraulic pressure drive control system mechanism further includes hydraulic cylinder, and sliding is equipped with hydraulic slide in the hydraulic cylinder, The hydraulic slide lower surface is fixedly connected by hydraulic spring grease cup with bottom wall under the hydraulic cylinder, the hydraulic slide lower end surface Be fixedly connected by hydraulic push rod with the mainboard upper surface, it is described cut to be equipped in body be located at described cut on the right side of chamber Reversal valve, the hydraulic cylinder are connected to by the oil circuit with the reversal valve.

Preferably, the ejecting mechanism includes being set in the release chamber and being fixedly connected on the transmitting shaft upper end Promotion runner, promotion connecting rod is fixedly connected on the promotion runner, sliding, which is equipped with, in the release chamber pushes sliding block, described Sliding block is pushed to be fixedly connected by connecting rod with slide plate is released, the promotion sliding block lower surface is hinged with catch bar, the promotion Bar lower end and the promotion connecting rod are hinged.

The beneficial effects of the present invention are: present apparatus mechanism is simple, using simplicity, the present apparatus is using hydraulic and mechanical biography Dynamic mode is run, and saves machine cost, and easy to maintenance, and in addition to key position, remaining part measure of precision need not be excessively high, can Automation is realized by cutting scavenging material into the process of release, and each process successively carries out, improved efficiency, can be well Improve the income of enterprise.

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 of the invention a kind of illustrates by the overall structure of the photocatalyst air purifying material of carrier of porous ceramics Figure；

Fig. 2 is structural schematic diagram at A-A in Fig. 1；

Fig. 3 is structural schematic diagram at B in Fig. 1；

Fig. 4 is structural schematic diagram at C in Fig. 1；

Fig. 5 is structural schematic diagram at D-D in Fig. 4.

Specific embodiment

All features disclosed in this specification or disclosed all methods 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 Figs. 1-5, apparatus of the present invention is a kind of using porous ceramics as the photocatalyst air purifying material of carrier, including It cuts body 100 and is set to described cut in body 100 and cut chamber 501, further include being slideably positioned in described to cut chamber Cutting in 501 and flatten unit, described cut is additionally provided with hydraulic pressure drive control system mechanism in body 100, by described hydraulic Transmission controlling mechanism flattens with flatten unit to control described cut and cuts material, and described cut is additionally provided with below chamber 501 Into chamber 401, described to enter equipped with introducing mechanism in chamber 401, introducing mechanism lower section is additionally provided with dynamic branch chamber 301, described Power transmission control mechanism is provided in dynamic branch chamber 301, the power transmission control mechanism passes through described in belt pulley control Introducing mechanism runs to control the importing and stopping of material, and the power transmission control mechanism also controls the hydraulic drive control The operating condition of mechanism processed controls the operation cut with flatten unit with this, it is described enter in front of chamber 401 to be additionally provided with push away Chamber 701 out are released and are equipped with ejecting mechanism in chamber 701, by the power transmission control mechanism by the rotation of shaft to control It states ejecting mechanism the material cut is pushed into collection device.

Valuably, the power transmission control mechanism include set as in the dynamic branch chamber 301 and be connected by power in The power input shaft 304 of 333 upper surface of power motor, be equipped in the dynamic branch chamber 301 be fixedly connected on it is described dynamic Power on power input shaft 304 inputs driving pulley 313, is equipped in the dynamic branch chamber 301 and is fixedly connected on the power The power of 304 upper end of input shaft inputs driving wheel 302, rotation is equipped in the dynamic branch chamber 301 think on extend to the sense The first order kinetics distributing shaft 305 in chamber 201 is answered, by the first order kinetics distributing shaft 305 by power transmission to the induction cavity The first order kinetics point for being fixedly connected on 305 lower end of first order kinetics distributing shaft are equipped in 201, in the dynamic branch chamber 301 With drive bevel gear 306, the dynamic second motive force that is equipped with of the 301 front and back wall body transfer of dynamic branch chamber distributes shaft 309, described dynamic The second motive force driving wheel 307 being fixedly connected in the second motive force distribution shaft 309 is equipped in power splitter cavity 301；

Wherein, it is equipped in the dynamic branch chamber 301 and is fixedly connected on the second motive force distribution shaft 309 and is located at described two The first order kinetics in 307 front of grade power driving wheel distribute driven wheel of differential 308, and the first order kinetics distribute driven wheel of differential 308 It is engaged with first order kinetics distribution drive bevel gear 306, dynamic be equipped with of the 301 front and back wall body transfer of dynamic branch chamber is located at institute The second motive force transmission shaft 312 in 309 left side of second motive force distribution shaft is stated, is equipped with and is fixedly connected in the dynamic branch chamber 301 Second motive force driven wheel 310 on the second motive force transmission shaft 312, the second motive force driven wheel 310 and the second level Power driving wheel 307 engages, and is equipped in the dynamic branch chamber 301 and is fixedly connected on the second motive force transmission shaft 312 and position Second motive force driving pulley 311 in 310 front of second motive force driven wheel, balance is equipped in the dynamic branch chamber 301 Sliding slot 341, the second motive force driving pulley 311 with the balance sliding slot 341 symmetrically, in the dynamic branch chamber 301 Equipped with the balance slide block 344 being slidably connected in the balance sliding slot 341,344 or so the surface of balance slide block is symmetrically arranged with The balancing pole 343 on the second motive force transmission shaft 312 is extended to outward, and the balancing pole 343 is passed with the second motive force Moving axis 312 is hinged, and 344 or so the surface of balance slide block is fixed by balancing spring 342 and 341 inner surface of balance sliding slot Connection；

Wherein, the connecting rod 345 for being fixedly connected on 344 upper surface of balance slide block, institute are equipped in the dynamic branch chamber 301 Rotation is equipped with three-level transmission shaft 346 before and after stating dynamic branch chamber 301, is equipped in the dynamic branch chamber 301 and is fixedly connected on institute The three-level power driving pulley 348 on three-level transmission shaft 346 is stated, is equipped in the dynamic branch chamber 301 described in being fixedly connected on The second motive force driven pulley 347 of 346 front end of three-level transmission shaft is additionally provided with counter wheel 314 in the dynamic branch chamber 301, The second motive force driven pulley 347 is connect by belt with the second motive force driving pulley 311, the counter wheel 314, Spring damping frame 321 is fixed in 301 bottom wall of dynamic branch chamber, sliding is equipped with damping in the spring damping frame 321 Elevating lever 318, the damping elevating lever 318 are fixedly connected by damping spring 322 with 321 bottom of spring damping frame, institute State the lifting wheel 319 for being equipped in dynamic branch chamber 301 and being fixedly connected on damping 318 upper end of elevating lever, the lifting wheel 319 Upper surface, which is connected with, extends upwardly to the mandril 411 cut in chamber 501；

Wherein, 301 bottom wall of the dynamic branch chamber rotation is equipped with the connection shaft 323 for being located at 321 rear side of spring damping frame, The power input driven pulley power input being fixedly connected in the connection shaft 323 is equipped in the dynamic branch chamber 301 Driven pulley power inputs driven pulley 324, and the power input driven pulley power input driven pulley power input is driven Belt wheel 324 is connect with power input driving pulley 313 by belt, is equipped with and is fixedly connected in the dynamic branch chamber 301 Fifth wheel 325 in connection 323 upper end of shaft, 301 bottom wall of the dynamic branch chamber rotation are described equipped with extending upwardly to The transmitting shaft 320 of 321 front side of spring damping frame is released in chamber 701 and be located at, is equipped in the dynamic branch chamber 301 solid Surely the transmitting driven wheel 327 being connected in the transmitting shaft 320, the release chamber 701 are equipped with and are fixedly connected on the transmitting The promotion runner 702 of 320 upper end of shaft, front and back rotation is equipped with level Four transmission shaft 316 in the dynamic branch chamber 301, described dynamic The three-level power driven pulley 326 being fixedly connected on the level Four transmission shaft 316, the power are equipped in power splitter cavity 301 The level Four power driving pulley 315 for being fixedly connected on 316 front end of level Four transmission shaft, the three-level are equipped in splitter cavity 301 Power driven pulley 326 is connect with the three-level power driving pulley 348 by belt.

Valuably, the introducing mechanism includes being fixedly installed on the lead-in zone 405 into chamber 401, the importing The rotation of band 405 is equipped with input shaft 402, described into being equipped with the material caster being fixedly connected on the input shaft 402 in chamber 401 404, it is described into being equipped with the driven pulley 403 for being fixedly connected on 402 front end of input shaft, the driven pulley in chamber 401 403 are connect with the level Four power driving pulley 315 by belt, and the material caster 404 drives the lead-in zone 405, institute It states to enter in chamber 401 to slide and is equipped with induction push plate 406, described to be fixed with limited block 408 into 401 right wall of chamber, the induction pushes away Plate 406 incudes spring 407 by material and is fixedly connected with 408 left surface of limited block, and the right surface of the induction push plate 406 is solid Surely the oriented push rod 409 extended in the induction cavity 201 is connected, material will push the induction push plate 406 to the right after coming in It slides.

Valuably, the hydraulic pressure drive control system mechanism includes hydraulic control chamber 101, front and back in the hydraulic control chamber 101 Rotation is equipped with control first rotating shaft 107, is equipped in the hydraulic control chamber 101 and is fixedly connected on the control first rotating shaft 107 On control driving pulley 108, be equipped in the hydraulic control chamber 101 and be fixedly connected on 107 front end of control first rotating shaft Control driven wheel of differential 106, rotation is equipped with the control extended downward into the induction cavity 201 in the hydraulic control chamber 101 Input lever 110 processed, the induction cavity 201 are equipped with the control drive bevel gear for being fixedly connected on control 110 upper end of input lever 109, the control drive bevel gear 109 is engaged with the control driven wheel of differential 106, front and back in the hydraulic control chamber 101 Rotation is equipped with the second shaft 104 of control, is equipped in the hydraulic control chamber 101 and is fixedly connected on the second shaft 104 of the control On control driven pulley 103, the control driven pulley 103, which is submitted, is connected to controls connecting rod 102, slides in the main valve 114 Equipped with control sliding block 115, the control sliding block 115 and the main valve 114 are hinged, and the hydraulic pump 111 passes through oil circuit oil circuit 113 It is connect with the main valve 114.

Valuably, it is equipped with induction cavity 201 on the right side of the introducing mechanism, is equipped in the induction cavity 201 and is fixedly connected on institute State the induction drive bevel gear 203 of 305 upper end of first order kinetics distributing shaft, be equipped in the induction cavity 201 hingedly with the push rod Induction connecting rod 205 on 409, the induction connecting rod 205 and the connecting rod 345 are hinged, are equipped with and fix in the induction cavity 201 It is connected to the induction driven wheel of differential 202 of control 110 lower end of input lever, is equipped with and is fixedly connected in the induction cavity 201 The inductive transfer bevel gear 204 of 409 right end of push rod.

Valuably, described cut with flatten unit includes being slideably positioned in the mainboard 507 cut in chamber 501, described It cuts symmetrically to be equipped in chamber 501 and is fixedly connected on the catenating slider 506 that the mainboard 507 is located remotely from each other face, the linkage Sliding block 506 is cut bottom wall under chamber 501 and is fixedly connected by damping spring 509 with described, and described cut in chamber 501 symmetrically sets There is the guide sleeve 504 for being fixedly connected on 507 lower surface of mainboard, sliding is equipped with guide post 503, the guide post in the guide sleeve 504 503 upper surfaces are fixedly connected by compression spring 505 with 504 inner wall of guide sleeve, and 503 lower surface of guide post is fixedly connected with Pressing plate 502 is cut, 502 lower surface of pressing plate that cuts is fixedly connected with the mandril 411, the right surface of the catenating slider 506 It is fixed with briquetting 508,507 lower end of mainboard is fixed with cutter 510.

Valuably, the hydraulic pressure drive control system mechanism further includes hydraulic cylinder 601, and sliding is equipped with liquid in the hydraulic cylinder 601 Sliding block 604 is pressed, 604 lower surface of hydraulic slide is fixedly connected by hydraulic spring grease cup 605 with the lower bottom wall of the hydraulic cylinder 601, 604 lower end surface of hydraulic slide is fixedly connected by hydraulic push rod 603 with 507 upper surface of mainboard, described to cut body Be equipped in 100 and be located at the reversal valve 606 for cutting 501 right side of chamber, the hydraulic cylinder 601 by the oil circuit 113 with it is described Reversal valve 606 is connected to.

Valuably, the ejecting mechanism includes being set in the release chamber 701 and being fixedly connected on the transmitting shaft The promotion runner 702 of 320 upper ends is fixedly connected on the promotion runner 702 and pushes connecting rod 704, cunning in the releases chamber 701 Dynamic be equipped with pushes sliding block 708, and the promotion sliding block 708 is fixedly connected by connecting rod 706 with slide plate 707 is released, the promotion 708 lower surface of sliding block is hinged with catch bar 705, and 705 lower end of catch bar and the promotion connecting rod 704 are hinged.

In the following, applicant will with reference to attached drawing 1-5 and be described above come specifically introduce the application one kind with porous Ceramics are the photocatalyst air purifying material of carrier:

When original state, the power motor 333 does not start, and the second motive force driving wheel 307 and the second motive force are driven 310 engagement of wheel, the lifting wheel 319 are not engaged with the fifth wheel 325, the transmitting driven wheel 327；

When start-up operation, the power motor 333, the hydraulic pump 111 start, and drive institute by the power input shaft 304 State power input driven wheel 303, power input driving pulley 313 rotates together, power input driving pulley 313 is logical Crossing belt drives the power input driven pulley power input driven pulley power input driven pulley 324 to rotate, meanwhile, institute Stating power input driven wheel 303 drives the first order kinetics distributing shaft 305 to rotate, and the first order kinetics distributing shaft 305 drives institute It states first order kinetics distribution drive bevel gear 306, the induction drive bevel gear 203 while rotating, the first order kinetics distribution master Dynamic bevel gear 306 distributes driven wheel of differential 308 by the first order kinetics and the second motive force driving wheel 307 is driven to rotate, from And the second motive force driven wheel 310 is driven to rotate, the second motive force driven wheel 310 drives the second motive force by belt Driven pulley 347 rotates, so that the three-level power driving pulley 348 be driven to rotate, the three-level power driving pulley 348 is logical Crossing belt drives the three-level power driven pulley 326 to rotate, and the three-level power driven pulley 326 is driven by the level Four Axis 316 drives the level Four power driving pulley 315 to rotate, and the level Four power driving pulley 315 passes through described in belt drive Driven pulley 403 rotates, and the driven pulley 403 drives the material caster 404 to rotate by the input shaft 402, thus It drives the lead-in zone 405 to rotate, material is driven to enter, material pushes the induction push plate 406 to move to right after entering, the induction Push plate 406 drives the push rod 409 to move to right, and the push rod 409 drives the connecting rod 345 left by the induction connecting rod 205 It moves, is engaged so that the second motive force driven wheel 310 be driven to exit with the second motive force driving wheel 307, the second motive force Transmission shaft 312 stops operating, so that the lead-in zone 405 shuts down, meanwhile, the push rod 409 pushes the induction Transmitting bevel gear 204 engages with the induction drive bevel gear 203, the induction driven wheel of differential 202, the induction initiative taper Gear 203 drives the induction driven wheel of differential 202 to rotate by the inductive transfer bevel gear 204, described to incude from mantle Gear 202 drives the control drive bevel gear 109 to rotate by the control input lever 110, the control drive bevel gear 109 drive the control driven wheel of differential 106 to rotate, and the control driven wheel of differential 106 passes through the control first rotating shaft 107 The control driving pulley 108 is driven to rotate, the control driving pulley 108 drives the control driven pulley by belt 103 rotations, the control driven pulley 103 push the control sliding block 115 to move upwards by the controls connecting rod 102, from And it is connected to the hydraulic pump 111 and the reversal valve 606, so that the hydraulic slide 604 is pushed to move down, the hydraulic slide 604 drive the hydraulic push rod 603 to move down, and the hydraulic push rod 603 drives the mainboard 507 to move down, to drive the sanction It hobs plate 502, the cutter 510 and the pressing plate 502 that cuts to move down together, the pressing plate 502 that cuts drives the mandril 411 move down, and the mandril 411 drives the lifting wheel 319, the damping elevating lever 318 to move down, the lifting wheel 319 and institute Fifth wheel 325, the transmitting driven wheel 327 engagement are stated, the power input driven pulley power input driven pulley power is defeated Enter driven pulley 324 and drive the fifth wheel 325 to rotate by the connection shaft 323, the fifth wheel 325 passes through the liter Drop wheel 319 drives the transmitting driven wheel 327 to rotate, while the mainboard 507 drives the pressure by the catenating slider 506 Block 508 moves down, and after a distance, the briquetting 508 depresses the reversal valve 606, to drive the mainboard 507, described subtract Shake spring 509 moves up, meanwhile, the transmitting driven wheel 327 drives described 702 turns of promotion runner by the transmitting shaft 320 Dynamic, the promotion runner 702 drives the promotion sliding block 708 up to transport by the promotion connecting rod 704, the catch bar 705 Dynamic, the promotion sliding block 708 pushes the release slide plate 707 up to move by the connecting rod 706, has cut out to push The material cut is entered at collection by the promotion sliding block 708, meanwhile, the induction push plate 406 resets, the second motive force Driven wheel 310 is engaged with the second motive force driving wheel 307 recovery, and the lead-in zone 405 restores operating, the inductive transfer cone Gear 204 resets.

The beneficial effects of the present invention are: present apparatus mechanism is simple, using simplicity, the present apparatus is using hydraulic and mechanical biography Dynamic mode is run, and saves machine cost, and easy to maintenance, and in addition to key position, remaining part measure of precision need not be excessively high, can Automation is realized by cutting scavenging material into the process of release, and each process successively carries out, improved efficiency, can be well Improve the income of enterprise.

The basic principles, main features and advantages of the present invention have been shown and described above.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and what is described in the above embodiment and the description is only the present invention Principle, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these variation and Improvement is both fallen in claimed invention.The claimed scope of the invention is by appended claims and its equivalent circle It is fixed.

Claims (8)

1. it is a kind of using porous ceramics as the photocatalyst air purifying material of carrier, including cut body and be set to described cut Chamber is cut in body, it is characterised in that: further includes being slideably positioned in described to cut cutting in chamber and flatten unit, the sanction It cuts and is additionally provided with hydraulic pressure drive control system mechanism in body, controlled by the hydraulic pressure drive control system mechanism and described cut and flatten Mechanism flattens and cuts material, and described cut is additionally provided with below chamber into chamber, described to enter in chamber equipped with introducing mechanism, imports It is additionally provided with dynamic branch chamber below mechanism, power transmission control mechanism is provided in the dynamic branch chamber, the power passes Dynamic control mechanism controls the operation of the introducing mechanism by belt pulley to control the importing and stopping of material, the power transmission Control mechanism also controls the operating condition of the hydraulic pressure drive control system mechanism, controls the fortune cut with flatten unit with this Row, the chamber front that enters are additionally provided with release chamber, release and be equipped with ejecting mechanism in chamber, passed through by the power transmission control mechanism The rotation of shaft is pushed into collection device to control the ejecting mechanism for the material cut.

2. according to claim 1 a kind of using porous ceramics as the photocatalyst air purifying material of carrier, it is characterised in that: The power transmission control mechanism includes being set in the dynamic branch chamber and being connected by power in the power motor upper surface Power input shaft, the power input main belt being fixedly connected on the power input shaft is equipped in the dynamic branch chamber It takes turns, the power input driving wheel for being fixedly connected on the power input shaft upper end, the power is equipped in the dynamic branch chamber Rotation passes through the first order kinetics distributing shaft equipped with the first order kinetics distributing shaft in the induction cavity is extended on thinking in splitter cavity By power transmission into the induction cavity, it is equipped in the dynamic branch chamber and is fixedly connected on first order kinetics distributing shaft lower end First order kinetics distribute drive bevel gear, the dynamic second motive force that is equipped with of wall body transfer distributes shaft, institute before and after the dynamic branch chamber The second motive force driving wheel for being equipped with and being fixedly connected in the second motive force distribution shaft in dynamic branch chamber is stated, the level-one is dynamic Power input driven wheel is fixed on power distributing shaft, the power input driven wheel is engaged with power input driving wheel；

Wherein, it is equipped in the dynamic branch chamber and is fixedly connected on the second motive force distribution shaft and is located at the second motive force First order kinetics in front of driving wheel distribute driven wheel of differential, the first order kinetics distribution driven wheel of differential and the first order kinetics point It is engaged with drive bevel gear, dynamic be equipped with of wall body transfer is located on the left of second motive force distribution shaft before and after the dynamic branch chamber Second motive force transmission shaft, the second motive force being fixedly connected on the second motive force transmission shaft is equipped in the dynamic branch chamber Driven wheel, the second motive force driven wheel are engaged with the second motive force driving wheel, and fixed connect is equipped in the dynamic branch chamber The second motive force driving pulley for being connected to the second motive force transmission shaft and being located in front of the second motive force driven wheel, it is described dynamic Balance sliding slot, the second motive force driving pulley and balance sliding slot bilateral symmetry, the power point are equipped in power splitter cavity The balance slide block being slidably connected in the balance sliding slot is equipped in stream chamber, described balance slide block or so surface is symmetrically arranged with outward Side extends to the balancing pole on the second motive force transmission shaft, and the balancing pole and the second motive force transmission shaft are hinged, described Balance slide block or so surface is fixedly connected by balancing spring with the balance sliding slot inner surface；

Wherein, the connecting rod for being fixedly connected on the balance slide block upper surface, the power point are equipped in the dynamic branch chamber Rotation is equipped with three-level transmission shaft before and after flowing chamber, is equipped with three be fixedly connected on the three-level transmission shaft in the dynamic branch chamber Grade power driving pulley, be equipped in the dynamic branch chamber be fixedly connected on three-level transmission shaft front end second motive force it is driven Belt wheel, counter wheel is additionally provided in the dynamic branch chamber, and the second motive force driven pulley is dynamic by belt and the second level Advocate movable belt pulley, counter wheel connection, spring damping frame, the spring resistance are fixed in the wall of the dynamic branch bottom of chamber Sliding is equipped with damping elevating lever in Buddhist nun's frame, and the damping elevating lever connects by the way that damping spring and spring damping frame bottom are fixed It connects, the lifting wheel for being fixedly connected on the damping elevating lever upper end, the lifting wheel upper surface is equipped in the dynamic branch chamber It is connected with and extends upwardly to the mandril cut in chamber；

Wherein, dynamic branch bottom of chamber wall rotation is equipped with the connection shaft being located on rear side of the spring damping frame, the power It is defeated that the power input driven pulley power input driven pulley power being fixedly connected in the connection shaft is equipped in splitter cavity Enter driven pulley, the power input driven pulley power input driven pulley power input driven pulley and the power input Driving pulley is connected by belt, and the fifth wheel for being fixedly connected on the connection shaft upper end is equipped in the dynamic branch chamber, Wall rotation in the dynamic branch bottom of chamber is equipped with the biography for extending upwardly to and in the release chamber and being located on front side of the spring damping frame Shaft is passed, the transmitting driven wheel being fixedly connected in the transmitting shaft is equipped in the dynamic branch chamber, the release chamber is set There is the promotion runner for being fixedly connected on the transmitting shaft upper end, front and back rotation is equipped with level Four and is driven in the dynamic branch chamber Axis is equipped with the three-level power driven pulley being fixedly connected on the level Four transmission shaft, the power in the dynamic branch chamber The level Four power driving pulley for being fixedly connected on level Four transmission shaft front end, the three-level power driven belt are equipped in splitter cavity Wheel is connect with the three-level power driving pulley by belt.

3. according to claim 1 a kind of using porous ceramics as the photocatalyst air purifying material of carrier, it is characterised in that: The introducing mechanism includes being fixedly installed on the lead-in zone into chamber, and the lead-in zone rotation is equipped with input shaft, described Into being equipped with the material caster that is fixedly connected on the input shaft in chamber, it is described enter in chamber be equipped be fixedly connected on it is described defeated Enter the driven pulley of axis front end, the driven pulley is connect with the level Four power driving pulley by belt, the material rolling Lead-in zone described in wheel drive, it is described to be equipped with induction push plate into sliding in chamber, it is described to be fixed with limited block into chamber right wall, it is described Induction push plate incudes spring by material and is fixedly connected with the limited block left surface, and the right surface of the induction push plate is fixedly connected The oriented push rod extended in the induction cavity, material will push the induction push plate and slide to the right after coming in.

4. according to claim 1 a kind of using porous ceramics as the photocatalyst air purifying material of carrier, it is characterised in that: The hydraulic pressure drive control system mechanism includes hydraulic control chamber, and front and back rotation is equipped with control first rotating shaft in the hydraulic control chamber, The control driving pulley being fixedly connected in the control first rotating shaft, the hydraulic control chamber are equipped in the hydraulic control chamber In be equipped with the control driven wheel of differential for being fixedly connected on the control first rotating shaft front end, rotate in the hydraulic control chamber and be equipped with The control input lever in the induction cavity is extended downward into, the induction cavity is equipped with and is fixedly connected on the control input lever upper end Control drive bevel gear, the control drive bevel gear is engaged with the control driven wheel of differential, in the hydraulic control chamber Front and back rotation is equipped with the second shaft of control, and the control being fixedly connected in the second shaft of the control is equipped in the hydraulic control chamber Driven pulley processed, the control driven pulley, which is submitted, is connected to controls connecting rod, and sliding is equipped with control sliding block, the control in the main valve Sliding block processed and the main valve are hinged, and the hydraulic pump is connect by oil circuit oil circuit with the main valve.

5. according to claim 1 a kind of using porous ceramics as the photocatalyst air purifying material of carrier, it is characterised in that: It is equipped with induction cavity on the right side of the introducing mechanism, is equipped in the induction cavity and is fixedly connected on first order kinetics distributing shaft upper end Incude drive bevel gear, be equipped in the induction cavity hingedly with the induction connecting rod on the push rod, the induction connecting rod with it is described Connecting rod is hinged, and the induction driven wheel of differential for being fixedly connected on the control input lever lower end is equipped in the induction cavity, described The inductive transfer bevel gear for being fixedly connected on the push rod right end is equipped in induction cavity.

6. according to claim 1 a kind of using porous ceramics as the photocatalyst air purifying material of carrier, it is characterised in that: Described cut with flatten unit includes being slideably positioned in the mainboard cut in chamber, and described cut in chamber is symmetrically equipped with admittedly Surely the catenating slider being connected at left and right sides of the mainboard, the catenating slider cut bottom wall under chamber with described by damping spring It is fixedly connected, it is described to cut the guide sleeve for being symmetrically equipped in chamber and being fixedly connected on the mainboard lower surface, it is slided in the guide sleeve Dynamic to be equipped with guide post, the guide post upper surface is fixedly connected by compression spring with the guide sleeve inner wall, and the guide post lower surface is solid Surely it is connected with and cuts pressing plate, the pressing plate lower surface that cuts is fixedly connected with the mandril, and the right surface of catenating slider is fixed Equipped with briquetting.

7. according to claim 1 a kind of using porous ceramics as the photocatalyst air purifying material of carrier, it is characterised in that: The hydraulic pressure drive control system mechanism further includes hydraulic cylinder, slides in the hydraulic cylinder and is equipped with hydraulic slide, under the hydraulic slide Surface is fixedly connected by hydraulic spring grease cup with bottom wall under the hydraulic cylinder, the hydraulic slide lower end surface by hydraulic push rod with The mainboard upper surface is fixedly connected, and described cut is equipped with positioned at the reversal valve cut on the right side of chamber in body, described hydraulic Cylinder is connected to by the oil circuit with the reversal valve.

8. according to claim 1 a kind of using porous ceramics as the photocatalyst air purifying material of carrier, it is characterised in that: The ejecting mechanism includes the promotion runner for being set in the release chamber and being fixedly connected on the transmitting shaft upper end, described It pushes and is fixedly connected with promotion connecting rod on runner, sliding, which is equipped with, in the release chamber pushes sliding block, and the promotion sliding block passes through company Extension bar is fixedly connected with slide plate is released, and the promotion sliding block lower surface is hinged with catch bar, and the catch bar lower end is pushed away with described Dynamic connecting rod is hinged.