CN115845955A - Machining device for manufacturing hollow glass - Google Patents

Abstract

The invention relates to the technical field of hollow glass manufacturing, and discloses a processing device for manufacturing hollow glass, which comprises a processing barrel, wherein the interior of the processing barrel is divided into a grinding bin and a cleaning bin up and down, a main shaft is movably inserted into the processing barrel, a feeding channel is formed in the grinding bin, a crushing and grinding mechanism is arranged above a conical sieving plate, a lifting mechanism is arranged in the lifting bin, the main shaft in the cleaning bin is movably provided with the cleaning mechanism, the crushing and grinding mechanism is used for crushing and grinding raw materials, the lifting mechanism is used for automatically lifting larger raw materials to perform secondary grinding, and a stirring structure is used for cleaning and stirring quartz; the invention can automatically crush and grind glass raw materials to produce sand, can timely carry out feed back secondary grinding on the raw materials which do not reach the standard, can carry out deep cleaning on the glass raw materials, can carry out pressure scrubbing and filtering on the raw materials through the deformation of the stirring blades, and has high cleaning efficiency and good cleaning effect.

Description

Machining device for manufacturing hollow glass

Technical Field

The invention relates to the technical field of hollow glass manufacturing, in particular to a processing device for hollow glass manufacturing.

Background

The glass is an amorphous inorganic non-metallic material, and is generally prepared by using various inorganic minerals (such as quartz sand, borax, boric acid, barite, barium carbonate, limestone, feldspar, soda ash and the like) as main raw materials and adding a small amount of auxiliary raw materials, wherein the quartz sand is the main raw material.

The production of quartz sand needs to be carried out through steps such as crushing, grinding, screening and cleaning, and then the quartz sand processing device of the existing equipment has a single function, cannot carry out multi-process processing on the quartz sand by the same equipment, and causes low production efficiency. Therefore, we invented a processing device for manufacturing hollow glass to solve such problems.

Disclosure of Invention

The invention provides a processing device for manufacturing hollow glass, which solves the technical problem that a quartz sand processing device of the existing equipment in the related art is single in function and cannot perform multi-process processing on quartz sand by the same equipment, so that the production efficiency is low.

According to one aspect of the invention, the processing device for manufacturing the hollow glass comprises a processing barrel, the interior of the processing barrel is divided into a grinding bin and a cleaning bin from top to bottom, a discharge port and a drain pipe are formed in the barrel wall corresponding to the cleaning bin, an annular groove is formed in the barrel wall in the cleaning bin, an annular filter plate is installed at the annular groove, the discharge port is located above the annular filter plate, a main shaft is movably inserted into the processing barrel, the axis of the main shaft is coincident with the axis of the processing barrel, the upper end of the main shaft penetrates through the processing barrel and is connected with the output end of a motor, a feeding channel is formed in the grinding bin and is communicated with the cleaning bin, a conical screening plate is fixedly installed below the feeding channel, a crushing and grinding mechanism is arranged above the conical screening plate, lifting bins are arranged on two sides of the crushing and grinding mechanism, the upper end and the lower end of each lifting bin are communicated with the feeding channel, a lifting mechanism is arranged in the lifting bins, a cleaning mechanism is movably installed on the main shaft in the cleaning bin and is used for crushing and grinding of raw materials, the lifting mechanism is used for automatically lifting and grinding larger raw materials, and stirring the quartz for cleaning and stirring.

Further: broken grinding mechanism contains the guide rail, the vertical fixed mounting of guide rail is on the processing bucket, the surface slip of guide rail has cup jointed the traction block, the traction block can slide from top to bottom on the guide rail surface, the inside cartridge that rotates of traction block has the horizontal pole, the surface fixing cover of horizontal pole has cup jointed the gear No. one, gear engagement has the rack, the rack is parallel with the guide rail, and there is the clearance between rack and the guide rail, the both ends fixed mounting of horizontal pole has the carousel, the eccentric position fixed mounting of carousel has the telescopic link, the axis of telescopic link and the perpendicular to surface of carousel, and the telescopic link mounted position of both sides is located the both sides of carousel central point, the other end fixed mounting of telescopic link has the connecting block, one side fixed mounting of connecting block has the installation pole, the other end rotation of installation pole is connected with the crushing plate, be provided with a adjusting part between crushing plate and the feed channel inner wall.

Further: the adjusting component comprises a roller and a wave plate, the roller is rotatably installed on the side wall of the lower end of the crushing plate, the roller is arranged along the length direction of the crushing plate, the wave plate is fixedly installed on the inner wall of the feeding channel, the roller is matched with the wave plate, a torsional spring is installed between the crushing plate and the connecting block, and the torsional spring is movably sleeved on the outer surface of the installing rod.

Further: the lifting mechanism comprises two roll shafts, the two roll shafts are rotatably installed on the inner wall of the processing barrel and are connected through transmission of the conveyor belt, a plurality of hinged rods are arranged on the belt surface of the conveyor belt, the cross-connecting rod is arranged along the width direction of the conveyor belt, the lifting plate is movably sleeved on the outer surface of each hinged rod, a top spring is installed between the bottom surface of the lifting plate and the belt surface of the conveyor belt, and one side of the roll shaft below the two roll shafts is connected with the main shaft through a transmission assembly.

Further: the lifting plate is the slope setting, has seted up the through-hole on the lifting plate, and the upper end intercommunication department that promotes storehouse and feedstock channel is provided with the driving lever, promotes the storehouse and is provided with the card strip that a plurality of arrays were arranged on being close to the wallboard of feedstock channel one side.

Further: the transmission assembly comprises a friction wheel, a second gear and a third gear, the friction wheel is fixedly mounted on the roller shaft, the third gear is fixedly connected with the upper end of the main shaft, the middle of the third gear is hollow, the third gear is meshed with the second gear, and the upper surface of the second gear is in contact with the friction wheel.

Further: wiper mechanism contains regulator and a plurality of stirring leaf, the surface at the main shaft is cup jointed in the regulator activity, be connected through the connecting rod between stirring leaf and the regulator, a plurality of through-holes have been seted up on the stirring leaf, the stirring leaf is equipped with first work gesture and second work gesture, the regulator is used for adjusting the rotation and the gesture conversion of stirring leaf, the upper end of regulator is rotated and is installed the guide piece, the lower extreme of regulator is provided with the regulating box, the regulating box passes through the go-between with the guide piece and is connected, the go-between all is connected for rotating with guide piece and regulating box, connecting rod activity cartridge is on the go-between, be connected through b adjusting part between connecting rod and the regulating box.

Further: the first working posture is that the stirring blades are staggered with each other, certain gaps exist among the stirring blades to form a fan blade shape, and the second working posture is that the stirring blades are positioned on the same horizontal plane, and no gaps exist among the stirring blades to form a disc.

Further: b adjusting part contains mounting disc and mounting panel, and the mounting disc slides to cup joint inside the regulating box, and mounting disc top surface edge fixed mounting has the tow bar lug, and the lug is circumference array and arranges, and mounting panel fixed mounting has the dead lever at the surface of connecting rod, and the bottom surface fixed mounting who installs, and the lower extreme activity of dead lever is inlayed and is had the ball, and the ball cooperatees with the lug, is provided with the trigger subassembly on the mounting disc.

Further: the trigger assembly comprises a spring, the spring is fixedly installed at the top end of the installation disc, the upper end of the spring is rotatably installed with the adjuster, the trigger rod is fixedly installed at the lower end of the installation disc, the trigger plate is movably inserted into the bottom surface of the adjusting box and extends to the outside of the adjusting box, a limiting block is installed on the bottom surface of the processing barrel, and the limiting block is matched with the trigger rod.

The invention has the beneficial effects that: according to the invention, the glass raw material can be automatically crushed and ground to produce sand through the crushing and grinding mechanism, the unqualified raw material can be subjected to feed back secondary grinding in time through the lifting device, the glass raw material can be deeply cleaned through the cleaning mechanism, the raw material can be subjected to pressure scrubbing and filtering through the deformation of the stirring blades, the cleaning efficiency is high, and the cleaning effect is good.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the grinding mechanism of the present invention;

FIG. 3 is a side view of the grinding mechanism of the present invention;

FIG. 4 is a schematic view of the drive component of the present invention;

FIG. 5 is a schematic view of the cleaning mechanism of the present invention;

FIG. 6 is a schematic view of the state of the washer mechanism of the present invention;

FIG. 7 is a schematic view of the structure of FIG. 1 at A in accordance with the present invention;

FIG. 8 is a schematic diagram of the structure of FIG. 1 at B according to the present invention.

In the figure: 100. a processing barrel; 110. a blow-off pipe; 120. an annular filter plate; 130. a main shaft; 131. a motor; 150. a conical sieve plate; 200. a crushing and grinding mechanism; 210. a guide rail; 220. a traction block; 221. a cross bar; 222. a first gear; 223. a rack; 224. a turntable; 225. a telescopic rod; 226. connecting blocks; 227. mounting a rod; 228. a breaker plate; 230. a roller; 231. a wave plate; 232. a torsion spring; 300. a lifting mechanism; 310. a roll shaft; 311. a conveyor belt; 312. a hinged lever; 313. a lifting plate; 314. a spring is supported; 315. a deflector rod; 316. clamping the strip; 320. a friction wheel; 321. a second gear; 322. a third gear; 400. a cleaning mechanism; 410. a regulator; 411. stirring blades; 412. a connecting rod; 413. a guide block; 414. an adjustment box; 415. a connecting ring; 420. mounting a disc; 421. mounting a plate; 422. a bump; 423. fixing the rod; 424. a ball; 430. a spring; 431. a trigger lever; 432. and a limiting block.

Detailed Description

The subject matter described herein will now be discussed with reference to example embodiments. It should be understood that these embodiments are discussed only to enable those skilled in the art to better understand and thereby implement the subject matter described herein, and are not intended to limit the scope, applicability, or examples set forth in the specification. Changes may be made in the function and arrangement of elements discussed without departing from the scope of the disclosure. Various examples may omit, substitute, or add various procedures or components as necessary. In addition, features described with respect to some examples may also be combined in other examples.

Example one

As shown in fig. 1-8, the present embodiment provides a processing apparatus for manufacturing hollow glass, including a processing barrel 100, the processing barrel 100 is divided into a grinding chamber and a cleaning chamber from top to bottom, a discharge port and a drain pipe 110 are disposed on a barrel wall corresponding to the cleaning chamber, an annular groove is disposed on the barrel wall inside the cleaning chamber, an annular filter plate 120 is mounted at the annular groove, the discharge port is located above the annular filter plate 120, a spindle 130 is movably inserted inside the processing barrel 100, an axis of the spindle 130 coincides with an axis of the processing barrel 100, an upper end of the spindle 130 penetrates through the processing barrel 100 and is connected with an output end of a motor 131, a feeding passage is disposed inside the grinding chamber, the feeding passage is communicated with the cleaning chamber, a conical sub-sieve plate 150 is fixedly mounted below the feeding passage, a crushing and grinding mechanism 200 is disposed above the conical sub-sieve plate 150, lifting chambers are disposed on two sides of the crushing and grinding mechanism 200, upper and lower ends of the lifting chambers are communicated with the feeding passage, a lifting mechanism 300 is disposed inside the lifting chamber, a cleaning mechanism 400 is movably mounted on the spindle 130 inside the cleaning chamber, the crushing and grinding mechanism 200 is used for crushing and grinding the raw material, and the lifting mechanism 300 is used for automatically stirring and cleaning quartz.

The crushing and grinding mechanism 200 comprises a guide rail 210, the guide rail 210 is vertically and fixedly installed on the processing barrel 100, a traction block 220 is sleeved on the outer surface of the guide rail 210 in a sliding mode, the traction block 220 can slide up and down on the surface of the guide rail 210, a cross rod 221 is inserted into the traction block 220 in a rotating mode, a first gear 222 is fixedly sleeved on the outer surface of the cross rod 221, a first gear 222 is meshed with a rack 223, the rack 223 is parallel to the guide rail 210, a gap exists between the rack 223 and the guide rail 210, rotary tables 224 are fixedly installed at two ends of the cross rod 221, a telescopic rod 225 is fixedly installed at the eccentric position of the rotary tables 224, the axis of the telescopic rod 225 is perpendicular to the surface of the rotary tables 224, the installation positions of the telescopic rods 225 on two sides are located on two sides of the central point of the rotary tables 224, a connecting block 226 is fixedly installed at the other end of the telescopic rod 225, an installation rod 227 is fixedly installed at one side of the connecting block 226, a crushing plate 228 is rotatably connected at the other end of the installation rod 227, and an a regulating assembly is arranged between the crushing plate 228 and the inner wall of a feeding channel.

The a adjusting component comprises a roller 230 and a wave plate 231, the roller 230 is rotatably mounted on the side wall of the lower end of the crushing plate 228, the roller 230 is arranged along the length direction of the crushing plate 228, the wave plate 231 is fixedly mounted on the inner wall of the feeding channel, the roller 230 is matched with the wave plate 231, a torsion spring 232 is mounted between the crushing plate 228 and the connecting block 226, and the torsion spring 232 is movably sleeved on the outer surface of the mounting rod 227.

The lifting mechanism 300 comprises two roll shafts 310, the two roll shafts are rotatably installed on the inner wall of the processing barrel 100, the two roll shafts 310 are in transmission connection through a conveying belt 311, a plurality of hinged rods 312 are arranged on the belt surface of the conveying belt 311, the hinged rods 312 are arranged along the width direction of the conveying belt 311, a lifting plate 313 is movably sleeved on the outer surface of the hinged rods 312, a top spring 314 is installed between the bottom surface of the lifting plate 313 and the belt surface of the conveying belt 311, and one side of the roll shaft 310 located below in the two roll shafts 310 is connected with the main shaft 130 through a transmission assembly.

The lifting plate 313 is obliquely arranged, a through hole is formed in the lifting plate 313, a shifting rod 315 is arranged at the upper end communication position of the lifting bin and the feeding channel, and a plurality of clamping strips 316 arranged in an array mode are arranged on the wall plate, close to one side of the feeding channel, of the lifting bin.

The transmission assembly comprises a friction wheel 320, a second gear 321 and a third gear 322, the friction wheel 320 is fixedly installed on the roller shaft 310, the third gear 322 is fixedly connected with the upper end of the main shaft 130, the middle of the third gear 322 is hollowed out, the third gear 322 is meshed with the second gear 321, and the upper surface of the second gear 321 is in contact with the friction wheel 320.

The cleaning mechanism 400 comprises an adjuster 410 and a plurality of stirring blades 411, the adjuster 410 is movably sleeved on the outer surface of the spindle 130, the stirring blades 411 are connected with the adjuster 410 through a connecting rod 412, a plurality of through holes are formed in the stirring blades 411, the stirring blades 411 are provided with a first working posture and a second working posture, the adjuster 410 is used for adjusting rotation and posture conversion of the stirring blades 411, a guide block 413 is rotatably installed at the upper end of the adjuster 410, an adjusting box 414 is arranged at the lower end of the adjuster 410, the adjusting box 414 is connected with the guide block 413 through a connecting ring 415, the guide block 413 and the adjusting box 414 are rotatably connected, the connecting rod 412 is movably inserted in the connecting ring 415, and the connecting rod 412 is connected with the adjusting box 414 through a b adjusting component.

The first working posture is that the plurality of stirring blades 411 are staggered with each other, a certain gap is formed between the stirring blades 411 to form a fan blade shape, the second working posture is that the plurality of stirring blades 411 are positioned on the same horizontal plane, no gap is formed between the stirring blades 411 to form a disc.

b adjusts the subassembly and contains mounting disc 420 and mounting panel 421, and inside mounting disc 420 slides to cup joint at regulation box 414, and mounting disc 420 top surface edge fixed mounting has tow bar lug 422, and lug 422 is circumference array and arranges, and mounting panel 421 fixed mounting has the dead lever 423 at the surface of connecting rod 412, and the bottom surface fixed mounting who installs, the lower extreme activity of dead lever 423 is inlayed and is had ball 424, and ball 424 cooperatees with lug 422, is provided with trigger assembly on the mounting disc 420.

The trigger assembly comprises a spring 430, the spring 430 is fixedly installed at the top end of the installation disc 420, the upper end of the spring 430 is rotatably installed with the adjuster 410, a trigger rod 431 is fixedly installed at the lower end of the installation disc 420, the trigger plate is movably inserted into the inner portion of the bottom surface of the adjusting box 414 and extends to the outer portion of the adjusting box 414, a limiting block 432 is installed at the bottom surface of the processing barrel 100, and the limiting block 432 is matched with the trigger rod 431.

The working principle of the processing device for manufacturing hollow glass provided by the embodiment is as follows, during working, the motor 131 and the traction block 220 are started firstly to enable the device to start working, then quartz ore is put into the feeding channel, when the traction block 220 drives the crushing plates 228 to move up and down on the guide rail 210, the rollers 230 on the two sides of the crushing plates 228 are enabled to be in contact with the wave plates 231, the rollers 230 roll along the surfaces of the wave plates 231, when the rollers roll to wave crests, the lower ends of the two crushing plates 228 are close to each other to form a horn shape with an upward opening, at this time, raw materials entering the feeding channel fall between the two crushing plates 228, when the rollers 230 come to the wave troughs, the upper ends of the two crushing plates 228 are close to each other under the action of the torsion spring 232, and at this time, the raw materials entering the crushing plates 228 are crushed, so as to achieve the purposes of automatic feeding and primary crushing;

meanwhile, the traction block 220 moves to drive the first gear 222 to synchronously move, the first gear 222 rolls on the rack 223 when moving, so that the cross rod 221 is driven to rotate, the cross rod 221 rotates to drive the turntable 224 to rotate, the turntable 224 rotates to drive the telescopic rods 225 to synchronously rotate, so that the two crushing disks are driven to synchronously move, and the two crushing disks can perform opposite kneading movement because the two telescopic rods 225 are eccentrically arranged, so that a raw material grinding effect is achieved;

the crushed and ground raw materials fall on the conical sub-sieve plate, the quartz raw materials which reach the standard fall from sieve holes, the raw materials which do not reach the standard roll down to the inside of the lifting bin along the inclined plane of the conical sub-sieve plate, the main shaft 130 rotates to drive the third gear 322 to rotate, the third gear 322 rotates to drive the second gear 321 to rotate, the second gear 321 rotates to drive the friction wheel 320 to rotate, the friction wheel 320 rotates to drive the roller shaft 310 to rotate, the roller shaft 310 rotates to drive the conveyor belt 311 to rotate, the conveyor belt 311 rotates to drive the lifting plate 313 above to be lifted upwards, the raw materials which do not reach the standard can be lifted to the communication part of the upper end and the feeding channel by the lifting plate 313, the lifting plate 313 is contacted with the deflector rod 315, under the action of the deflector rod 315, the lifting plate 313 inclines downwards, the lifted materials are poured back into the feeding channel to be crushed and ground for the second time, and the raw materials are circulated and reciprocated for the first time until the raw materials reach the standard;

in the process that the lifting plate 313 is lifted upwards, one end of the lifting plate 313, which is far away from the conveyor belt, is in contact with the clamping strip 316 to press the lifting plate 313 downwards, and when the lifting plate 313 is separated from the clamping strip 316, the lifting plate is rebounded rapidly under the action of the top spring 314, and the lifting plate 313 vibrates along with the continuous contact and separation of the lifting plate 313 and the clamping strip 316, so that the purpose of sieving the raw materials again is achieved;

the quartz raw materials which reach the standard after being crushed enter a cleaning bin, then cleaning water is added into the processing barrel 100, a motor 131 drives a main shaft 130 to rotate, the main shaft 130 rotates to drive an adjuster 410 sleeved on the main shaft 130 to rotate, the adjuster 410 rotates to drive a connecting rod 412 to rotate, the connecting rod 412 rotates to drive a stirring blade 411 to rotate, it needs to be noted that the initial position of the stirring blade 411 is positioned above a feeding hole, when the stirring blade 411 rotates, the adjuster 410 is started at the same time, the adjuster 410 enables the stirring blade 411 to change into a first working posture, the adjuster 410 drives the connecting rod 412 to rotate, and the connecting rod 412 rotates to drive the stirring blade 411 to rotate, so that the stirring blade 411 changes into the first working posture and keeps the first working posture;

after the quartz is changed into the first working posture, the stirring blade 411 rotates, and meanwhile, the regulator 410 drives the stirring blade 411 to slide downwards from the upper end of the main shaft 130, at the moment, the fan-shaped stirring blade 411 rotates to drive water inside the processing barrel 100 to flow, and the water flows to drive the quartz at the bottom to move along with the water flow, so that the water and the quartz are fully mixed and contacted, and a mixing effect is achieved, so that the quartz is cleaned more comprehensively, and the cleaning effect is better;

when the adjuster 410 drives the stirring blade 411 block to reach the bottom of the processing barrel 100, the rotation speed of the spindle 130 is reduced, so that the quartz falls back to the bottom, the trigger rod 431 contacts with the bottom of the processing barrel 100, the trigger rod 431 is limited by the limiting block 432 at the moment, meanwhile, the trigger rod 431 is jacked up upwards, the mounting disc 420 inside the adjusting box 414 is driven to slide upwards, the mounting disc 420 slides upwards to drive the lug 422 to slide upwards together, the lug 422 contacts with the round ball 424 at the moment, when the connecting rod 412 rotates, the round ball 424 is driven to synchronously rotate simultaneously, when the round ball 424 contacts with the lug 422, the round ball 424 rolls along the surface of the lug 422, when the round ball 424 rolls on the inclined surface of the lug 422, the connecting rod 412 is driven to rotate, so as to drive one side of the stirring blade 411 to press downwards, when the connecting rod is separated from the lug 422, the connecting rod resets under the action of the adjuster 410, and drives the stirring blade 411 to reset at the same time, and the circulation is repeated, so that an effect of applying pressure to the washing to the quartz particles can be achieved, thereby further improving the washing effect of the quartz;

after the cleaning is finished, the bump 422 is separated from the ball 424, the rotation speed of the spindle 130 is increased, the flow speed of water inside the processing barrel 100 is increased, quartz is driven to the upper side of the stirring blade 411 by the flow of the water, the regulator 410 is started at the moment, the stirring blade 411 is regulated to be in the second working posture, the motor 131 is stopped, the stirring blade 411 stops rotating, the regulator 410 is started to slide upwards and slowly, the stirring blade 411 is driven to slide upwards, at the moment, the quartz above the stirring blade 411 can be accumulated on the stirring blade 411, sewage is separated from quartz particles downwards through holes of the stirring blade 411, so that the filtering effect is achieved, when the sewage is lifted to the annular filter plate 120, the motor is started again, the motor drives the stirring blade 411 to rotate, the stirring blade 411 rotates to drive the quartz above to rotate together, then the quartz is stopped by the annular filter plate 120, residual water can enter the corresponding groove under the action of centrifugal force, so that the draining effect is achieved, and the drained quartz is lifted to the discharge opening for discharging.

The embodiments of the present invention have been described with reference to the drawings, but the present invention is not limited to the above-mentioned specific embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a cavity is processingequipment for glass manufacturing, including processing bucket (100), a serial communication port, processing bucket (100) is inside to be divided into grinding storehouse and cleaning bin from top to bottom, the discharge gate has been seted up and blow off pipe (110) has been installed on the bucket wall that cleaning bin corresponds, the annular groove has been seted up on the inside bucket wall of cleaning bin, annular groove department installs annular filter plate (120), the discharge gate is located the top of annular filter plate (120), processing bucket (100) inside activity cartridge has main shaft (130), the axis of main shaft (130) and the axis coincidence of processing bucket (100), the upper end of main shaft (130) runs through processing bucket (100) and is connected with the output of motor (131), grinding bin has seted up feed passage inside, feed passage and cleaning bin intercommunication, and feed passage's below fixed mounting has toper minute sieve board (150), toper minute sieve board (150) top is provided with broken grinding mechanism (200), the both sides of broken grinding mechanism (200) are provided with the promotion storehouse, promote the upper and lower extreme of storehouse with feed passage intercommunication, promote the storehouse to set up jaggedly and rinse bin, promote the inside lifting bin (300) that lifting bin is provided with the cleaning bin, the cleaning bin movable cleaning bin is installed and is used for grinding mechanism (400) grind the grinding mechanism's that the grinding mechanism carries out grinding raw materials, it.

2. The processing device for manufacturing the hollow glass as claimed in claim 1, wherein the crushing and grinding mechanism (200) comprises a guide rail (210), the guide rail (210) is vertically and fixedly installed on the processing barrel (100), a traction block (220) is slidably sleeved on the outer surface of the guide rail (210), the traction block (220) can slide up and down on the surface of the guide rail (210), a cross rod (221) is rotatably inserted in the traction block (220), a first gear (222) is fixedly sleeved on the outer surface of the cross rod (221), a first gear (222) is meshed with a rack (223), the rack (223) is parallel to the guide rail (210), a gap exists between the rack (223) and the guide rail (210), turntables (224) are fixedly installed at two ends of the cross rod (221), a telescopic rod (225) is fixedly installed at an eccentric position of the turntables (224), the axis of the telescopic rod (225) is perpendicular to the surface of the turntables (224), installation positions of the turntables (225) at two sides are located at two sides of the turntables (224), a connecting block (226) is fixedly installed at the other end of the connecting block, a central point (228) of the mounting rod (226) is fixedly installed at one side, and a feeding plate (227 a) is connected with a feeding plate assembly.

3. The apparatus as claimed in claim 2, wherein the a-adjustment unit comprises a roller (230) and a wave plate (231), the roller (230) is rotatably mounted on a lower sidewall of the crushing plate (228), the roller (230) is disposed along a length direction of the crushing plate (228), the wave plate (231) is fixedly mounted on an inner wall of the feed channel, the roller (230) is engaged with the wave plate (231), a torsion spring (232) is mounted between the crushing plate (228) and the connecting block (226), and the torsion spring (232) is movably sleeved on an outer surface of the mounting rod (227).

4. The processing device for manufacturing the hollow glass as claimed in claim 1, wherein the lifting mechanism (300) comprises two roll shafts (310), the two roll shafts are rotatably mounted on the inner wall of the processing barrel (100), the two roll shafts (310) are in transmission connection through a conveyor belt (311), a plurality of hinged rods (312) are arranged on the belt surface of the conveyor belt (311), the hinged rods (312) are arranged along the width direction of the conveyor belt (311), a lifting plate (313) is movably sleeved on the outer surface of each hinged rod (312), a top spring (314) is mounted between the bottom surface of each lifting plate (313) and the belt surface of the conveyor belt (311), and one side of the roll shaft (310) located below in the two roll shafts (310) is connected with the main shaft (130) through a transmission assembly.

5. The processing device for manufacturing the hollow glass as claimed in claim 4, wherein the lifting plate (313) is arranged in an inclined manner, a through hole is formed in the lifting plate (313), a deflector rod (315) is arranged at the communication position of the lifting bin and the upper end of the feeding channel, and a plurality of clamping strips (316) which are arranged in an array manner are arranged on the wall plate of one side of the lifting bin, which is close to the feeding channel.

6. The processing device for manufacturing the hollow glass according to claim 4, wherein the transmission assembly comprises a friction wheel (320), a second gear (321) and a third gear (322), the friction wheel (320) is fixedly installed on the roller shaft (310), the third gear (322) is fixedly connected with the upper end of the main shaft (130), the middle of the third gear (322) is hollowed, the second gear (321) is meshed with the third gear (322), and the upper surface of the second gear (321) is in contact with the friction wheel (320).

7. The processing device for manufacturing the hollow glass according to claim 6, wherein the cleaning mechanism (400) comprises an adjuster (410) and a plurality of stirring blades (411), the adjuster (410) is movably sleeved on the outer surface of the spindle (130), the stirring blades (411) are connected with the adjuster (410) through a connecting rod (412), a plurality of through holes are formed in the stirring blades (411), the stirring blades (411) are provided with a first working posture and a second working posture, the adjuster (410) is used for adjusting rotation and posture conversion of the stirring blades (411), the upper end of the adjuster (410) is rotatably provided with a guide block (413), the lower end of the adjuster (410) is provided with an adjusting box (414), the adjusting box (414) is connected with the guide block (413) through a connecting ring (415), the connecting rod (415) is rotatably connected with the guide block (413) and the adjusting box (414), and the connecting rod (412) is movably inserted into the connecting ring (415) and the connecting ring (414) is connected with the adjusting box (414) through a b adjusting component.

8. The machining device for manufacturing hollow glass according to claim 6, wherein the first working posture is that the plurality of stirring blades (411) are staggered with each other, a certain gap is formed between the stirring blades (411) to form a fan blade shape, the second working posture is that the plurality of stirring blades (411) are positioned on the same horizontal plane, no gap is formed between the stirring blades (411) to form a disk.

9. The processing device for manufacturing the hollow glass as claimed in claim 6, wherein the b adjusting component comprises a mounting plate (420) and a mounting plate (421), the mounting plate (420) is slidably sleeved inside the adjusting box (414), the edge of the top surface of the mounting plate (420) is fixedly provided with towing rod lugs (422), the lugs (422) are arranged in a circumferential array, the mounting plate (421) is fixedly arranged on the outer surface of the connecting rod (412), the mounted bottom surface is fixedly provided with a fixing rod (423), the lower end of the fixing rod (423) is movably embedded with a round ball (424), the round ball (424) is matched with the lugs (422), and the mounting plate (420) is provided with a trigger component.

10. The processing apparatus for manufacturing hollow glass according to claim 9, wherein the trigger assembly comprises a spring (430), the spring (430) is fixedly installed at the top end of the installation plate (420), the upper end of the spring (430) is rotatably installed with the adjuster (410), the lower end of the installation plate (420) is fixedly installed with a trigger rod (431), the trigger plate is movably inserted into the bottom surface of the adjustment box (414) and extends to the outside of the adjustment box (414), the bottom surface of the processing barrel (100) is installed with a limit block (432), and the limit block (432) is matched with the trigger rod (431).

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