CN108673725B - Ceramic forming automatic circulation equipment - Google Patents

Abstract

The invention discloses ceramic forming automatic circulation equipment, which structurally comprises a placing cylinder, a first baking furnace, a sensor, an automatic device, a feeding belt, a feeding shaft, a feeding deflector rod, a rolling shaft, a rolling motor, a discharging shaft, a rolling connecting block, a grinding plug, an anti-sticking cylinder, a discharging belt, a heat-conducting pipe, a communicating pipe and a second baking furnace, wherein the first baking furnace and the second baking furnace are arranged on a conveying belt, so that a paste mold is more convenient to dry and process, instability of the deflector rod in pushing and processing distance of the paste mold is avoided through mechanical swing arm actions of the feeding device, the discharging device and a lifting device, and the swing arm angle of the feeding deflector rod can be changed through adjusting the installation position of a feeding fixing screw in a feeding adjusting groove block.

Description

Ceramic forming automatic circulation equipment

Technical Field

The invention relates to automatic circulation equipment for ceramic molding, and belongs to the field of ceramics.

Background

Ceramic processing is a special case of machining ceramic materials, and a general machining workshop does not have the capability of ceramic processing.

But when this prior art used the cylinder to carry out the propelling movement to the cream mould, the atmospheric pressure state was not stable enough, made the cylinder push rod push distance and set for the distance and produce the deviation easily, and the cream mould is pasted on the mill easily, leads to the fact the rising of processing rejection rate, and the cylinder push rod needs to retrieve the punching press after the release, has reduced production efficiency, needs to spend too much manpower, and is inefficiency moreover, the yield is also not high.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide the ceramic forming automatic circulation equipment, so as to solve the problems that when a cylinder is used for pushing a paste mold, the air pressure state is not stable enough, the pushing distance of a cylinder push rod is easy to deviate from the set distance, the paste mold is easy to adhere to a grinding plug, the processing rejection rate is increased, the cylinder push rod needs to be recycled and punched after being pushed out, the production efficiency is reduced, too much labor is required, the efficiency is low, and the yield is not high.

In order to achieve the above object, the present invention is realized by the following technical scheme: the utility model provides a ceramic molding automatic cycle equipment, its structure includes places a section of thick bamboo, first baker, sensor, automatic device, feeding area, feeding axle, feeding driving lever, roll extrusion axle, roll extrusion motor, ejection of compact axle, roll extrusion connecting block, rub the stopper, prevent being stained with a section of thick bamboo, ejection of compact area, heat pipe, communicating pipe, second baker, heater, base, control button, ejection of compact driving lever, rack, gear box, place the section of thick bamboo and install in the upper end of grinding the stopper, first baker bottom is connected with the feeding area top, the sensor is installed in the feeding area upper end, control button embedding is installed on the automatic device surface, the feeding axle is on the coplanar with the ejection of compact axle, the feeding driving lever is on the coplanar with ejection of compact driving lever, the end is connected with the ejection of compact driving lever, the rolling motor end is on the same plane, the bottom of the driving lever is connected with the ejection of compact axle, the bottom of the elevating gear box is arranged on the same plane with the first baker bottom, the bottom of the driving lever is parallel to the feeding device, the bottom of the elevating gear box is arranged on the surface of the same plane with the first baker, the bottom of the driving lever is connected with the top of the rolling motor, the bottom of the rolling connection block, the top is embedded in the bottom of the rolling connection block, the left end is welded with the right end of the left end of the protection of the section of thick bamboo is on the same plane with the same plane, the anti-sticking cylinder consists of a spring, an inner cylinder and a shell, the top end of the spring is connected with the inner cylinder, the spring and the inner cylinder are mounted on the inner surface of the shell together, the gear box consists of a rack rotating shaft, a small motor and a gear, the rack rotating shaft is driven by the small motor, the rack rotating shaft is inserted into the gear, and the gear is meshed with the rack.

In order to optimize the technical scheme, the further measures are as follows:

according to a preferred mode, feed arrangement comprises feeding motor, feeding set screw, feeding connection screw, feeding pivot, first screw, feeding push rod, first pivot, feeding adjustment tank piece, feeding connecting rod, feeding motor installs in first pivot bottom, feeding set screw embedding feeding adjustment tank piece recess, feeding set screw top welds with feeding connection screw bottom mutually, feeding pivot and feeding axle are on same axis, feeding pivot and feeding push rod are fixed through first screw, inside first pivot embedding feeding adjustment tank piece, feeding push rod connects first screw and feeding connection screw, feeding pivot and feeding driving lever are integrated structure, feeding connecting rod top welds with feeding pivot bottom mutually.

According to a preferred mode, discharging device comprises ejection of compact motor, second pivot, ejection of compact fixed screw, ejection of compact connecting screw, ejection of compact pivot, ejection of compact push rod, ejection of compact adjustment tank piece, ejection of compact reducing gear box, second screw, ejection of compact motor right-hand member embedding is installed in ejection of compact reducing gear box left end, the second pivot is on same axis with ejection of compact reducing gear box, ejection of compact fixed screw embedding is installed in ejection of compact adjustment tank piece inside, ejection of compact connecting screw bottom welds with ejection of compact fixed screw top mutually, ejection of compact push rod is used for connecting ejection of compact connecting screw and second screw, the second pivot embedding is installed in ejection of compact adjustment tank piece inside, second pivot is parallel with ejection of compact fixed screw mutually, ejection of compact pivot and ejection of compact axle are integrated structure, ejection of compact connecting rod top welds with ejection of compact pivot bottom mutually.

According to a preferred mode, elevating gear comprises lift pivot pole, lift reducing gear box, lift connecting rod, first fixed axle, lift lug, pole setting, fixed block, fixed axle sleeve, lifter, elevator motor, controller, second fixed axle, the lift pivot pole end is connected with the lift connecting rod, the lift reducing gear box is installed in elevator motor upper end, the lift connecting rod is used for connecting lift pivot pole and lifter, the second fixed axle embedding is installed between lift pivot pole and lift connecting rod, first fixed axle embedding is installed between lift connecting rod and lifter, lifter right side lower extreme and pole setting bottom are welded mutually, the controller passes through the wire electricity with elevator motor and is connected, the lift lug embedding is installed in with place a bottom, pole setting and place a section of thick bamboo on same axis.

The ceramic forming automatic circulation equipment has the beneficial effects that: pressing control button starts sensor and auto-device, packs the cream mould by the manual work on first baker right side, let the cream mould dry through first baker, when the sensor detects the certain position of cream mould on the feeding area, the feeding driving lever pushes the cream mould to place in the section of thick bamboo, place the section of thick bamboo chassis and receive auto-device effect and will descend, the roll extrusion motor will utilize the roll extrusion axle to use the grinding to process the cream mould, prevent being stained with the section of thick bamboo and avoid the cream mould to be stained with the grinding, after the processing is accomplished, auto-device will place the section of thick bamboo chassis and raise again, install the gear box on the ejection of compact driving lever will extend the rack, the ejection of compact driving lever is influenced by auto-device, sweep the cream mould that will process on the feeding belt, carry out the second stoving by the ejection of compact area to the second baker, the heater ingress pipe utilizes with communicating pipe realization first baker and the heat circulation of second baker.

According to the automatic ceramic molding circulation equipment, the first baking furnace and the second baking furnace are arranged on the conveyor belt, so that the paste mold is dried and processed conveniently, the instability of pushing processing distance of the stirring rod to the paste mold is avoided through the action of the mechanical swing arms of the feeding device, the discharging device and the lifting device, the swing arm angle of the feeding stirring rod can be changed through adjusting the installation position of the feeding fixing screw on the feeding adjusting groove block, when the feeding stirring rod swings, the rack driven by the discharging stirring rod pushes the paste mold, the feeding stirring rod can push the new paste mold into the placing cylinder for processing without waiting for complete retraction of the discharging stirring rod due to the retractility of the rack, the processing efficiency is improved, and the paste mold is prevented from being attached to the grinding plug through the anti-sticking cylinder.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the following detailed description of the drawings in the description of the embodiments will be presented, so that other features, objects and advantages of the present invention will become more apparent:

FIG. 1 is a schematic view of an automatic circulation device for ceramic molding according to the present invention.

Fig. 2 is a schematic diagram of a partial structure of an automatic circulation device for ceramic molding according to the present invention.

Fig. 3 is a schematic view of the internal structure of the robot of the present invention.

Fig. 4 is a schematic view of the internal structure of the feeding device of the present invention.

Fig. 5 is a schematic view of the internal structure of the discharging device of the present invention.

Fig. 6 is a schematic view of the internal structure of the lifting device of the present invention.

Fig. 7 is a schematic view of the internal structure of the anti-sticking barrel of the present invention.

Fig. 8 is a schematic view of the internal structure of the gear case of the present invention.

Reference numerals illustrate: placing cylinder-1, first drying furnace-2, sensor-3, automatic device-4, feeding belt-5, feeding shaft-6, feeding deflector rod-7, rolling shaft-8, rolling motor-9, discharging shaft-10, rolling connecting block-11, grinding plug-12, anti-sticking cylinder-13, discharging belt-14, heat conducting tube-15, communicating tube-16, second drying furnace-17, heater-18, base-19, control button-20, discharging deflector rod-21, rack-22, gear box-23, feeding device-41, discharging device-42, lifting device-43, feeding motor-411, feeding fixing screw-412, feeding connecting screw-413, feeding rotating shaft-414, first screw-415 the feeding push rod-416, the first rotating shaft-417, the feeding adjusting groove block-418, the feeding connecting rod-419, the discharging motor-421, the second rotating shaft-422, the discharging fixing screw-423, the discharging connecting screw-424, the discharging rotating shaft-425, the discharging push rod-426, the discharging adjusting groove block-427, the discharging reduction gearbox-428, the second screw-429, the discharging connecting rod-4210, the lifting rotating shaft rod-431, the lifting reduction gearbox-432, the lifting connecting rod-433, the first fixing shaft-434, the lifting lug-435, the vertical rod-436, the fixing block-437, the fixing shaft sleeve-438, the lifting rod-439, the lifting motor-4310, the controller-4311, the second fixing shaft-4312, the spring-131, the lifting gear box-428, the device comprises an inner cylinder-132, a shell-133, a rack rotating shaft-231, a small motor-232 and a gear-233.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Referring to fig. 1-8, the present invention provides an automatic circulation device for ceramic molding: the structure comprises a placing cylinder 1, a first baking furnace 2, a sensor 3, an automatic device 4, a feeding belt 5, a feeding shaft 6, a feeding deflector rod 7, a rolling shaft 8, a rolling motor 9, a discharging shaft 10, a rolling connecting block 11, a grinding plug 12, an anti-sticking cylinder 13, a discharging belt 14, a heat conduction pipe 15, a communicating pipe 16, a second baking furnace 17, a heater 18, a base 19, a control button 20, a discharging deflector rod 21, a rack 22 and a gear box 23, wherein the placing cylinder 1 is arranged at the upper end of the grinding plug 12, the bottom end of the first baking furnace 2 is connected with the top end of the feeding belt 5, the sensor 3 is arranged at the upper end of the feeding belt 5, the control button 20 is embedded and arranged on the surface of the automatic device 4, the feeding shaft 6 and the discharging shaft 10 are arranged on the same plane, the feeding deflector rod 7 and the discharging deflector rod 21 are on the same plane, the tail end of the rolling motor 9 is connected with the head end of the rolling shaft 8, the top end of the grinding plug 12 is embedded and arranged at the bottom end of the rolling connecting block 11, the left end of the anti-sticking cylinder 13 is welded with the right end of the rolling connecting block 11, the discharging belt 14 and the feeding belt 5 are arranged on the same plane, the tail end of the heat conducting pipe 15 is connected with the heater 18, the communicating pipe 16 is arranged between the second drying furnace 17 and the first drying furnace 2, the second drying furnace 17 and the first drying furnace 2 are arranged on the same plane, the base 19 is arranged at the lower end of the feeding belt 5, the control button 20 is embedded and arranged on the surface of the automatic device 4, the head end of the discharging deflector rod 21 is welded with the surface of the discharging shaft 10, the rack 22 and the discharging deflector rod 21 are mutually parallel, the rack 22 is embedded and arranged in the gear box 23, the automatic device 4 consists of a feeding device 41, a discharging device 42 and a lifting device 43, a driving motor of the feeding device 41 and a driving motor of the discharging device 42 are arranged on the same plane, the top end of the feeding device 41 is welded with the bottom end of the feeding shaft 6, the top end of the discharging device 42 is welded with the bottom end of the discharging shaft 10, the right upper end of the lifting device 43 is connected with the bottom end of the placing cylinder 1, the anti-sticking cylinder 13 consists of a spring 131, an inner cylinder 132 and a shell 133, the top end of the spring 131 is connected with the inner cylinder 132, the spring 131 and the inner cylinder 132 are jointly installed on the inner surface of the shell 133, the gear box 23 consists of a rack rotating shaft 231, a small motor 232 and a gear 233, the rack rotating shaft 231 is driven by the small motor 232, the rack rotating shaft 231 is inserted into the gear 233, the gear 233 is meshed with the rack 22, the feeding device 41 consists of a feeding motor 411, a feeding fixing screw 412, a feeding connecting screw 413, a feeding rotating shaft 414, a first screw 415, a feeding push rod 416, a first rotating shaft 417 and a feeding adjusting groove block 418, the feeding motor 411 is arranged at the bottom end of the first rotating shaft 417, the feeding fixing screw 412 is embedded into the groove of the feeding adjusting groove block 418, the top end of the feeding fixing screw 412 is welded with the bottom end of the feeding connecting screw 413, the feeding rotating shaft 414 and the feeding shaft 6 are on the same axis, the feeding rotating shaft 414 and the feeding push rod 416 are fixed through the first screw 415, the first rotating shaft 417 is embedded into the feeding adjusting groove block 418, the feeding push rod 416 is connected with the first screw 415 and the feeding connecting screw 413, the feeding rotating shaft 414 and the feeding deflector 7 are of an integrated structure, the top end of the feeding connecting rod 419 is welded with the bottom end of the feeding rotating shaft 414, the discharging device 42 consists of a discharging motor 421, a second rotating shaft 422, a discharging fixing screw 423, a discharging connecting screw 424, a discharging rotating shaft 425, a discharging push rod 426, a discharging adjusting groove block 427, a discharging reduction box 428 and a second screw 429, the right end of the discharging motor 421 is embedded and arranged at the left end of the discharging reduction gearbox 428, the second rotating shaft 422 and the discharging reduction gearbox 428 are arranged on the same axis, the discharging fixing screw 423 is embedded and arranged inside the discharging adjusting groove block 427, the bottom end of the discharging connecting screw 424 is welded with the top end of the discharging fixing screw 423, the discharging push rod 426 is used for connecting the discharging connecting screw 424 and the second screw 429, the second rotating shaft 422 is embedded and arranged inside the discharging adjusting groove block 427, the second rotating shaft 422 and the discharging fixing screw 423 are parallel to each other, the discharging rotating shaft 425 and the discharging shaft 10 are arranged on the same axis, the discharging rotating shaft 425 and the discharging deflector rod 21 are of an integrated structure, the top end of the discharging connecting rod 4210 is welded with the bottom end of the discharging rotating shaft 425, the lifting device 43 comprises a lifting rotating shaft 431, a lifting reduction gearbox 432, a lifting connecting rod 433, a first fixed shaft 434, a lifting lug 435, a vertical rod 436, a fixed block 437, a fixed shaft sleeve 438, a lifting rod 439, a lifting motor 4310, a controller 4311 and a second fixed shaft 4312, wherein the tail end of the lifting rotating shaft 431 is connected with the lifting connecting rod 433, the lifting reduction gearbox 432 is arranged at the upper end of the lifting motor 4310, the lifting connecting rod 433 is used for connecting the lifting rotating shaft 431 and the lifting rod 439, the second fixed shaft 4312 is embedded and arranged between the lifting rotating shaft 431 and the lifting connecting rod 433, the first fixed shaft 434 is embedded and arranged between the lifting connecting rod 433, the right lower end of the lifting rod 439 is welded with the bottom end of the vertical rod 436, the controller 4311 is electrically connected with the lifting motor 4310 through a wire, the lifting lug 435 is embedded and arranged at the bottom end of the placing cylinder 1, the vertical rod 436 and the placing cylinder 1 are on the same axis, and the anti-sticking cylinder 13 is formed by a spring 131 and an inner cylinder 132, the top of the spring 131 is connected with the inner cylinder 132, the spring 131 and the inner cylinder 132 are mounted on the inner surface of the housing 133 together, the gear box 23 is composed of a rack rotating shaft 231, a small motor 232 and a gear 233, the rack rotating shaft 231 is driven by the small motor 232, the rack rotating shaft 231 is inserted into the gear 233, and the gear 233 is meshed with the rack 22.

The use principle is as follows: placing the paste mould on a conveyor belt on the right side of a first oven 2, heating the air temperature by a heater 18 and leading the hot air into the first oven 2 through a heat pipe 15 to dry and evaporate the paste mould for the first time when the paste mould passes through the first oven 2, leading the hot air into a second oven 17 through a discharging belt 14 after the equipment is processed, arranging a communicating pipe 16 between the second oven 17 and the first oven 2, enabling the hot air to flow between the second oven 17 and the first oven 2, causing thermodynamic cycle, after the paste mould is dried by the second oven 17, moving the paste mould to a sensor 3 through a feeding belt 5, checking the sensor 3 to approach the paste mould, controlling the movement of the feeding belt 5 by a controller 4311, simultaneously starting a feeding motor 411, inserting the rotary shaft of the feeding motor 411 into a reduction gearbox, extending a first rotary shaft 417, embedding the first rotary shaft 417 into a tail end groove of a feeding adjusting groove block 418, enabling a feeding adjusting groove block 418 to rotate with a tail end as a tail end, driving screw 412 to be fixedly connected with a feeding screw, driving screw 412 to a feeding groove 418 to be fixedly connected with a feeding groove 413, a screw connecting rod 413 to be connected with the feeding groove 416, a feeding groove 413 is also rotatably connected with the feeding groove 413, a screw connecting rod 413 is rotatably connected with the tail end of the feeding groove 416, a screw connecting rod is rotatably connected with the feeding groove 413, and a screw rod 413 is rotatably connected with the tail end of the feeding groove 413, the controller 4311 starts the lifting motor 4310, the lifting rotating shaft 431 rotates around the rotating shaft of the lifting reducing gear box 432 through the connected lifting reducing gear box 432, the first fixed shaft 434 is inserted into the lifting connecting rod 433 and the lifting rod 439, the second fixed shaft 4312 is inserted into the lifting rotating shaft 431 and the lifting connecting rod 433, when the lifting rotating shaft 431 starts rotating, the lifting rod 439 is limited by the fixed shaft sleeve 438 to realize lifting reciprocating motion, the lifting lug 435 is connected with the vertical rod 436 and the lifting lug 435 through the lifting rod 439, the lifting lug 435 is lifted, when the paste mould is pushed onto the placing cylinder 1 by the feeding deflector 7, the chassis of the placing cylinder 1 connected with the lifting lug 435 moves downwards, the paste mould is placed on the inner surface of the placing cylinder 1, the rolling motor 9 drives the grinding plug 12 to rotate, the grinding plug 12 is machined by the rolling shaft 8, after machining is finished, the grinding plug 12 moves upwards, the grinding plug 12 is not prevented from being stuck to the paste mould, the spring 131 leans against the shell 133 to eject the inner cylinder 132, the paste mould is fixed in the placing cylinder 1 by the inner cylinder 132, the lifting lug 435 ejects the paste mould again to the upper surface of the placing cylinder 1, the discharging motor 421 started by the controller 4311 is inserted into the discharging reduction gearbox 428 to extend out the second rotating shaft 422, the second rotating shaft 422 is embedded into the groove at the head end of the discharging adjusting groove block 427, when the second rotating shaft 422 rotates, the discharging adjusting groove block 427 rotates by taking the head end as a fulcrum, the discharging fixing screw 423 is fixed at the tail end of the discharging adjusting groove block 427 and the top end of the discharging fixing screw 423 is connected with the discharging connecting screw 424, the discharging fixing screw 423 and the discharging connecting screw 424 also rotate by the head end of the discharging adjusting groove block 427, the discharging adjusting groove block 426 is connected with the discharging connecting screw 424, the discharging push rod 426 is connected with the discharging connecting rod 4210 again, so that when the discharging push rod 426 rotates by taking the head end of the discharging adjusting groove block 427 as the center, the discharging push rod 426 draws an arc at the joint of the discharging push rod 4210 and the discharging connecting screw 424, the discharging push rod 4210 is in reciprocating pushing motion, the discharging push rod 4210 and the discharging push rod 21 are connected through the discharging rotating shaft 425, so that the discharging push rod 21 performs reciprocating swing arm action, as the gear box 23 and the rack 22 are installed on the discharging push rod 21, the small motor 232 is started to enable the gear 233 to perform decelerating rotation when the discharging push rod 21 is about to push a paste mould, the gear 233 is meshed with the rack 22, the rack 22 is extended from inside to outside, the paste mould is moved to the discharging belt 14 by extending the length of the rack 22, the small motor 232 is reversed when the discharging push rod 21 performs swing arm recovery action, the rack 22 is contracted from outside to inside, the rack 22 is continuously pushed into the placing cylinder 1 when the rack 22 is retracted, the new paste mould is prevented from being touched by the rack 22, the feeding device 41 is provided with the lifting device 43, the two switches are arranged for making the two adjacent rolling positions to the rolling roller position, and the two adjacent rolling position positions are respectively used for rolling the rolling position and the two adjacent to the rolling position of the rolling position.

According to the invention, the first baking furnace and the second baking furnace are arranged on the conveyor belt to enable the paste mould to be dried and processed more conveniently, the mechanical swing arms of the feeding device, the discharging device and the lifting device act to avoid instability of pushing distance of the stirring rod to the paste mould, the installation position of the feeding fixing screw on the feeding adjusting groove block can be adjusted to change the swing arm angle of the feeding stirring rod, when the feeding stirring rod swings, the rack driven by the discharging stirring rod pushes the paste mould, the feeding stirring rod can push the new paste mould into the placing cylinder for processing because of the retractility of the rack, the paste mould can be pushed into the placing cylinder again without waiting for complete retraction of the discharging stirring rod, the processing efficiency is increased, the paste mould is prevented from being attached to the grinding plug by the anti-sticking cylinder, so that when the paste mould is pushed by using the air cylinder, the pushing distance of the air cylinder is easily deviated from the set distance, the paste mould is easily stuck on the grinding plug, the processing rate is increased, the air cylinder pushing rod is required to be stamped after pushing, the paste mould production efficiency is reduced, the production cost is reduced, and the manual work efficiency is low, and the processing rate is not high.

The feeding motor 411, the discharging motor 421 and the lifting motor 4310 adopt a motor with the model number of 6IK250W-S3F-A1-M-G, the motor has stable structure, low noise and long service life, and the discharging reduction gearbox 428 and the lifting reduction gearbox 432 adopt a reduction gearbox with NMRV/50, and the reduction gearbox has small volume, stable rotating speed and low noise.

The specific embodiments described herein are offered by way of example only. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the scope of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (2)

1. Ceramic forming automatic cycle equipment, characterized in that equipment body, equipment body is by placing a section of thick bamboo (1), first baker (2), sensor (3), auto-device (4), feeding area (5), feeding axle (6), feeding driving lever (7), roll extrusion axle (8), roll extrusion motor (9), ejection of compact axle (10), roll extrusion connecting block (11), rub plug (12), prevent being stained with a section of thick bamboo (13), ejection of compact area (14), heat pipe (15), communicating pipe (16), second baker (17), heater (18), base (19), control button (20), ejection of compact driving lever (21), rack (22), gear box (23) are constituteed:

the device comprises a first drying furnace (2), a sensor (3), a control button (20), a heat conducting pipe (15), a heater (18), a communicating pipe (16), a second drying furnace (17) and a first drying furnace (2), wherein the placing cylinder (1) is arranged at the upper end of a grinding plug (12), the bottom end of the first drying furnace (2) is connected with the top end of a feeding belt (5), the sensor (3) is arranged at the upper end of the feeding belt (5), the control button (20) is embedded and arranged on the surface of the automatic device (4), the feeding shaft (6) and the discharging shaft (10) are arranged on the same plane, the feeding deflector rod (7) and the discharging deflector rod (21) are arranged on the same plane, the tail end of a rolling motor (9) is connected with the head end of the rolling shaft (8), the top end of the grinding plug (12) is embedded and arranged at the bottom end of a rolling connecting block (11), the left end of a anti-sticking cylinder (13) is welded with the right end of the rolling connecting block (11), the discharging belt (14) and the feeding belt (5) are arranged on the same plane, the tail end of the heat conducting pipe (15) is connected with the heater (18), the communicating pipe (16) is arranged between the second drying furnace (17) and the first drying furnace (2) and the same plane, the first drying furnace (17) and the upper end of the automatic device (20) is welded with the upper end of the automatic device (20), the rack (22) is parallel to the discharging deflector rod (21), and the rack (22) is embedded and arranged in the gear box (23);

the automatic device (4) consists of a feeding device (41), a discharging device (42) and a lifting device (43);

the driving motor of the feeding device (41) and the driving motor of the discharging device (42) are placed on the same plane, the top end of the feeding device (41) is welded with the bottom end of the feeding shaft (6), the top end of the discharging device (42) is welded with the bottom end of the discharging shaft (10), and the right upper end of the lifting device (43) is connected with the bottom end of the placing cylinder (1);

the anti-sticking cylinder (13) consists of a spring (131), an inner cylinder (132) and a shell (133);

the top end of the spring (131) is connected with the inner cylinder (132), and the spring (131) and the inner cylinder (132) are jointly installed on the inner surface of the shell (133);

the gear box (23) consists of a rack rotating shaft (231), a small motor (232) and a gear (233);

the rack rotating shaft (231) is driven by a small motor (232), the rack rotating shaft (231) is inserted into the gear (233), and the gear (233) is meshed with the rack (22);

the feeding device (41) is composed of a feeding motor (411), a feeding fixing screw (412), a feeding connecting screw (413), a feeding rotating shaft (414), a first screw (415), a feeding push rod (416), a first rotating shaft (417), a feeding adjusting groove block (418) and a feeding connecting rod (419), wherein the feeding motor (411) is arranged at the bottom end of the first rotating shaft (417), the feeding fixing screw (412) is embedded into a groove of the feeding adjusting groove block (418), the top end of the feeding fixing screw (412) is welded with the bottom end of the feeding connecting screw (413), the feeding rotating shaft (414) and the feeding shaft (6) are on the same axis, the feeding rotating shaft (414) and the feeding push rod (416) are fixed through the first screw (415), the first rotating shaft (417) is embedded into the feeding adjusting groove block (418), the feeding push rod (416) is connected with the first screw (415), the feeding rotating shaft (414) and the feeding deflector rod (7) are of an integrated structure, and the top end (414) and the bottom end (419) are welded with the rotating shaft (6);

the utility model discloses a device for discharging a material, including ejection of compact motor (421), second pivot (422), ejection of compact fixed screw (423), ejection of compact connecting screw (424), ejection of compact pivot (425), ejection of compact push rod (426), ejection of compact regulating groove piece (427), ejection of compact reducing gear box (428), second screw (429), ejection of compact connecting rod (4210) are constituteed, ejection of compact motor (421) right-hand member embedding is installed in ejection of compact reducing gear box (428) left end, second pivot (422) and ejection of compact reducing gear box (428) are on same axis, ejection of compact fixed screw (423) embedding is installed in ejection of compact regulating groove piece (427) inside, ejection of compact connecting screw (424) bottom and ejection of compact fixed screw (423) top phase welding, ejection of compact push rod (426) are used for connecting ejection of compact connecting screw (424) and second screw (429), second pivot (422) embedding is installed in ejection of compact regulating groove piece (427) inside, second pivot (422) are parallel to each other with ejection of compact fixed screw (423), ejection of compact pivot (425) and ejection of compact axle (10) are ejection of compact pivot (21) and ejection of compact driving rod (425) phase welding top end (425) and ejection of compact structure.

2. The ceramic molding automatic cycle equipment of claim 1, wherein: lifting device (43) are by lift pivot pole (431), lift reducing gear box (432), lift connecting rod (433), first fixed axle (434), lift lug (435), pole setting (436), fixed block (437), fixed axle sleeve (438), lift pole (439), lift motor (4310), controller (4311), second fixed axle (4312) are constituteed, lift pivot pole (431) end is connected with lift connecting rod (433), lift reducing gear box (432) are installed in lift motor (4310) upper end, lift connecting rod (433) are used for connecting lift pivot pole (431) and lift pole (439), second fixed axle (4312) embedding is installed between lift pivot pole (431) and lift connecting rod (433), first fixed axle (434) embedding is installed between lift connecting rod (433) and lift pole (439), lift pole (439) right-hand member lower extreme and pole setting (436) bottom are welded, controller (4311) are connected through wire electricity with lift motor (4310), lift lug (435) embedding is installed in a section of thick bamboo (436) and is placed in a section of thick bamboo (436) bottom and a section of thick bamboo (1).