CN109232245B

CN109232245B - Waste organic glass continuous cracking system

Info

Publication number: CN109232245B
Application number: CN201811087705.6A
Authority: CN
Inventors: 夏美佳
Original assignee: Jiujiang Jinjiu Renewable Resources Co ltd
Current assignee: Jiujiang Jinjiu renewable resources Co.,Ltd.
Priority date: 2018-09-18
Filing date: 2018-09-18
Publication date: 2021-04-02
Anticipated expiration: 2038-09-18
Also published as: CN109232245A

Abstract

The invention belongs to the technical field of organic glass recovery, and particularly relates to a waste organic glass continuous cracking system which comprises a furnace body, a stirring motor, a feeding module and a slag discharger, wherein an electric combustion machine is arranged at the bottom of one side of the furnace body, a hearth is arranged in the furnace body, and the stirring motor is fixedly connected with a stirring shaft through a gearbox; the stirring motor is arranged at the top of the hearth; the stirring shaft penetrates through the hearth and is introduced into the hearth; the hearth is communicated with a condenser through a hose; a storage tank is arranged below the condenser; the bottom of the slag extractor is communicated with the water tank through a pipeline; the feeding module is arranged at the upper right corner of the furnace body; the feeding module comprises a feeding box, a driving motor, a driving roller, a driven roller, a cam, an air bag, an arc-shaped guide plate, a mounting plate, an air blowing head and an automatic door. The invention throws the organic glass particles to the middle upper part of the hearth through the air bag, so that the organic glass particles are uniformly dispersed, and the phenomenon that the raw materials are accumulated in the hearth to cause insufficient reaction and influence the production efficiency is avoided.

Description

Waste organic glass continuous cracking system

Technical Field

The invention belongs to the technical field of organic glass recovery, and particularly relates to a waste organic glass continuous cracking system.

Background

The organic glass composed of polymethyl methacrylate has wide application in various industries. The methyl methacrylate monomer is obtained by cracking and regenerating the waste organic glass, so that the recycling of the organic glass is realized, the policy of recycling economy is met, and the method has better environmental economy and social benefits, so that the method has quicker development in China.

Also some organic glass continuous cracking device's technical scheme has appeared among the prior art, chinese patent like application number 2016206959990 discloses a waste organic glass plastics continuous cracking device of environmental protection, including furnace body, stirring driving motor, feeder and the ware of slagging tap, stirring driving motor passes through gearbox and (mixing) shaft fixed connection, the (mixing) shaft runs through in furnace and stirring leaf fixed connection, furnace passes through hose and condenser intercommunication, the condenser is connected with the storage tank through looking the handleless cup, the feeder runs through in the middle and upper end fixed connection of furnace body and furnace, the ware of slagging tap runs through in the bottom fixed connection of furnace body and furnace, the bottom of the ware of slagging tap is passed through pipeline and water tank intercommunication.

This technical scheme can realize the continuous schizolysis to organic glass, and accomplish temperature, feeding, slag tap and all can be controllable adjustable, but the raw materials feeding device of this scheme makes the raw materials concentrate on the local position in the furnace body, causes the raw materials to pile up, distribute unevenly to influence the efficiency of schizolysis reaction.

Disclosure of Invention

In order to make up for the defects of the prior art, the waste organic glass continuous cracking system provided by the invention has the advantages that the air bag is periodically extruded through the cam, organic glass particles falling on the arc-shaped guide plate are blown into the hearth through the air blowing head by air generated by the air bag, the arc-shaped guide plate enables the organic glass particles to be thrown to the middle upper part of the hearth, so that the organic glass particles are uniformly dispersed, meanwhile, the air bag intermittently generates air flow, the air bag is closed or opened through the automatic door, the organic glass particles are immediately closed after being introduced once, so that intermittent feeding is realized, the next batch of organic glass particles are introduced into the air bag after the organic glass particles are fully cracked, and the phenomenon that the reaction is insufficient due.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a waste organic glass continuous cracking system which comprises a furnace body, a stirring motor, a feeding module, a slag extractor and a controller, wherein the controller is arranged outside the furnace body and used for controlling equipment to automatically operate; a hearth is arranged in the furnace body, the hearth is formed by sintering and casting high-temperature coating materials, a layer of heat insulation material is wrapped outside the hearth, and the furnace body is made of high-temperature special steel; the stirring motor is fixedly connected with the stirring shaft through a gearbox; the stirring motor is arranged at the top of the hearth; the stirring shaft penetrates through the hearth and is introduced into the hearth; the hearth is communicated with a condenser through a hose; a storage tank is arranged below the condenser; the slag extractor penetrates through the furnace body and is fixedly connected with the bottom of the hearth; the bottom of the slag discharger is communicated with the water tank through a pipeline, and the water tank can cool the waste slag to play a role in sealing; the feeding module is arranged at the upper right corner of the furnace body; the feeding module comprises a feeding box, a driving motor, a driving grinding roller, a driven grinding roller, a cam, an air bag, an arc-shaped guide plate, a mounting plate, an air blowing head, an automatic door and a controller, wherein the controller is mounted on the outer side of the feeding box and used for controlling equipment to automatically run; the feeding box is fixedly arranged at the upper right corner of the furnace body, a feeding hole is arranged at the top of the feeding box, a driving grinding roller and a driven grinding roller which are mutually meshed are arranged below the feeding hole, the driving grinding roller is controlled to rotate by a driving motor, the driving grinding roller is arranged at one side close to the furnace body, the end of the rotating shaft of the driving grinding roller is fixedly connected with a cam, an air bag arranged on the furnace body is arranged between the cam and the furnace body, an arc-shaped guide plate is arranged below the driven grinding roller, the arc-shaped guide plate is tangent to the horizontal plane and inclines towards the furnace body, the two opposite sides of the arc-shaped guide plate are fixedly connected with the feeding box, the upper end of the arc-shaped guide plate is fixedly connected with the mounting plate, a group of blowing heads are uniformly arranged on the mounting plate and are connected with the air bag through air pipes, be equipped with the check valve on the trachea, arc baffle left side is equipped with the automatically-controlled door, automatically-controlled door slidable mounting is on the furnace body lateral wall. The during operation, the epaxial cam periodic extrusion gasbag is rolled to the initiative roller, the gaseous organic glass granule that will fall on the arc baffle through the blowing head that the gasbag produced, blow in the furnace, the arc baffle makes the organic glass granule can be thrown to furnace's well upper portion, make the organic glass granule dispersion even, organic glass granule is at furnace's schizolysis speed has been accelerated, the schizolysis reaction efficiency of organic glass granule has been improved, and simultaneously, because the gasbag is the intermittent type produces the air current, close or open through the automatically-controlled door, close immediately after leading-in organic glass granule, realize the intermittent type feed, treat to lead to next batch of organic glass granule in it again after the abundant schizolysis of organic glass granule, avoid the raw materials to pile up in furnace and cause the reaction insufficient, influence production efficiency.

Preferably, a filter box is fixedly installed at the upper right corner of the furnace body, the filter box is communicated with the air bag, and a one-way valve is arranged between the filter box and the air bag. Utilize the suction effect of gasbag, the inside high temperature air current of furnace sends into organic glass granule furnace, preheats the raw materials for organic glass granule decomposition speed in furnace has improved organic glass granule's schizolysis reaction efficiency.

Preferably, arc baffle middle part is equipped with the notch, fixed connection arc rubber slab in the notch, the one end of arc rubber slab bottom fixed connection stay cord, stay cord other end fixed connection is at the swinging arms lower extreme, the swinging arms middle part is rotated through the pivot and is installed on the feeding case lateral wall, the swinging arms upper end is equipped with the inclined plane, drive gear of pivot end fixed connection of driven grinding roller, backup pad of feeding case lateral wall fixed connection of locating, drive gear of installation is rotated to the backup pad end, dwang of drive gear side fixed connection, the dwang end sets to semi-circular, and the dwang rotation is used for the intermittent type to stir the swinging arms rotation. The during operation, on driven grinding roller rotated and transmitted power to the dwang through drive gear and drive gear, the dwang clockwise rotation extrudeed on the inclined plane of swinging arms upper end, promote the swinging arms rotation and stimulate arc rubber slab deformation, after the swinging arms rotated certain angle, dwang and swinging arms separation, make the arc rubber slab shrink fast, bounce its surperficial organic glass granule, the material of bounceing is under blowing of blowing head, the entering furnace of dispersion, avoid the raw materials to hold a group, cause the raw materials can not the fully reaction.

Preferably, the rotating rod end is fixedly connected with a sucker, and the sucker can be adsorbed on the inclined plane at the upper end of the oscillating rod. When the dwang extrudeed the swinging arms, the sucking disc adsorbs on the inclined plane of swinging arms upper end, after the swinging arms rotated certain angle, dwang and swinging arms separation, the sucking disc breaks away from the swinging arms and makes the swinging arms produce the vibration, increases the vibration range of arc-shaped rubber slab, bounces its surperficial organic glass granule, and the material of bounceing is under blowing of blowing head, and the bulk that gets into furnace avoids the raw materials to hold a group, causes the raw materials can not the fully reaction.

Preferably, a baffle is fixedly installed on the bottom plate of the feeding box, a through hole is formed in the middle of the baffle, two ends of the through hole are rounded, the pull rope penetrates through the through hole and then is fixedly connected to the lower end of the swing rod, an elastic conical block is arranged on the pull rope, and the elastic conical block can penetrate through the through hole when being pulled. The elastic conical block is pulled by the pull rope to move, the elastic conical block meets the baffle and is blocked, and along with the increase of the pulling force of the pull rope, the elastic conical block is gradually compressed and contracted and rapidly penetrates through the baffle, so that the arc-shaped rubber plate vibrates; when the swinging arms replied afterwards, the pulling force at the arc rubber slab orders about elasticity toper piece and resets, and periodic motion through elasticity toper piece increases the vibration range of arc rubber slab, bounces its surperficial organic glass granule, and the material of bounceing is under blowing of blowing head, and the entering furnace of dispersion avoids the raw materials to hold the group, causes the raw materials can not fully react.

Preferably, a safety valve is arranged on one side of the upper end of the hearth, and the safety valve is arranged on one side of the upper end of the hearth, so that the safety valve can automatically open for exhaust when the condenser is blocked; the tip of the ware of slagging tap passes through gearbox and ejection of compact motor fixed connection, and the ware of slagging tap can regularly clear up the waste residue that the schizolysis produced.

The invention has the following beneficial effects:

1. the cam periodically extrudes the air bag, the gas generated by the air bag blows organic glass particles falling on the arc-shaped guide plate into the hearth through the blowing head, the arc-shaped guide plate enables the organic glass particles to be thrown to the middle upper part of the hearth, so that the organic glass particles are uniformly dispersed, meanwhile, the air bag intermittently generates air flow, the air bag is closed or opened through the automatic door, the air bag is immediately closed after the organic glass particles are introduced, intermittent feeding is realized, the organic glass particles are introduced into the air bag after being fully cracked, and the phenomenon that the reaction is insufficient due to the accumulation of raw materials in the hearth and the production efficiency is influenced is avoided.

2. The invention preheats the organic glass particles by utilizing the suction effect of the air bag, accelerates the decomposition speed of the organic glass particles in the hearth and improves the cracking reaction efficiency of the organic glass particles.

3. According to the invention, the rotating rod is arranged, the rotating rod rotates clockwise and extrudes on the inclined plane at the upper end of the oscillating rod to push the oscillating rod to rotate and pull the arc-shaped rubber plate to deform, after the oscillating rod rotates to a certain angle, the rotating rod is separated from the oscillating rod, so that the arc-shaped rubber plate contracts quickly and organic glass particles on the surface of the arc-shaped rubber plate are bounced, and the bounced materials are blown by the blowing head and enter the hearth in a dispersed manner, so that the phenomenon that the raw materials are agglomerated and cannot react fully is avoided.

Drawings

The invention will be further explained with reference to the drawings.

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

FIG. 2 is an enlarged view of a portion E of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2 at F;

in the figure: the furnace body 1, the electric combustion machine 11, the condenser 12, the storage tank 14, the water tank 16, the safety valve 17, the discharging motor 19, the stirring motor 2, the feeding module 3, the feeding box 31, the driving grinding roller 32, the driven grinding roller 33, the cam 34, the air bag 35, the arc guide plate 36, the mounting plate 37, the blowing head 38, the automatic door 39, the slag extractor 4, the hearth 5, the filter box 6, the arc rubber plate 7, the pull rope 71, the swing rod 72, the rotating rod 73, the transmission gear 74, the support plate 75, the driving gear 76, the suction cup 8, the baffle 9 and the elastic conical block 91.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 3, the continuous waste organic glass cracking system comprises a furnace body 1, a stirring motor 2, a feeding module 3, a slag extractor 4 and a controller, wherein the controller is installed outside the furnace body 1 and is used for controlling equipment to automatically operate, an electric burner 11 is arranged at the bottom of one side of the furnace body 1, the electric burner 11 is used for heating and has a temperature adjusting function, the electric burner 11 is automatically started when the temperature is lower than a normal value and is automatically closed when the temperature is higher than the normal value, and therefore the temperature can be controlled and adjusted; a hearth 5 is arranged in the furnace body 1, the hearth 5 is formed by sintering and casting high-temperature coating materials, a layer of heat-insulating materials is wrapped outside the hearth 5, and the furnace body 1 is made of high-temperature special steel; the stirring motor 2 is fixedly connected with the stirring shaft through a gearbox; the stirring motor 2 is arranged at the top of the hearth 5; the stirring shaft penetrates through the hearth 5 and is introduced into the hearth 5; the hearth 5 is communicated with a condenser 12 through a hose; a storage tank 14 is arranged below the condenser 12; the slag extractor 4 penetrates through the furnace body 1 and the bottom of the hearth 5 to be fixedly connected; the bottom of the slag discharger 4 is communicated with a water tank 16 through a pipeline, and the water tank 16 can cool the waste slag to play a role in sealing; the feeding module 3 is arranged at the upper right corner of the furnace body 1; the feeding module 3 comprises a feeding box 31, a driving motor, a driving roller 32, a driven roller 33, a cam 34, an air bag 35, an arc-shaped guide plate 36, a mounting plate 37, a blowing head 38 and an automatic door 39; the feeding box 31 is fixedly installed at the upper right corner of the furnace body 1, a feeding hole is arranged at the top of the feeding box 31, a driving grinding roller 32 and a driven grinding roller 33 which are engaged with each other are arranged below the feeding hole, the driving grinding roller 32 is controlled to rotate through a driving motor, the driving grinding roller 32 is installed at one side close to the furnace body 1, a rotating shaft end fixed connection cam 34 of the driving grinding roller 32 is fixedly connected with the feeding box 31, an air bag 35 installed on the furnace body 1 is arranged between the cam 34 and the furnace body 1, an arc guide plate 36 is arranged below the driven grinding roller 33, the arc guide plate 36 is tangent to the horizontal plane and inclines towards the furnace body 1, two opposite sides of the arc guide plate 36 are fixedly connected with the feeding box 31, an upper end fixed connection mounting plate 37 of the arc guide plate 36 is uniformly provided with a group of blowing heads 38 on the mounting plate 37, an automatic door 39 is arranged on the left side of the arc-shaped guide plate 36, and the automatic door 39 is slidably mounted on the side wall of the furnace body 1. During operation, the epaxial cam 34 of initiative grinding roller 32 pivot is periodic extrudees gasbag 35, the gas that gasbag 35 produced will fall on the organic glass granule on arc baffle 36 through blowing head 38, blow in furnace 5, arc baffle 36 makes the organic glass granule can be jettisoned to the well upper portion of furnace 5, make the organic glass granule dispersion even, the cracking speed of organic glass granule at furnace 5 has been accelerated, the cracking reaction efficiency of organic glass granule has been improved, and simultaneously, because gasbag 35 is that the intermittent type produces the air current, close or open through automatically-controlled door 39, close immediately after leading-in once organic glass granule, realize the intermittent type feed, treat to lead to next batch of organic glass granule in it again after the abundant schizolysis of organic glass granule, avoid the raw materials to pile up in furnace 5 and cause the reaction inadequately, influence production efficiency.

As an embodiment of the invention, a filter box 6 is fixedly arranged at the upper right corner of the furnace body 1, the filter box 6 is communicated with an air bag 35, and a one-way valve is arranged between the filter box 6 and the air bag 35. Utilize the suction effect of gasbag 35, the inside high temperature air current of furnace 5 sends into furnace 5 with the organic glass granule, preheats the raw materials for the decomposition speed of organic glass granule in furnace 5 has improved organic glass granule's schizolysis reaction efficiency.

As an embodiment of the invention, a notch is formed in the middle of the arc-shaped guide plate 36, the arc-shaped rubber plate 7 is fixedly connected in the notch, one end of a pulling rope 71 is fixedly connected to the bottom of the arc-shaped rubber plate 7, the other end of the pulling rope 71 is fixedly connected to the lower end of a swinging rod 72, the middle of the swinging rod 72 is rotatably installed on the side wall of the feeding box 31 through a rotating shaft, an inclined surface is formed at the upper end of the swinging rod 72, a transmission gear 74 is fixedly connected to the end of the rotating shaft of the driven grinding roller 33, a supporting plate 75 is fixedly connected to the side wall of the feeding box 31, a driving gear 76 is rotatably installed at the end of the supporting plate 75, a rotating rod 73 is fixedly connected to the side edge of the driving gear 76, the end. During operation, driven grinding roller 33 rotates and through drive gear 74 and drive gear 76 with power transmission to dwang 73 on, dwang 73 clockwise turning extrudes on the inclined plane of rocking rod 72 upper end, promote the rotation of rocking rod 72 and stimulate arc rubber slab 7 deformation, after rocking rod 72 rotated certain angle, dwang 73 and rocking rod 72 separation, make arc rubber slab 7 shrink fast, bounce its surperficial organic glass granule, the material of bounce is under blowing of blowhead 38, dispersive entering furnace 5, avoid the raw materials to hold in the palm, cause the raw materials can not fully react.

In an embodiment of the present invention, a suction cup 8 is fixedly connected to an end of the rotating rod 73, and the suction cup 8 can be sucked on an inclined plane at an upper end of the swinging rod 72. When dwang 73 extrudees swinging arms 72, sucking disc 8 adsorbs on the inclined plane of swinging arms 72 upper end, after swinging arms 72 rotated certain angle, dwang 73 and swinging arms 72 separation, sucking disc 8 breaks away from swinging arms 72 and makes swinging arms 72 produce the vibration, increase the vibration range of arc rubber slab 7, bounce its surperficial organic glass granule, the material of bounceing is under blowing of gas blow head 38, dispersive entering furnace 5 avoids the raw materials to hold a group, cause the raw materials can not fully react.

As an embodiment of the invention, a baffle plate 9 is fixedly arranged on the bottom plate of the feeding box 31, a through hole is arranged in the middle of the baffle plate 9, the two ends of the through hole are rounded, the pull rope 71 is fixedly connected to the lower end of the swing rod 72 after passing through the through hole, an elastic conical block 91 is arranged on the pull rope 71, and the elastic conical block 91 can pass through the through hole by being pulled. The pulling rope 71 pulls the elastic conical block 91 to move, the elastic conical block 91 meets the baffle 9 and stops, and along with the increase of the pulling force of the pulling rope 71, the elastic conical block 91 is gradually compressed and contracted and rapidly passes through the baffle 9, so that the arc-shaped rubber plate 7 vibrates; when the swinging arms 72 subsequently replied, the elastic conical block 91 is driven to reset by the tensile force of the arc rubber plate 7, the vibration amplitude of the arc rubber plate 7 is increased through the periodic movement of the elastic conical block 91, organic glass particles on the surface of the arc rubber plate bounce, the bounced materials blow down by the blowing head 38, the scattered materials enter the hearth 5, the raw materials are prevented from being held together, and the raw materials cannot fully react.

As an embodiment of the invention, a safety valve 17 is arranged on one side of the upper end of the hearth 5, and the safety valve 17 can automatically open the exhaust in case of blockage of the condenser 12; the tip of slagging tap 4 passes through gearbox and 19 fixed connection of ejection of compact motor, and slagging tap 4 can regularly clear up the waste residue that the schizolysis produced.

When the device works, the cam 34 on the rotating shaft of the driving grinding roller 32 periodically extrudes the air bag 35, the gas generated by the air bag 35 blows organic glass particles falling on the arc-shaped guide plate 36 into the hearth 5 through the blowing head 38, the arc-shaped guide plate 36 enables the organic glass particles to be thrown to the middle upper part of the hearth 5, so that the organic glass particles are uniformly dispersed, the cracking speed of the organic glass particles in the hearth 5 is accelerated, the cracking reaction efficiency of the organic glass particles is improved, meanwhile, the air bag 35 intermittently generates air flow, and is closed or opened through the automatic door 39, and is immediately closed after one organic glass particle is introduced, so that intermittent feeding is realized, the next batch of organic glass particles are introduced into the air bag after the organic glass particles are fully cracked, and the phenomenon that the raw materials are accumulated in the hearth 5 to;

meanwhile, by utilizing the suction effect of the air bag 35, the organic glass particles are sent into the hearth 5 by high-temperature air flow in the hearth 5, the raw materials are preheated, the decomposition speed of the organic glass particles in the hearth 5 is accelerated, and the cracking reaction efficiency of the organic glass particles is improved;

further, driven grinding roller 33 rotates and transmits power to rotating rod 73 through drive gear 74 and drive gear 76, rotating rod 73 rotates clockwise and extrudes on the inclined plane of swinging arms 72 upper end, it is rotatory and the deformation of pulling arc rubber slab 7 to promote swinging arms 72, after swinging arms 72 rotated certain angle, rotating rod 73 separated with swinging arms 72, make arc rubber slab 7 contract fast, bounce its surperficial organic glass granule, the material of bounce is under blowing of blowhead 38, dispersive entering furnace 5, avoid the raw materials to hold the group, cause the raw materials can not fully react.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from its scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. A waste organic glass continuous cracking system comprises a furnace body (1), a stirring motor (2), a feeding module (3), a slag discharger (4) and a controller, wherein the controller is installed on the outer side of the furnace body (1) and used for controlling equipment to automatically operate, and an electric burner (11) is arranged at the bottom of one side of the furnace body (1); a hearth (5) is arranged in the furnace body (1); the stirring motor (2) is fixedly connected with the stirring shaft through a gearbox; the stirring motor (2) is arranged at the top of the hearth (5); the stirring shaft penetrates through the hearth (5) and is introduced into the hearth (5); the hearth (5) is communicated with a condenser (12) through a hose; a storage tank (14) is arranged below the condenser (12); the slag discharger (4) penetrates through the bottom parts of the furnace body (1) and the hearth (5) to be fixedly connected; the bottom of the slag extractor (4) is communicated with a water tank (16) through a pipeline; the feeding module (3) is arranged at the upper right corner of the furnace body (1); the method is characterized in that: the feeding module (3) comprises a feeding box (31), a driving motor, a driving roller (32), a driven roller (33), a cam (34), an air bag (35), an arc-shaped guide plate (36), a mounting plate (37), a blowing head (38) and an automatic door (39); the feeding box (31) is fixedly installed at the upper right corner of the furnace body (1), a feeding hole is formed in the top of the feeding box (31), a driving grinding roller (32) and a driven grinding roller (33) which are meshed with each other are arranged below the feeding hole, the driving grinding roller (32) is controlled to rotate through a driving motor, the driving grinding roller (32) is installed on one side close to the furnace body (1), a rotating shaft end fixed connection cam (34) of the driving grinding roller (32) is arranged between the cam (34) and the furnace body (1), an air bag (35) installed on the furnace body (1) is arranged between the cam (34) and the furnace body (1), an arc guide plate (36) is arranged below the driven grinding roller (33), the arc guide plate (36) is tangent to a horizontal plane and inclines towards the furnace body (1), two opposite sides of the arc guide plate (36) are fixedly connected with the feeding box (31), an upper end fixed connection installation plate (37) of the arc guide, the blowing head (38) is connected with the air bag (35) through an air pipe, a one-way valve is arranged on the air pipe, an automatic door (39) is arranged on the left side of the arc-shaped guide plate (36), and the automatic door (39) is slidably mounted on the side wall of the furnace body (1);

and a safety valve (17) is arranged on one side of the upper end of the hearth (5), and the end part of the slag discharger (4) is fixedly connected with a discharging motor (19) through a gearbox.

2. The continuous waste organic glass cracking system of claim 1, wherein: the furnace body (1) upper right corner fixed mounting filter tank (6), filter tank (6) and gasbag (35) intercommunication are equipped with the check valve between filter tank (6) and gasbag (35).

3. The continuous waste organic glass cracking system of claim 2, wherein: a notch is arranged in the middle of the arc-shaped guide plate (36), an arc-shaped rubber plate (7) is fixedly connected in the notch, the bottom of the arc-shaped rubber plate (7) is fixedly connected with one end of a pull rope (71), the other end of the pull rope (71) is fixedly connected with the lower end of a swinging rod (72), the middle part of the swing rod (72) is rotatably arranged on the side wall of the feeding box (31) through a rotating shaft, the upper end of the swing rod (72) is provided with an inclined plane, the end of the rotating shaft of the driven grinding roller (33) is fixedly connected with a transmission gear (74), the side wall of the feeding box (31) is fixedly connected with a supporting plate (75), a driving gear (76) is rotatably arranged at the end of the supporting plate (75), the side edge of the driving gear (76) is fixedly connected with a rotating rod (73), the end of the rotating rod (73) is semicircular, and the rotating rod (73) rotates to be used for intermittently stirring the swinging rod (72) to rotate.

4. The continuous waste organic glass cracking system of claim 3, wherein: dwang (73) end fixed connection sucking disc (8), sucking disc (8) can adsorb on the inclined plane of swinging arms (72) upper end.

5. The continuous waste organic glass cracking system of claim 4, wherein: the feeding box is characterized in that a baffle (9) is fixedly mounted on a bottom plate of the feeding box (31), a through hole is formed in the middle of the baffle (9), two ends of the through hole are rounded, the pull rope (71) penetrates through the through hole and then is fixedly connected to the lower end of the swing rod (72), an elastic conical block (91) is arranged on the pull rope (71), and the elastic conical block (91) can penetrate through the through hole when being pulled.