CN110935695A

CN110935695A - Automatic cleaning device of melten gel filter screen

Info

Publication number: CN110935695A
Application number: CN201911197243.8A
Authority: CN
Inventors: 于欠喜; 李先松
Original assignee: Hunan Anfu Environmental Polytron Technologies Inc
Current assignee: Hunan Anfu Environmental Polytron Technologies Inc
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2020-03-31
Anticipated expiration: 2039-11-29
Also published as: CN110935695B

Abstract

The invention relates to an automatic cleaning device for a molten gel filter screen, which comprises a high-temperature cracking furnace, an automatic conveying mechanism and an automatic cleaning mechanism, wherein the automatic conveying mechanism is arranged on the high-temperature cracking furnace; the arranged filter screen is burnt in a sealed high-temperature cracking furnace, so that the pollution of sol burning to the environment can be reduced; the automatic cleaning mechanism who sets up can be automatic pat the filter screen, reduces staff's intensity of labour like this, has improved cleaning efficiency, has also guaranteed simultaneously that staff's is healthy.

Description

Automatic cleaning device of melten gel filter screen

Technical Field

The invention relates to the field of granulation equipment, in particular to an automatic cleaning device for a glue melting filter screen.

Background

When the waste plastic is recycled and granulated, the sol needs to be filtered, so that a filter screen on granulation equipment needs to be frequently replaced, a large amount of impurities and solidified melt adhesive adhere to the filter screen, and the filter screen needs to be cleaned to separate the melt adhesive and the impurities on the filter screen when the filter screen is replaced;

the existing separation mode is mainly characterized in that sol and impurities attached to a filter screen are embrittled in a combustion mode, the sol, the impurities and the filter screen are separated in a knocking mode, the environment (waste gas and dust generated by combustion) is easily polluted in an open-air combustion mode, a large amount of dust can be generated when the filter screen is knocked, if the sol is sucked into a human body or is adhered to the skin, the human body health can be affected, and meanwhile, if the catalyzed sol or the impurities on the filter screen are knocked down, the labor intensity is high, and the cleaning efficiency of the filter screen is slow.

Disclosure of Invention

Aiming at the defects of the prior art, the invention discloses an automatic cleaning device for a glue melting filter screen, which is convenient for quickly cleaning the filter screen, reduces the labor intensity of workers, prevents dust from influencing the health of the workers, and simultaneously adopts a high-temperature cracking furnace to embrittle sol adhered on the filter screen, so that waste gas and dust can be prevented from being directly discharged, the environment is protected, and automatic feeding and discharging are arranged, so that the labor intensity of the workers is reduced.

In order to achieve the purpose, the scheme of the invention is as follows: an automatic cleaning device of a melt adhesive filter screen comprises a high-temperature cracking furnace, an automatic conveying mechanism and an automatic cleaning mechanism, wherein the automatic conveying mechanism is arranged at a feeding position of the high-temperature cracking furnace, a waste gas collecting system is connected to the top of the high-temperature cracking furnace, the automatic conveying mechanism comprises a main rail, a material storage component, a material pushing component and a material discharging component, the main rail faces towards a feeding hole of the high-temperature cracking furnace, the material pushing component is arranged on the main rail and is pushed along the direction of the main rail, two sections of gaps which are disconnected are formed in the main rail, the material storage component is arranged at one gap, the material discharging component is arranged at the other gap, the automatic cleaning mechanism is arranged at one side of the material discharging component, the automatic cleaning mechanism comprises a conveying belt, a clapper, a reciprocating component, a negative pressure component and a collecting hopper, the conveying belt is supported by a metal mesh and is driven by, be provided with the bearing plate between two transport roller, the top at the bearing plate contacts with the inboard top of conveyer belt, top at the conveyer belt is provided with the polylith clappers, the polylith clappers is fixed in same root pivot, both ends department at the pivot is provided with reciprocal subassembly, still be provided with return spring in the pivot, when the pivot return, the clappers is patted on the bearing plate, top at the clappers is provided with negative pressure assembly, negative pressure assembly is connected with the collecting box, negative pressure assembly's other one end is connected with collects the cover, collect and cover on the conveyer belt, wherein clap the board, reciprocal subassembly all is located collects and covers, be provided with in the bottom of conveyer belt and collect and fight, it is located collects and covers equally to collect to fight.

Preferably, the reciprocating assembly comprises a complete gear and an incomplete gear, the complete gear and the incomplete gear are meshed with each other, the complete gear is fixed on the rotating shaft, the incomplete gear is fixed with a motor, and the incomplete gear is driven to rotate by the motor.

Preferably, a strong spring is further arranged between the clapper and the rotating shaft.

Preferably, the storage assembly includes a pair of runner and places the board, and a pair of runner sets up side by side and is provided with the polylith between a pair of runner and places the board, and the polylith is placed the board and is annular array distribution, and every is placed the arc that the board is semicircle form, and every is placed for swivelling joint between board and the runner, when placing the board and rotating to the bottommost, places board and main track butt joint, places the metal frame of placing the filter screen on placing the board.

Preferably, the material pushing assembly comprises a material pushing cylinder and a push plate, the material pushing cylinder is arranged on the main rail, the push plate is arranged on a piston rod of the cylinder, and an electromagnet is arranged on the push plate.

Preferably, arrange the material subassembly and include translation board and remove the seat, translation board and main track butt joint are provided with in the bottom of translation board and remove the seat, remove the seat bottom and have placed the removal track, are provided with the removal cylinder between removal track and removal seat.

Compared with the prior art, the invention has the advantages that: 1. the arranged filter screen is burnt in a sealed high-temperature cracking furnace, so that the pollution of sol burning to the environment can be reduced; 2. the automatic cleaning mechanism can automatically flap the filter screen, so that the labor intensity of workers is reduced, the cleaning efficiency is improved, and the health of the workers is guaranteed; 3. when the filter screen is combusted, automatic feeding and discharging are achieved, so that the labor intensity of workers is reduced, meanwhile, the workers do not need to wait for cooling, and meanwhile, the efficiency is improved.

Drawings

FIG. 1 is a top view of the present invention.

Fig. 2 is a schematic view of the automatic conveying mechanism of the present invention.

FIG. 3 is a schematic view of the magazine assembly of the present invention.

Fig. 4 is a schematic view of a discharge assembly of the present invention.

FIG. 5 is a schematic view of a pusher assembly of the present invention.

FIG. 6 is a schematic view of the automatic cleaning mechanism of the present invention.

FIG. 7 is a schematic view of the connection of the reciprocation assembly to the paddle board according to the present invention.

The high-temperature cracking furnace comprises a high-temperature cracking furnace 1.1, a feeding port 2, an automatic conveying mechanism 2.1, a main rail 2.2, a material storage assembly 2.3, a rotating wheel 2.4, a placing plate 2.5, a metal frame 2.6, a material pushing assembly 2.7, a material pushing cylinder 2.8, a push plate 2.9, an electromagnet 2.10, a material discharging assembly 2.11, a translation plate 2.12, a moving seat 2.13, a moving rail 2.14, a moving cylinder 3, an automatic cleaning mechanism 3.1, a conveying belt 3.2, a clapper 3.3, a rotating shaft 3.4, a strong spring 3.5, a reciprocating assembly 3.6, a complete gear 3.7, an incomplete gear 3.8, a motor 3.9, a negative pressure assembly 3.10, a collecting hopper 3.11, a return spring 3.12, a pressure bearing plate 3.14, a collecting cover 4 and a waste gas collecting system.

Detailed Description

The invention will now be further elucidated with reference to the drawing.

As shown in fig. 1-7, an automatic cleaning device for a glue melting filter screen comprises a pyrolysis furnace 1, an automatic conveying mechanism 2 and an automatic cleaning mechanism 3, wherein the automatic conveying mechanism 2 is arranged on the left side of a feeding part of the pyrolysis furnace 1, a waste gas collecting system 4 is connected to the top of the pyrolysis furnace 1 in a welding manner (the waste gas collecting system 4 is used for collecting flue gas generated by the combustion of the filter screen of the pyrolysis furnace 1, and the waste gas collecting system 4 intensively conveys the generated flue gas to a flue gas treatment device of a company for centralized treatment), wherein the automatic conveying mechanism 2 comprises a main rail 2.1, a material storage component 2.2, a material pushing component 2.6 and a material discharging component 2.10, wherein the main rail 2.1 faces a feeding port 1.1 of the pyrolysis furnace 1, the filter screen placed on the main rail 2.1 enters the pyrolysis furnace 1 along the main rail 2.1, the material pushing component 2.6 is fixed on the main rail 2.1 in a welding manner and the material pushing component 2.6 is pushed along the direction of the main rail 2.1, the material pushing assembly 2.6 comprises a material pushing cylinder 2.7 and a push plate 2.8, the material pushing cylinder 2.7 is fixed on the left side of the main rail 2.1 through a bolt, the push plate 2.8 is fixed on a piston rod of the material pushing cylinder 2.7 in a welding mode, an electromagnet 2.9 which generates magnetism when electrified is embedded in the push plate 2.8, the electromagnet 2.9 is controlled through a power switch, and when a power supply of the electromagnet 2.9 is switched on, the push plate 2.8 is provided with magnetism; two sections of gaps which are disconnected are formed in the main track 2.1, a storage component 2.2 is arranged at one gap far away from the pyrolysis furnace 1, the storage component 2.2 comprises a pair of rotating wheels 2.3 and placing plates 2.4, the rotating wheels 2.3 are driven to rotate through a driving component (the driving component is a stepping motor 3.8), the pair of rotating wheels 2.3 are arranged side by side, four placing plates 2.4 are arranged between the pair of rotating wheels 2.3, the four placing plates 2.4 are distributed on the edge of the rotating wheels 2.3 in an annular array mode, each placing plate 2.4 is a semicircular arc-shaped plate, each placing plate 2.4 is in rotary connection with the rotating wheels 2.3 (the placing plates 2.4 are connected with the rotating wheels 2.3 through bearings, under the action of gravity, the arc-shaped grooves of the placing plates 2.4 are always upward, so that the placing plates 2.4 in the filter screen can be prevented from falling down in a limited mode), a metal frame 2.5 for placing a filter screen is placed on a placing plate 2.4 (the filter screen is stacked on the metal frame 2.5, the metal frame 2.5 is placed on the placing plate 2.4), when the placing plate 2.4 is butted with a main track 2.1, an opening of the pyrolysis furnace 1 is opened, a push plate 2.8 pushes the metal frame 2.5 on the placing plate 2.4 to the main track 2.1, the metal frame 2.5 on the main track 2.1 is pushed to the pyrolysis furnace 1 after the pushing, then the opening is closed to realize the sealing of the pyrolysis furnace 1, the combustion of the sol of the filter screen is realized, a discharging component 2.10 is arranged at a gap close to the pyrolysis furnace 1, the discharging component 2.10 comprises a translation plate 2.11 and a moving seat 2.12, the translation plates 2.11 are a plurality of translation plates 2.11, the translation plates 2.11 opposite to the main track 2.1 are butted with the main track 2.1, the moving seats 2.11 are fixed by welding, and move back and forth in parallel, a moving rail 2.13 fixed on the ground is placed at the bottom of a moving seat 2.12, the moving seat 2.12 is embedded into the moving rail 2.13, the moving rail 2.13 is longitudinally arranged, the moving seat 2.12 moves back and forth on the moving rail 2.13, a moving cylinder 2.14 is arranged between the moving rail 2.13 and the moving seat 2.12, a cylinder body of the moving cylinder 2.14 is fixed at the front end of the moving rail 2.13, a piston rod of the moving cylinder 2.14 is fixed on the moving seat 2.12, the front and back sliding of the moving seat 2.12 is completed through the expansion and contraction of the moving cylinder 2.14, a metal frame filled with a filter screen is placed on a placing plate 2.4 during processing (namely, a metal frame 2.5 filled with the filter screen is placed on each placing plate 2.4), when the metal frame 2.5 needs to be pushed into a high-temperature cracking furnace 1, the rotating wheel 2.3 is that the placing plate 2.4 is butted with a main rail 2.1, then a pushing cylinder 2.7 pushes a pushing plate out of the high-temperature cracking furnace 1, and 2.8 pushes the metal frame 2.5 into the, after the filter screen in the pyrolysis furnace 1 is burnt for a period of time, the electromagnet 2.9 is powered on, the push plate 2.8 is magnetic, the pyrolysis furnace 1 is opened, the push plate 2.8 adsorbs the metal frame 2.5 and pulls out the metal frame 2.5 (the metal frame is made of steel) and places the metal frame on the translation plate 2.11, at this time, the electromagnet 2.9 is powered off, at this time, the push plate 2.8 is reset, the moving cylinder 2.14 is started and moves the translation plate 2.11 with the metal frame 2.5 placed forward, the cooling is carried out for a period of time (after the filter screen is burnt, the burnt sol is brittle, so that the subsequent knocking-off is convenient), then the rotating wheel rotates 90 degrees, the operation is repeated, the metal frame 2.5 with the filter screen is pushed into the pyrolysis furnace 1, the metal frame 2.5 in the pyrolysis furnace 1 is taken out and discharged according to the operation, so that the feeding and discharging during the automatic burning of the filter screen are realized, the intensity of labour of staff has been reduced, pyrolysis furnace is purchased on the market simultaneously, mainly increases the exhaust hole that is linked together with exhaust gas collecting system 4 at 1 top of pyrolysis furnace, because pyrolysis furnace 1 is connected with exhaust gas collecting system 4, and the waste gas in pyrolysis furnace 1 carries this company's exhaust-gas treatment equipment through exhaust gas collecting system 4 and carries out centralized processing, is promptly when opening pyrolysis furnace 1, does not have waste gas in pyrolysis furnace 1.

An automatic cleaning mechanism 3 is arranged on the right side of the discharging component 2.10, the automatic cleaning mechanism 3 comprises a conveying belt 3.1, a clapper 3.2, a reciprocating component 3.5, a negative pressure component 3..9 and a collecting hopper 3.10, wherein the conveying belt 3.1 is supported by a metal net and is driven by two conveying rollers (the two conveying rollers are fixed on the ground through bearings and bearing seats), a collecting cover 3.14 is covered on one section of the conveying belt 3.1, the collecting cover 3.14 is fixed on the ground, an opening for a conveying belt 4.1 to pass through is arranged on the collecting cover 3.14, a bearing plate 3.12 is arranged between the two conveying rollers, the top of the bearing plate 3.12 is contacted with the top of the inner side of the conveying belt 3.1, the bearing plate 3.12 is fixed on the collecting cover 3.14 in a welding mode, a plurality of clappers 3.2 are arranged above the conveying belt 3.1 and the clappers 3.2 are positioned in the collecting cover 3.14, a plurality of clappers 3.2 are fixed on the same rotating shaft 3.3 in a welding mode, the flapping machine is characterized in that reciprocating components 3.5 are fixed at two ends of a rotating shaft 3.3 in a welding mode, intermittent forward rotation and reverse rotation of the rotating shaft are achieved through the reciprocating components 3.5, flapping motion of a flapping plate 3.2 is achieved, a return spring 3.11 is fixed on the rotating shaft 3.3 in a welding mode, when the rotating shaft is not stressed, resetting of the rotating shaft is achieved, when the rotating shaft 3.3 resets, the flapping plate 3.2 flappers on a bearing plate 3.12, a negative pressure component 3..9 is fixed on a collecting cover 3.14 at the top of the flapping plate 3.2 in a welding mode (the negative pressure component is a traditional negative pressure pump, negative pressure is formed in the collecting cover 3.14 through the negative pressure pump, dust generated by flapping a filter screen is removed), the negative pressure component 3..9 is connected with a collecting box, a collecting bucket 3.10 is arranged at the bottom of a conveying belt 3.1, after the filter screen is burnt, sol on the filter screen is embrittled, flapping separation can be achieved, and when the filter screen is cleaned, place the filter screen on metal frame 2.5 on conveyer belt 3.1, carry the filter screen through conveyer belt 3.1 and pat all the other of beating, can reduce the intensity of labour that the manual work was beaten like this, beat board 3.2 and realize beating of clapper 3.2 through the reciprocal rotation of pivot 3.3, realize automatic beating filter screen like this, the dust that produces when patting is siphoned away and is stored through negative pressure subassembly 3.

The reciprocating component 3.5 comprises a complete gear 3.6 and an incomplete gear 3.7, the complete gear 3.6 is meshed with the incomplete gear 3.7, the complete gear 3.6 is welded on the rotating shaft 3.3, the incomplete gear 3.7 is fixed with a motor 3.8 in a welding mode, the motor is fixed on a collecting cover 3.14 through bolts, the incomplete gear 3.7 is driven to rotate by the motor 3.8, when the incomplete gear 3.7 rotates, when the incomplete gear 3.7 is meshed with the complete gear 3.6, the motor 3.8 drives the rotating shaft 3.3 to rotate, when a toothless area of the incomplete gear 3.7 is close to the complete gear 3.6, the rotating shaft 3.3 returns under the action of a return spring 3.11, so that the clapper 3.2 is clapper on the bearing plate 3.12, when a toothed area of the incomplete gear 3.7 is meshed with the complete gear 3.6, the rotating shaft 3.3.3 rotates to enable the clapper 3.2 to leave the bearing plate 3.12, thus continuous clapper of the clapper 3.7, thus beating the sol on the filter screen.

A strong spring 3.4 is arranged between the clapper 3.2 and the rotating shaft 3.3, one end of the strong spring 3.4 is welded on the rotating shaft 3.3, the other end of the strong spring 3.4 is welded on the clapper 3.2, when the clapper 3.2 is used for beating, under the action of the spring, when the clapper 3.2 is used for beating on the bearing plate 3.12, the clapper 3.2 receives the reaction force of the bearing plate 3.12, and rebounds, so that multiple times of beating can be completed, the efficiency is improved, meanwhile, the clappers 3.2 are used for fast beating, the efficiency is high, meanwhile, the machine is not tired, meanwhile, the speed of the motor 3.8 can be adjusted to accelerate the beating speed of the clapper 3.2, the cleaning force efficiency is improved, and meanwhile, manual contact with dust generated in beating on a filter screen is not needed.

Claims

1. An automatic cleaning device of a melt adhesive filter screen comprises a high-temperature cracking furnace, an automatic conveying mechanism and an automatic cleaning mechanism, and is characterized in that the automatic conveying mechanism is arranged at a feeding position of the high-temperature cracking furnace, a waste gas collecting system is connected to the top of the high-temperature cracking furnace, the automatic conveying mechanism comprises a main rail, a material storage component, a material pushing component and a material discharging component, the main rail faces towards a feeding hole of the high-temperature cracking furnace, the material pushing component is arranged on the main rail and is pushed along the direction of the main rail, two sections of broken notches are arranged on the main rail, the material storage component is arranged at one notch, the material discharging component is arranged at the other notch, the automatic cleaning mechanism is arranged at one side of the material discharging component and comprises a conveying belt, a clapper, a reciprocating component, a negative pressure component and a collecting hopper, wherein the conveying belt is supported by a metal net, through two conveyor roller drives, be provided with the bearing plate between two conveyor rollers, the top at the bearing plate contacts with the inboard top of conveyer belt, top at the conveyer belt is provided with the polylith clapper, the polylith clapper is fixed in same root pivot, both ends department at the pivot is provided with reciprocal subassembly, still be provided with return spring in the pivot, when the pivot return, the clapper is patted on the bearing plate, top at the clapper is provided with negative pressure assembly, negative pressure assembly is connected with the collecting box, negative pressure assembly's other one end is connected with the collection cover, collect on the cover conveyer belt, wherein clapper, reciprocal subassembly all is located and collects the cover, bottom at the conveyer belt is provided with the collection and fights, it is located and collects the cover equally to collect fights.

2. The automatic cleaning device for the melt adhesive filter screen according to claim 1, wherein the reciprocating assembly comprises a complete gear and an incomplete gear, the complete gear and the incomplete gear are meshed with each other, the complete gear is fixed on the rotating shaft, the incomplete gear is fixed with a motor, and the motor drives the incomplete gear to rotate.

3. The automatic cleaning device for the melting glue filter screen according to claim 2, wherein a strong spring is further arranged between the clapper and the rotating shaft.

4. The automatic cleaning device for the melt adhesive filter screen according to claim 3, wherein the storage assembly comprises a pair of rotating wheels and a placing plate, the pair of rotating wheels are arranged side by side, a plurality of placing plates are arranged between the pair of rotating wheels and distributed in an annular array, each placing plate is a semicircular arc-shaped plate, each placing plate is rotatably connected with the rotating wheels, when the placing plates rotate to the bottommost end, the placing plates are butted with the main rail, and a metal frame for placing the filter screen is placed on the placing plates.

5. The automatic cleaning device for the melt adhesive filter screen according to claim 4, wherein the pushing assembly comprises a pushing cylinder and a pushing plate, the pushing cylinder is arranged on the main rail, the pushing plate is arranged on a piston rod of the cylinder, and an electromagnet is arranged on the pushing plate.

6. The automatic cleaning device for the melt adhesive filter screen according to claim 5, wherein the discharging assembly comprises a translation plate and a moving seat, the translation plate is in butt joint with the main rail, the moving seat is arranged at the bottom of the translation plate, the moving rail is placed at the bottom of the moving seat, and a moving cylinder is arranged between the moving rail and the moving seat.