CN107621165B - Bowl loading machine for heavy-duty full-automatic roller hearth furnace - Google Patents

Abstract

The invention discloses a heavy-duty full-automatic bowl loading machine for a roller way furnace, which comprises a stirring blanking bin, wherein a discharging opening of the stirring blanking bin is provided with a degasser, a conveyor belt is arranged below the degasser, a discharging screw is arranged in the stirring blanking bin, one end of the discharging screw extends out of the discharging opening and into the degasser, the degasser comprises a degassing filter screen with a barrel-shaped structure, the degassing filter screen is sleeved on the discharging screw, the degassing filter screen is arranged in a mounting barrel, an airflow space is arranged between the inner wall of the mounting barrel and the degassing filter screen, and one or more vacuum interfaces which are in through connection with the airflow space are arranged on the outer wall of the mounting barrel; the discharge port of the degasser is also provided with a pressing plate, and a lifting mechanism is arranged in the conveyor belt below the pressing plate and used for lifting the bowl body on the conveyor belt to move towards the discharge port. The invention can fully load the pot body, improve the loading capacity and sintering quality and effectively inhibit dust generation.

Description

Bowl loading machine for heavy-duty full-automatic roller hearth furnace

Technical Field

The invention relates to the field of roller hearth furnaces and push plate furnaces, in particular to a heavy-weight and heavy-load full-automatic bowl loading machine for a roller hearth furnace.

Background

Various electronic powder materials, such as color fluorescent powder, lamp powder, barium titanate, strontium titanate, yttrium oxide, zirconium oxide, aluminum oxide, bismuth oxide, lead zirconate titanate, lithium iron phosphate or ferrite magnetic powder, and the like, are prepared by sintering in an electronic kiln to achieve the required performance;

before sintering in an electronic kiln, electronic powder materials are generally required to be placed in a sagger, and enter the electronic kiln through the sagger for sintering. In the prior art, the sagger is loaded by adopting a discharging manner of a discharging bin, and materials finally fall into the sagger through dead weight and conveying of a spiral screw, and a conical tip structure is formed in the sagger due to a powder structure, so that the inside of the sagger cannot be filled; and during sintering, powder at the point structure is easy to generate bad sintering.

Above-mentioned powder unloading time still needs to avoid the adhesion at the interior real-time stirring of unloading storehouse, therefore when the unloading, there is great air, and the powder of unloading is loose, and the dust easily appears to loading efficiency also can't effectively improve.

Disclosure of Invention

The invention aims to solve the technical problem of providing a heavy-weight heavy-load full-automatic bowl loading machine for a roller kiln, which can fully load bowl bodies, improve loading capacity and sintering quality and effectively inhibit dust generation.

In order to solve the technical problems, the invention provides a heavy-duty full-automatic bowl loading machine for a roller hearth furnace, which comprises a stirring blanking bin, wherein a degassing device is arranged on a blanking port of the stirring blanking bin, a conveyor belt is further arranged below the degassing device, a blanking screw is arranged in the stirring blanking bin, one end of the blanking screw extends out of the blanking port and into the degassing device, the degassing device comprises a degassing filter screen with a barrel-shaped structure, the degassing filter screen is sleeved on the blanking screw, the degassing filter screen is arranged in a mounting barrel, an airflow space is arranged between the inner wall of the mounting barrel and the degassing filter screen, and one or more vacuum interfaces which are in through connection with the airflow space are arranged on the outer wall of the mounting barrel;

the discharge port of the degasser is also provided with a pressing plate, and a lifting mechanism is arranged in the conveyor belt below the pressing plate and used for lifting the bowl body on the conveyor belt to move towards the discharge port.

Furthermore, a dust hood is sleeved and fixed on the degassing device, the pressing plate and the discharge hole are both arranged in the dust hood, and the bowl body is lifted up by the lifting mechanism to enter the dust hood;

the dust hood is characterized in that a telescopic passing groove is formed in the inner wall of the dust hood, a sealing plate is arranged in the telescopic passing groove and connected with the blocking cylinder, the sealing plate stretches out to seal the feed opening, and a sealing assembly is further arranged between the telescopic passing groove and the sealing plate;

the dust hood is connected with the dust collector, the dust collector is including setting up the dust absorption entry at the lateral wall, the inside dust absorption filter screen that is provided with barrel structure of dust collector, the dust absorption filter screen is connected with vacuum apparatus and first pulse device, the dust collector bottom is provided with the retrieval and utilization mouth, dust absorption filter screen bottom still is provided with back taper blanking mouth, the retrieval and utilization mouth is connected with the stirring feed bin down, back taper blanking mouth sets up on the dust collector inner wall of dust absorption entry one side.

Further, still be provided with the puddler in the stirring feed bin down, the puddler is fixed to be set up on rotatory cover, rotatory cover is connected with agitator motor through drive gear group, rotatory cover is established on the unloading screw rod, the unloading screw rod is connected with screw drive motor, still be provided with respirator, pan feeding mouth and manhole on the stirring feed bin down.

Further, the feed inlet is connected with the upper-level feed bin through the star valve, and a material level gauge is further arranged in the feed bin under stirring and is connected with the star valve in a matched mode.

Further, the respirator comprises a respiration shell, a dust cover is arranged at the top of the respiration shell, a hinge and a quick lock are arranged between the dust cover and the respiration shell, a respiration filter screen is arranged inside the respiration shell, the respiration filter screen is connected with the inside of a stirring lower bin and the outside air, and a second pulse device is further arranged inside the respiration shell.

Further, the conveyer belt is provided with the conveying leading wheel along the both sides edge of direction of delivery, the leading wheel sets up the direction unanimous with the direction of delivery, still be provided with centering mechanism on the conveyer belt between feed opening and the climbing mechanism, centering mechanism includes centering cylinder and the centering leading wheel of setting in centering cylinder tip, centering leading wheel sets up the direction unanimous with the climbing direction, still be provided with on the conveyer belt and block the mechanism, block the mechanism setting in the direction of delivery of conveyer belt.

Further, climbing mechanism includes the jacking platform, jacking platform surface is provided with a plurality of jacking portions, jacking portion passes conveyer belt and alms bowl body bottom butt, jacking platform bottom is connected with the jacking bottom plate through weighing sensor, jacking bottom plate bottom is provided with guide assembly and lead screw elevating system.

Further, the vacuum interface is connected with a vacuum pump through an external filter.

Further, one or more high-pressure interfaces are arranged on the outer wall of the installation barrel and communicated with the airflow space.

The invention has the beneficial effects that:

by arranging the pressing plate at the discharge hole of the degasser, the electronic powder material can not generate a sharpening structure during discharging and can be flattened by the pressing plate, so that the electronic powder material can be uniformly loaded in the sagger, the space inside the sagger is fully utilized, the sagger can be fully loaded, and the subsequent sintering efficiency is improved; and the sintering quality can be ensured without a tip structure.

Above-mentioned powder in the stirring feed bin is carried through the rotation of unloading screw rod, when the powder in to the degasser, can take away the air in the powder because of degasser's evacuation for the powder is tight, and when final unloading, tight powder can improve unloading volume and loading capacity, and after falling into the alms bowl, the powder raise dust is few, and is little to operation environmental pollution.

Drawings

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

FIG. 2 is a schematic diagram of the structure of the blanking part of the present invention;

FIG. 3 is a schematic top view of the degasser of the present invention;

FIG. 4 is a schematic view of a cleaner according to the present invention;

FIG. 5 is a schematic diagram of the top structure of the stirred silo according to the invention;

FIG. 6 is a schematic illustration of the respirator construction of the present invention;

fig. 7 is a schematic view of the conveyor belt and the lifting mechanism of the present invention.

The reference numerals in the figures illustrate: 1. the device comprises a stirring discharging bin, 2, a degassing device, 3, a conveyor belt, 4, a discharging screw, 5, a degassing filter screen, 6, an installation barrel, 7, an airflow space, 8, a vacuum interface, 9, a pressing plate, 10, a jacking mechanism, 11, a dust suction cover, 12, a sealing plate, 13, a blocking cylinder, 14, a dust collector, 15, a dust suction inlet, 16, a dust suction filter screen, 17, a vacuum device, 18, a first pulse device, 19, a recycling port, 20, an inverted cone discharging port, 21, a stirring motor, 22, a screw driving motor, 23, a breather, 24, a feeding port, 25, a manhole, 26, a breathing shell, 27, a dust cover, 28, a hinge, 29, a quick lock, 30, a breathing filter screen, 31, a second pulse device, 32, a conveying guide wheel, 33, a centering cylinder, 34, a centering guide wheel, 36, a jacking platform, 37, a jacking part, 38, a weighing sensor, 39, a jacking bottom plate, 40, a guide assembly, 41, a screw lifting mechanism, 42, a filter, 43 and a high-pressure interface.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the invention and practice it.

Referring to fig. 1 to 3, an embodiment of the heavy-duty full-automatic bowl loading machine for roller hearth furnaces of the present invention comprises a stirring discharging bin 1, wherein a discharging opening of the stirring discharging bin is provided with a degassing device 2 for degassing powder; a conveyor belt 3 is arranged below the degasser and is used for conveying the bowl bodies; a blanking screw 4 is arranged in the stirring blanking bin, one end of the blanking screw extends out of the blanking opening and enters the degassing device, and powder can be conveyed and blanked through rotation of the blanking screw;

the degasser comprises a degassing filter screen 5 with a barrel-shaped structure, the degassing filter screen is sleeved on the blanking screw, the degassing filter screen is arranged in a mounting barrel 6, an airflow space 7 is arranged between the inner wall of the mounting barrel and the degassing filter screen, the airflow space can be realized through a mounting fixing frame, one or more vacuum interfaces 8 which are in through connection with the airflow space are arranged on the outer wall of the mounting barrel, and the vacuum interfaces are connected with negative pressure; when the vacuum filter is used, the vacuum interface is opened, so that gas in the degassing filter screen can be sucked out to the air flow space towards the outside and then discharged through the vacuum interface, when powder passes through, gaps among particles in the powder and the gas can be pumped away, so that the particles are more compact, and the materials can be conveyed in a compact state under the driving of rotation of the blanking screw, and finally the blanking realizes the bowl loading function; wherein the degassing filter screen can effectively prevent the material particles from being sucked away.

Wherein, the vacuum interface is connected with the vacuum pump through external filter 42, and the clearance can be dismantled to external filter for the vacuum pump can not be filtered the very tiny particle pollution of the unable filtration interception of degasification filter screen, also guarantees life. The installation is provided with on the bucket outer wall with air current space through connection one or more high pressure interface 43, and high pressure interface connection is by high pressure, can the blowback mediation under the degasification filter screen is blocked by the powder condition for the device can durable use, and need not manual intervention, can both operate in the use.

In one embodiment, a plurality of vacuum interfaces are positioned on the same side of the mounting barrel, so that interference is avoided, suction is stabilized, compact powder accumulation is facilitated, and full-material blanking is realized during blanking; the high-voltage interfaces are uniformly arranged on the outer surface of the installation barrel, and the back blowing effect can be ensured during back blowing.

The discharge port of the degasser is also provided with a pressing plate 9, a lifting mechanism 10 is arranged in the conveyor belt below the pressing plate, and the lifting mechanism is used for lifting the bowl body on the conveyor belt to move towards the discharge port; the bowl loading mode can effectively inhibit dust emission of powder, and the powder can be tiled without sharp appearance due to small blanking space of the blanking opening and the cooperation of the pressing plates; of course, the pressing plate alone can also prevent the occurrence of the false tip.

Still overlap on the degasser and establish and be fixed with the suction hood 11, clamp plate and discharge gate all set up in the suction hood, and the alms bowl body gets into the suction hood inside through climbing mechanism's jacking, when carrying out the dress alms bowl during operation, the suction hood can be with the raise dust powder that appears when the dress alms bowl, guarantees that dress alms bowl environment does not have the powder to spill over to in the operational environment, effectively avoids the injury of powder to the human body for this equipment can open the setting in operational environment, effectively reduces equipment volume and cost.

The inner wall of the dust hood is provided with a telescopic passing groove, a sealing plate 12 is arranged in the telescopic passing groove and connected with a blocking cylinder 13, the sealing plate stretches out to seal the blanking opening, and when the blanking is stopped, the sealing plate can block powder of the blanking opening from falling off, so that pollution to components of lower equipment is avoided; when the sealing plate is moved to be opened, the bowl body can not be lifted to touch the sealing plate and be blocked by the sealing plate; a sealing component is further arranged between the telescopic trough and the sealing plate, so that dust is prevented from being discharged from the telescopic trough during discharging, and the dust collection effect is effectively improved;

referring to fig. 4, the suction hood is connected with a cleaner 14, which includes a suction inlet 15 provided at a sidewall, a suction filter screen 16 having a drum-shaped structure is provided inside the cleaner, the suction filter screen is connected with a vacuum device 17 and a first pulsator 18, and the vacuum device enables the suction inlet to suck dust in the suction hood into the cleaner through a vacuum negative pressure and to intercept the dust through the suction filter screen; the first pulse device plays a role in back blowing and reversely blows off dust trapped on the surface of the dust collection filter screen; the bottom of the dust collector is provided with a recycling port 19, the recycling port is connected with the stirring discharging bin, and blown dust is discharged into the stirring discharging bin through the recycling port, so that effective self-recycling is realized, and loss is reduced; the bottom of the dust collection filter screen is also provided with an inverted cone-shaped blanking port 20, the recycling port is connected with the stirring discharging bin, the inverted cone-shaped blanking port is arranged on the inner wall of the dust collector at one side of the dust collection inlet, firstly, the arrangement position can enable sucked dust to rotate along the outer wall of the inverted cone-shaped blanking port and then enter the dust collection filter screen, the dust is uniformly dispersed in the mode, the dust collection filter screen is prevented from being blocked in a part of the area too fast due to direct contact with the dust collection filter screen, and the service life is shortened; and the reverse cone blanking port has the effects of collecting powder intensively and guiding the powder intensively to enter the recycling port during back blowing, so that backflow from the dust collection inlet is avoided.

Referring to fig. 5, a stirring rod is further disposed in the stirring discharging bin and is used for stirring powder in the bin, the stirring rod is fixedly disposed on the rotary sleeve, the rotary sleeve is connected with the stirring motor 21 through the transmission gear set, the rotary sleeve is sleeved on the discharging screw, the discharging screw is connected with the spiral driving motor 22, the stirring rod and the discharging screw are rotationally connected but do not affect each other, a breather 23, a feeding hole 24 and a manhole 25 are further disposed on the stirring discharging bin, and the normal operation, maintenance and repair of the discharging bin are facilitated.

Foretell pan feeding mouth passes through star valve and is connected with last level feed bin, still is provided with the charge level indicator in the feed bin under the stirring, and the charge level indicator is connected with star valve cooperation, and the charge level indicator can real-time detection stir down the capacity of the interior powder of feed bin to control star valve opening and closing according to the detected value, realize that the interior powder of last level feed bin can orderly automatic the adding to in the feed bin under the stirring.

Referring to fig. 6, the respirator includes a breathing housing 26 with a dust cover 27 on top of the housing to prevent particulate dust from directly entering the interior of the housing and clogging the internal components; a hinge 28 and a quick lock 29 are arranged between the dust cover and the breathing shell, and a breathing filter screen 30 is arranged in the breathing shell, so that the breathing filter screen can be conveniently disassembled and replaced; the respiration filter screen is connected with the inside of the stirring discharging bin and the outside air, when the pressure in the stirring discharging bin is overlarge, the dust can be automatically discharged towards the respirator, and the dust can be blocked by the respiration filter screen and cannot pollute the outside air; the second pulse device 31 is further arranged in the respiration shell, particles trapped by the surface filtration of the respiration filter screen can be removed, the service life of the respiration filter screen is guaranteed, and adverse effects on the stirring discharging bin after blockage are avoided.

Referring to fig. 7, in order to improve the discharging stability, the conveyor belt is provided with conveying guide wheels 32 on both sides along the conveying direction, the arrangement direction of the guide wheels is consistent with the conveying direction, and when the bowl body is conveyed on the conveyor belt, both sides have positioning guide functions, so that the conveying resistance is reduced; the centering mechanism is further arranged on the conveyor belt between the blanking port and the jacking mechanism, and comprises a centering cylinder 33 and a centering guide wheel 34 arranged at the end part of the centering cylinder, wherein the setting direction of the centering guide wheel is consistent with the jacking direction; the centering guide wheel can effectively reduce lifting resistance when the bowl body moves up and down; the conveyor belt is also provided with a blocking mechanism arranged in the conveying direction of the conveyor belt and used for blocking the bowl body so as to position the reference position of the bowl body, and the position of the bowl body is accurately positioned again through the centering mechanism.

The lifting mechanism comprises a lifting platform 36, a plurality of lifting parts 37 are arranged on the surface of the lifting platform, the lifting parts penetrate through the conveyor belt and are abutted to the bottom of the bowl body, the lifting parts can be columnar or plate-shaped and play a supporting role, positioning pins can be arranged at the tops of the lifting parts, springs are arranged between the bottoms of the positioning pins and the lifting parts and play a telescopic role, then corresponding positioning grooves are arranged at the bottoms of the bowl body, good lifting stability is achieved when the lifting mechanism is used, and a sensor is arranged on the positioning pins; the jacking platform bottom is connected with the jacking bottom plate 39 through the weighing sensor 38, and the jacking bottom plate bottom is provided with the guide component 40 and the lead screw elevating system 41, in the unloading in-process, effectively weighs the powder in the alms bowl body, compact structure, the weighing accuracy is high, and does not receive external influence.

The above embodiments are merely preferred embodiments for fully explaining the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutions and modifications will occur to those skilled in the art based on the present invention, and are intended to be within the scope of the present invention. The protection scope of the invention is subject to the claims.

Claims (7)

1. The bowl loading machine for the heavy-duty full-automatic roller hearth furnace is characterized by comprising a stirring feeding bin, wherein a degassing device is arranged on a discharging opening of the stirring feeding bin, a conveyor belt is further arranged below the degassing device, a discharging screw is arranged in the stirring feeding bin, one end of the discharging screw extends out of the discharging opening and into the degassing device, the degassing device comprises a degassing filter screen with a barrel-shaped structure, the degassing filter screen is sleeved on the discharging screw, the degassing filter screen is arranged in a mounting barrel, an airflow space is arranged between the inner wall of the mounting barrel and the degassing filter screen, and one or more vacuum interfaces which are in through connection with the airflow space are arranged on the outer wall of the mounting barrel;

a pressing plate is further arranged at the discharge hole of the degasser, a jacking mechanism is further arranged in the conveyor belt below the pressing plate, and the jacking mechanism is used for jacking the bowl body on the conveyor belt to move towards the discharge hole;

the degasser is also sleeved and fixed with a dust hood, the pressing plate and the discharge hole are both arranged in the dust hood, and the bowl body enters the dust hood through the jacking of the jacking mechanism;

the dust hood is characterized in that a telescopic passing groove is formed in the inner wall of the dust hood, a sealing plate is arranged in the telescopic passing groove and connected with the blocking cylinder, the sealing plate stretches out to seal the feed opening, and a sealing assembly is further arranged between the telescopic passing groove and the sealing plate;

the dust hood is connected with a dust collector, the dust collector comprises a dust collection inlet arranged on the side wall, a dust collection filter screen with a barrel-shaped structure is arranged in the dust collector, the dust collection filter screen is connected with a vacuum device and a first pulse device, a recycling opening is formed in the bottom of the dust collector, a reverse cone-shaped blanking opening is further formed in the bottom of the dust collection filter screen, the recycling opening is connected with a stirring lower bin, and the reverse cone-shaped blanking opening is formed in the inner wall of the dust collector at one side of the dust collection inlet;

still be provided with the puddler in the stirring feed bin down, the puddler is fixed to be set up on rotatory cover, rotatory cover is connected with agitator motor through drive gear group, rotatory cover is established on the unloading screw rod, the unloading screw rod is connected with screw drive motor, still be provided with respirator, pan feeding mouth and manhole on the stirring feed bin down.

2. The heavy-duty full-automatic bowl loading machine for roller hearth furnaces according to claim 1, wherein the feed inlet is connected with a superior bunker through a star valve, and a level gauge is further arranged in the stirring bunker and is connected with the star valve in a matching manner.

3. The heavy-duty full-automatic bowl loading machine for roller hearth furnaces of claim 1, wherein the breather comprises a breathing shell, a dust cover is arranged at the top of the breathing shell, a hinge and a quick lock are arranged between the dust cover and the breathing shell, a breathing filter screen is arranged in the breathing shell, the breathing filter screen is connected with the inside of a stirring lower bin and the outside air, and a second pulse device is further arranged in the breathing shell.

4. The heavy-duty full-automatic bowl loading machine for roller furnaces according to claim 1, wherein the conveyor belt is provided with conveying guide wheels on both sides in the conveying direction, the guide wheels are arranged in the same direction as the conveying direction, the conveyor belt between the discharging opening and the jacking mechanism is further provided with a centering mechanism, the centering mechanism comprises a centering cylinder and a centering guide wheel arranged at the end part of the centering cylinder, the setting direction of the centering guide wheel is the same as the jacking direction, and the conveyor belt is further provided with a blocking mechanism arranged in the conveying direction of the conveyor belt.

5. The heavy-duty full-automatic bowl loading machine for roller hearth furnaces of claim 1, wherein the jacking mechanism comprises a jacking platform, a plurality of jacking parts are arranged on the surface of the jacking platform, the jacking parts penetrate through a conveyor belt to be abutted with the bottom of a bowl body, the bottom of the jacking platform is connected with a jacking bottom plate through a weighing sensor, and a guide assembly and a screw rod lifting mechanism are arranged at the bottom of the jacking bottom plate.

6. The heavy weight and heavy load fully automatic bowl loader for roller ovens of claim 1, wherein the vacuum interface is connected to a vacuum pump through an external filter.

7. The heavy-duty full-automatic bowl loading machine for roller hearth furnaces according to claim 1, wherein one or more high-pressure interfaces are arranged on the outer wall of the installation barrel and are in through connection with the airflow space.