CN220282865U - Full-automatic feeding device - Google Patents

Abstract

The utility model discloses a full-automatic feeding device, and relates to the technical field of glass processing. The utility model comprises a storage box, a control box and a ceramic feeding pipe, wherein a crushing roller is penetrated and clamped at one side of the storage box, a discharging pipe is penetrated and welded at the bottom of the storage box, a capacity control plate is welded and fixed at the bottom of the peripheral surface of the discharging pipe, the control box is arranged at the bottom of the storage box, an exhaust fan is arranged at the bottom of the control box, one side of the storage box is provided with the ceramic feeding pipe, a plurality of conveying hoses are arranged at the edge of the top of the ceramic feeding pipe, and a lifting cylinder is arranged at the center of the top of the ceramic feeding pipe. According to the utility model, the storage box, the control box and the ceramic feeding pipe are arranged, so that the problems that the moving device of the automatic feeding device is large in size, the reasonable layout of the space in a production workshop is inconvenient, raw materials need to be pretreated before being poured into a storage bin for storage, and errors are easy to occur when the raw materials are weighed by using the pressure sensor are solved.

Description

Full-automatic feeding device

Technical Field

The utility model belongs to the technical field of glass processing, and particularly relates to a full-automatic feeding device.

Background

Glass, amorphous inorganic nonmetallic material, generally use many inorganic minerals as the main raw materials, add a small amount of auxiliary raw materials to make in addition, the main ingredient is silica and other oxides, it is amorphous solid of a irregular structure, glass is widely used in the building, used for isolating wind and transmitting light, also used in fields such as art, medical treatment, chemistry, electron, instrument, etc., after raw materials are mixed, melted and homogenized at high temperature in the production process of glass, process into appointed shape as required, then anneal, in the process of mixing and high-temperature melting, because the temperature of the smelter is extremely high, generally need to set up the feeding device to carry on feeding, raise the production efficiency, reduce the potential safety hazard, but it still has the following drawbacks in the actual use:

the utility model discloses an automatic feeder for a glass kiln, which is disclosed in the publication No. CN204058224U, wherein a bracket is arranged at the upper part of a supporting column, a large bin is fixed on the bracket, a storage hopper is fixedly arranged at the upper end of a small moving device, a conveying groove is fixedly arranged on the small moving device, a vibrator is arranged at the bottom of the end of the conveying groove, the small moving device is arranged on a large moving device, the large moving device is arranged on a guide rail, the working temperature of the glass kiln is extremely high, the deformation and damage of a material conveying structure caused by long-time working at high temperature are avoided, normal use is influenced, the storage hopper is moved through the moving device, and vibration material conveying is carried out after one end of the material conveying groove reaches a material receiving position, so that the automatic feeder can be prevented from being exposed to high temperature for a long time, but in actual use, the storage hopper is limited in raw materials which can be loaded, and the raw materials required for single glass processing are usually more, the storage hopper and the moving device are relatively large in volume, the space utilization rate is reduced, meanwhile, various raw materials and auxiliary materials are required for glass processing are required, in the large bin are required to be quantitatively added into the storage hopper, the large bin and the material conveying structure is not required to be reasonably arranged, and the production space is not required to be increased, and the production space is not required to be reasonably arranged;

before charging, the raw materials of glass generally need to be treated to a certain extent, and staff often need to smash the bulk raw materials through preprocessing device at first, transport to the feed bin in store and transport, reduce the degree of automation of device, and charging device carries out accurate weighing to various raw materials through pressure sensor's structure as weighing device generally, guarantee the accuracy of ratio, but pressure sensor belongs to comparatively accurate structure, leads to damaging easily and weigh the error appearing when weighing a large amount of raw materials for a long time, reduction in production efficiency.

Disclosure of Invention

The utility model aims to provide a full-automatic feeding device, which solves the problems that a moving device of the full-automatic feeding device needs to be capable of loading a large amount of raw materials, the moving device needs to convey the raw materials with a plurality of bins, the size of the device is large, the reasonable layout of the space in a production workshop is inconvenient, the raw materials need to be pretreated before being poured into the bins for storage, and errors easily occur when the raw materials are weighed by using a pressure sensor.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a full-automatic feeding device, which comprises a storage box, a control box and a ceramic feeding pipe, wherein one side of the storage box is penetrated and clamped with a crushing roller, a worker can directly pour a large amount of massive raw materials to the inner side of the storage box, the massive raw materials can be crushed and stored through the crushing roller, the automation degree of the device is improved, a discharging pipe is penetrated and welded at the bottom of the storage box, a capacity control plate is welded and fixed at the bottom of the peripheral surface of the discharging pipe, the control box is arranged at the bottom of the storage box, when the control box moves up and down, the capacity in the control box can be adjusted through the capacity control plate, the amount of raw materials conveyed at one time is controlled through the adjustment of the capacity, a pressure sensor and the like are not required to be arranged for weighing, and whether weighing errors are caused by faults can be rapidly judged according to the relative positions between the discharging pipe and the control box, the production efficiency is improved, the exhaust fan is arranged at the bottom of the control box, a ceramic feeding pipe is arranged at one side of the storage box, a plurality of conveying hoses are arranged at the top edge of the ceramic feeding pipe, crushed raw materials can be pumped to the inner side of the conveying hoses through the exhaust fan, the raw materials are conveyed to the ceramic feeding pipe through the conveying hoses to be fed, the conveying hoses can be installed according to requirements, such as the conveying hoses are installed on ceilings and the like through limiting components, the space utilization rate is improved, the reasonable layout of the space in a production workshop is facilitated, the structure is simple, the cost is low, the disassembly and assembly are convenient, the maintenance cost and the difficulty are reduced, a lifting cylinder is arranged at the center of the top of the ceramic feeding pipe, the ceramic insertion pipe is fixed at the bottom of the ceramic feeding pipe, the lifting cylinder can drive the ceramic feeding pipe to move upwards when the feeding is not needed, the conveying hoses and the ceramic feeding pipe are far away from the high-temperature kiln, avoiding the reduction of the service life of the conveying hose and the ceramic feeding pipe caused by high temperature.

Further, a hopper is welded at the top of the storage box in a penetrating manner, a supporting frame is welded and fixed at the periphery of the bottom of the storage box, a transmission assembly is fixedly clamped at one side of the storage box, one end of the crushing roller is rotatably clamped at one side of the transmission assembly, a crushing motor is clamped at the other side of the transmission assembly, and the crushing motor is in transmission connection with the crushing roller through the transmission assembly;

the grinding motor drives the grinding roller to rotate, raw materials poured into the storage box can be ground, the magnetic separation structure can be installed in the storage box as required, the raw materials are subjected to magnetic separation and impurity removal, and the automation degree of the device is improved.

Further, a chute is formed in the bottom of the inner side of the storage box, the chute is communicated with the inside of the discharge pipe in a penetrating manner, a sliding plate is connected to the inner side of the chute in a sliding manner, an opening and closing cylinder is connected to one end of the sliding plate in a sliding manner, and the opening and closing cylinder is connected to the outer side of the storage box in a penetrating manner;

can drive the slide through opening and close the cylinder and remove, open and close the discharging pipe, close the discharging pipe top when carrying out the feeding, avoid the raw materials in the storage case to fall to the control box in lead to the ratio to appear wrong.

Further, capacity control cylinders are slidably clamped on two sides of the control box and are clamped at the bottom of the storage box, the discharging pipe penetrates through and is inserted into the center of the top of the control box, and the capacity control plates are attached to the inner wall of the control box;

the capacity control cylinder drives the control box to move up and down, the position of the capacity control plate in the control box can be adjusted, the capacity in the control box is further adjusted, the raw material quantity which is once conveyed is controlled through the adjustment of the capacity, a pressure sensor and the like are not required to be arranged for weighing, whether the weighing error is caused by faults or not can be rapidly judged according to the relative position between the discharging pipe and the control box, and the production efficiency is improved.

Further, a connecting frame is welded on one side of the control box in a penetrating manner, an air filter element is inserted in the top of the connecting frame in a penetrating manner, a pneumatic valve is clamped on one side of the connecting frame in a penetrating manner, the connecting frame is positioned between the control box and the pneumatic valve, an electromagnetic valve is clamped on the bottom of the control box in a penetrating manner, an exhaust fan is clamped and fixed at the bottom of the electromagnetic valve, and a first threaded pipe is clamped and fixed at the bottom of the exhaust fan;

when the air exhauster drives air to flow, the air filter element can avoid impurities in the environment to enter the control box, and crushed raw materials can be pumped to the inner side of the conveying hose through the air exhauster, and then conveyed to the ceramic feeding pipe through the conveying hose for feeding.

Further, two ends of the conveying hose are respectively clamped and fixed with a second threaded pipe and a third threaded pipe, the edge of the top of the ceramic feeding pipe is fixed with a fourth threaded pipe, the second threaded pipe is screwed and fixed at the bottom of the outer peripheral surface of the first threaded pipe, and the third threaded pipe is screwed and fixed at the top of the outer peripheral surface of the fourth threaded pipe;

the conveying hose can be installed as required, if the conveying hose is installed in a ceiling and the like through the limiting assembly, the space utilization rate is improved, the space in the production workshop is conveniently and reasonably distributed, the conveying hose is simple in structure and low in cost, the disassembly and assembly are convenient, and the maintenance cost and difficulty are reduced.

Further, the top of the lifting cylinder is clamped with a mounting plate, the bottom of the lifting cylinder is slidably clamped with a telescopic pipe, the bottom of the telescopic pipe is clamped in the center of the top of the ceramic feeding pipe, a first material through hole is formed in the edge of the top of the ceramic feeding pipe in a penetrating mode, a second material through hole is formed in the edge of the top of the ceramic feeding pipe in a penetrating mode, one fourth threaded pipe is communicated with the inner side of the first material through hole in a penetrating mode, one first material through hole is communicated with the inner side of the second material through hole in a penetrating mode, and the bottoms of the inner sides of the second material through holes are communicated in a penetrating mode;

when need not carry out the feeding, the lift cylinder can drive ceramic inlet pipe and upwards move, makes delivery hose and ceramic inlet pipe keep away from high temperature kiln, avoids high temperature to lead to delivery hose and ceramic inlet pipe life's reduction, when needs carry out the feeding, drives ceramic inlet pipe and moves down until the feed inlet that ceramic intubate inserted the kiln, carries out quick feeding, and has avoided spilling over of powder raw materials in the feeding process.

The utility model has the following beneficial effects:

according to the utility model, the control box and the ceramic feeding pipe are arranged, so that the problem that the storage hopper is moved through the moving device, the vibration feeding is carried out after one end of the feeding groove reaches a material receiving position, the problem that the automatic feeding machine is exposed to high temperature for a long time can be solved, but in actual use, as the storage hopper is limited in raw materials which can be loaded, the raw materials required by single glass processing are usually more, the volume of the storage hopper and the moving device is larger, the space utilization rate is reduced, meanwhile, the glass processing needs multiple raw materials and auxiliary materials, the raw materials in the multiple large bins are required to be quantitatively fed into the storage hopper in feeding, the feeding structure is arranged between the multiple large bins and the storage hopper, the reasonable layout of the space in a production workshop is inconvenient, the problem that the production cost is greatly increased due to the arrangement of the multiple automatic feeding opportunities is solved, in mounting, the ceramic feeding pipe is arranged on the upper part of the feeding inlet of a kiln, the positions of the multiple storage boxes and the control box are reasonably laid out according to requirements, the multiple conveying hoses are connected between the multiple control boxes and one ceramic feeding pipe, and the positions of the multiple control boxes are required, and the conveying hoses are required to be regulated according to the requirements, and the positions of the conveying hoses are required to be arranged, and the raw materials are required to flow through a ceiling, and the air-limited air-type feeding machine is easy to carry out, and the raw materials and easy to be easily and convenient to be dismounted and maintained.

According to the utility model, by arranging the storage box and the control box, the problems that a certain treatment is usually required before the raw materials of glass are fed, a worker always needs to crush and remove impurities from a large block of raw materials through the pretreatment device and then transport the raw materials into the storage box for storage and transportation, the automation degree of the device is reduced, the feeding device usually takes a structure of a weighing device through a pressure sensor, various raw materials are accurately weighed, the proportioning accuracy is ensured, the pressure sensor belongs to a relatively precise structure, the raw materials are easily damaged and weighed when being weighed for a long time, the production efficiency is reduced, the raw materials can be crushed through the rotation of the crushing roller after being poured into the storage box, the subsequent transportation and processing are facilitated, the automation degree of the device is improved, the volume in the control box can be adjusted through a capacity control plate when the control box moves up and down, the raw materials which are once transported are controlled through the volume adjustment, the weighing is not required to be carried out through the pressure sensor, and the weighing error caused by the relative position between the discharging pipe and the control box can be rapidly judged whether the weighing error occurs or not.

Drawings

FIG. 1 is a structural effect diagram of the present utility model;

FIG. 2 is a block diagram of a bin of the utility model;

FIG. 3 is a cutaway exploded view of the bin of the utility model;

FIG. 4 is a block diagram of a control box of the present utility model;

FIG. 5 is a block diagram of a ceramic feed tube of the present utility model;

FIG. 6 is a cutaway exploded view of the ceramic feed tube of the present utility model.

Reference numerals:

1. a storage bin; 101. a hopper; 102. a support frame; 103. a discharge pipe; 104. a capacity control board; 105. a crushing motor; 106. a transmission assembly; 107. a pulverizing roller; 108. a slide plate; 109. a chute; 110. opening and closing the cylinder; 2. a control box; 201. a capacity control cylinder; 202. a connecting frame; 203. a pneumatic valve; 204. an air filter element; 205. an electromagnetic valve; 206. an exhaust fan; 207. a first threaded pipe; 3. a ceramic feed tube; 301. a conveying hose; 302. a ceramic cannula; 303. a second threaded tube; 304. a third threaded tube; 305. a lifting cylinder; 306. a mounting plate; 307. a telescopic tube; 308. a fourth threaded tube; 309. a first feed-through hole; 310. and a second material passing hole.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-6, the utility model is a full-automatic feeding device, comprising a storage box 1, a control box 2 and a ceramic feeding pipe 3, wherein one side of the storage box 1 is penetrated and clamped with a crushing roller 107, a worker conveys a large amount of massive raw materials to the inner side of the storage box 1, the massive raw materials are crushed and stored through the rotation of the crushing roller 107, a discharging pipe 103 is penetrated and welded at the bottom of the storage box 1, a capacity control plate 104 is welded and fixed at the bottom of the peripheral surface of the discharging pipe 103, the bottom of the storage box 1 is provided with the control box 2, the height of the control box 2 is adjusted according to the types of the raw materials and the amount of the raw materials required for producing glass, the volume in the control box 2 is adjusted through the capacity control plate 104, the amount of the raw materials conveyed at one time is controlled through the volume adjustment, an exhaust fan 206 is arranged at the bottom of the control box 2, one side of the storage box 1 is provided with the ceramic feeding pipe 3, the ceramic feeding pipe 3 top edge is provided with a plurality of conveying hoses 301, when carrying out the installation of device, according to the spatial layout in the workshop to carry out the restriction to the position of conveying hose 301, if install in the ceiling etc. through spacing subassembly, when carrying out the feeding, can take air into conveying hose 301 through the air exhauster 206, and carry powder raw materials through conveying hose 301 and carry out the feeding in ceramic feeding pipe 3 through the air flow drive, ceramic feeding pipe 3 top central authorities are provided with lift cylinder 305, ceramic feeding pipe 3 bottom is fixed with ceramic intubate 302, when not needing to carry out the feeding, lift cylinder 305 drives ceramic feeding pipe 3 and upwards moves, make conveying hose 301 and ceramic feeding pipe 3 keep away from the high temperature kiln, avoid the high temperature to lead to conveying hose 301 and ceramic feeding pipe 3 life's reduction.

As shown in fig. 1-3, a hopper 101 is welded at the top of the storage box 1 in a penetrating manner, a supporting frame 102 is welded and fixed at the periphery of the bottom of the storage box 1, a transmission assembly 106 is clamped and fixed at one side of the storage box 1, one end of a crushing roller 107 is rotationally clamped and connected at one side of the transmission assembly 106, a crushing motor 105 is clamped and connected at the other side of the transmission assembly 106, the crushing motor 105 is in transmission connection with the crushing roller 107 through the transmission assembly 106, a chute 109 is formed in the bottom of the inner side of the storage box 1, the chute 109 is communicated with a discharging pipe 103 in a penetrating manner, a sliding plate 108 is clamped and connected at the inner side of the chute 109 in a sliding manner, an opening and closing cylinder 110 is clamped and connected at one end of the sliding plate 108 in a sliding manner, and the opening and closing cylinder 110 is clamped at the outer side of the storage box 1 in a penetrating manner;

staff carries a large amount of raw materials to hopper 101 in, and the raw materials is in the storage case 1 internal storage of gravity whereabouts, closes hopper 101 and drives the rotation of crushing roller 107 through smashing motor 105, further smashes the raw materials, and can install the magnetic separation structure as required in storage case 1, carries out the magnetic separation to the raw materials and sieves impurity, when needs carry out the feeding, opens and closes cylinder 110 and drives slide 108 and remove and close discharging pipe 103, avoids raw materials in storage case 1 to fall to in the control box 2 and lead to the ratio to appear in error.

As shown in fig. 1 and 4, capacity control cylinders 201 are slidably clamped at two sides of a control box 2, the capacity control cylinders 201 are clamped at the bottom of a storage box 1, a discharge pipe 103 is inserted into the center of the top of the control box 2 in a penetrating manner, a capacity control plate 104 is attached to the inner wall of the control box 2, a connecting frame 202 is welded at one side of the control box 2 in a penetrating manner, an air filter element 204 is inserted into the top of the connecting frame 202 in a penetrating manner, a pneumatic valve 203 is clamped at one side of the connecting frame 202 in a penetrating manner, the connecting frame 202 is positioned between the control box 2 and the pneumatic valve 203, an electromagnetic valve 205 is clamped at the bottom of the control box 2 in a penetrating manner, an exhaust fan 206 is clamped and fixed at the bottom of the electromagnetic valve 205, and a first threaded pipe 207 is clamped and fixed at the bottom of the exhaust fan 206;

before glass processing, according to the type of raw materials and the amount of raw materials required for producing glass, the capacity control cylinder 201 drives the control box 2 to move up and down, the position of the capacity control plate 104 in the control box 2 is adjusted, the capacity in the control box 2 is further adjusted, the amount of raw materials conveyed once is controlled through the adjustment of the capacity, whether weighing errors are caused by faults or not can be rapidly judged according to the relative position between the discharge pipe 103 and the control box 2 in the glass processing process, during charging, the air exhauster 206 pumps air in the control box 2, external air enters the control box 2 under the action of air pressure through the pneumatic valve 203 and the air filter element 204, and drives powder raw materials to enter the inner side of the conveying hose 301, and then the powder raw materials are conveyed into the ceramic feeding pipe 3 through the conveying hose 301 for charging.

As shown in fig. 1, 5 and 6, two ends of a conveying hose 301 are respectively clamped and fixed with a second threaded pipe 303 and a third threaded pipe 304, the top edge of a ceramic feeding pipe 3 is fixed with a fourth threaded pipe 308, the second threaded pipe 303 is screwed and fixed at the bottom of the outer peripheral surface of a first threaded pipe 207, the third threaded pipe 304 is screwed and fixed at the top of the outer peripheral surface of the fourth threaded pipe 308, the top of a lifting cylinder 305 is clamped and fixed with a mounting plate 306, the bottom of the lifting cylinder 305 is slidably clamped and fixed with a telescopic pipe 307, the bottom of the telescopic pipe 307 is clamped and fixed at the center of the top of the ceramic feeding pipe 3, the top edge of the ceramic feeding pipe 3 is penetrated and provided with a first through hole 309, the top edge of the ceramic feeding pipe 302 is penetrated and provided with a second through hole 310, one fourth threaded pipe 308 is penetrated and communicated with the inner side of the first through hole 309, one first through hole 309 is penetrated and communicated with the inner side of the second through hole 310, and the inner bottoms of a plurality of second through holes 310 are penetrated and communicated;

during installation, the mounting plate 306 is fixedly arranged on the ceiling, the ceramic feeding pipe 3 is suspended at the top of the kiln feeding hole, the positions of the storage boxes 1 and the control boxes 2 are reasonably distributed according to the requirement, the conveying hoses 301 are connected between the control boxes 2 and the ceramic feeding pipe 3, the positions of the conveying hoses 301 are adjusted according to the requirement, if the lifting cylinders 305 are arranged on the ceiling through limiting components, and the like, when feeding is not required, the lifting cylinders 305 drive the telescopic pipes 307 to shrink, further drive the ceramic feeding pipe 3 to move upwards, enable the conveying hoses 301 and the ceramic feeding pipe 3 to be far away from the high-temperature kiln, and when feeding is required, drive the ceramic feeding pipe 3 to move downwards until the ceramic insertion pipe 302 is inserted into the kiln feeding hole, so that quick feeding is performed, and overflow of powder raw materials in the feeding process is avoided.

The specific working principle of the utility model is as follows: during installation, the mounting plate 306 is fixed on the ceiling, the ceramic feeding pipe 3 is suspended at the top of the kiln feeding hole, the positions of the plurality of storage boxes 1 and the control boxes 2 are reasonably distributed according to the requirement, the plurality of conveying hoses 301 are connected between the plurality of control boxes 2 and one ceramic feeding pipe 3, the positions of the conveying hoses 301 are adjusted according to the requirement, the control boxes 2 are driven to move up and down by the capacity control cylinder 201 according to the types of raw materials and the amount of raw materials required for producing glass, the positions of the capacity control plates 104 in the control boxes 2 are adjusted, the capacity in the control boxes 2 is further adjusted, the amount of raw materials conveyed at one time is controlled by the adjustment of the capacity, a large amount of raw materials are conveyed into the hopper 101, the raw materials fall into the storage boxes 1 under the action of gravity, the hopper 101 is closed, the crushing motor 105 drives the crushing roller 107 to rotate, the raw materials are crushed further, a magnetic separation structure can be installed in the material storage box 1 according to the requirement, the raw materials are subjected to magnetic separation and impurity removal, when the raw materials are required to be fed, the lifting cylinder 305 drives the ceramic material feeding pipe 3 to move downwards until the ceramic material feeding pipe 302 is inserted into the material feeding port of the kiln, the opening and closing cylinder 110 drives the sliding plate 108 to move to close the material discharging pipe 103, the exhaust fan 206 pumps air in the control box 2, external air enters the control box 2 through the pneumatic valve 203 and the air filter 204 under the action of air pressure, the powder raw materials are driven to enter the inner side of the conveying hose 301 and are conveyed into the ceramic material feeding pipe 3 through the conveying hose 301, the raw materials are fed through the first material feeding hole 309 and the second material feeding hole 310, after the feeding is completed, the lifting cylinder 305 drives the telescopic pipe 307 to shrink, and the ceramic material feeding pipe 3 is further driven to move upwards, the delivery hose 301 and ceramic feed tube 3 are moved away from the high temperature kiln.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (7)

1. Full-automatic feeding device, including storage case (1), control box (2) and ceramic inlet pipe (3), its characterized in that: the utility model discloses a ceramic feeding pipe, including storage case (1), discharge pipe (103) outer peripheral face bottom welded fastening has capacity control panel (104), storage case (1) bottom is provided with control box (2), control box (2) bottom is provided with air exhauster (206), storage case (1) one side is provided with ceramic feeding pipe (3), ceramic feeding pipe (3) top edge is provided with a plurality of conveying hose (301), ceramic feeding pipe (3) top central authorities are provided with lift cylinder (305), ceramic feeding pipe (3) bottom is fixed with ceramic intubate (302).

2. A fully automatic charging device according to claim 1, wherein: the utility model discloses a crushing roller, including storage case (1), crushing roller (107), drive subassembly (106), crushing motor (105) are run through welding at storage case (1) top, welded fastening has support frame (102) all around in storage case (1) bottom, storage case (1) one side joint is fixed with drive subassembly (106), crushing roller (107) one end rotation joint in drive subassembly (106) one side, drive subassembly (106) opposite side joint has crushing motor (105), crushing motor (105) are connected through drive subassembly (106) and crushing roller (107) transmission.

3. A fully automatic charging device according to claim 1, wherein: the utility model discloses a storage box, including storage box (1), spout (109) have been seted up to storage box (1) inboard bottom, run through in spout (109) and discharging pipe (103) and communicate, slide (108) have been had to slide joint in spout (109) inboard, slide (108) one end slip joint has and opens and close cylinder (110), open and close cylinder (110) run through the joint in storage box (1) outside.

4. A fully automatic charging device according to claim 1, wherein: the two sides of the control box (2) are slidably clamped with capacity control cylinders (201), the capacity control cylinders (201) are clamped at the bottom of the storage box (1), the discharging pipe (103) penetrates through and is connected to the center of the top of the control box (2), and the capacity control plates (104) are attached to the inner wall of the control box (2).

5. A fully automatic charging device according to claim 1, wherein: the control box (2) one side runs through the welding and has link (202), it has air filter (204) to run through grafting at link (202) top, link (202) one side runs through the joint has pneumatic valve (203), link (202) are located between control box (2) and pneumatic valve (203), the joint has solenoid valve (205) to run through in control box (2) bottom, air exhauster (206) joint is fixed in solenoid valve (205) bottom, air exhauster (206) bottom joint is fixed with first screwed pipe (207).

6. The fully automatic charging device of claim 5, wherein: the two ends of the conveying hose (301) are respectively clamped and fixed with a second threaded pipe (303) and a third threaded pipe (304), a fourth threaded pipe (308) is fixed at the top edge of the ceramic feeding pipe (3), the second threaded pipe (303) is screwed and fixed at the bottom of the outer peripheral surface of the first threaded pipe (207), and the third threaded pipe (304) is screwed and fixed at the top of the outer peripheral surface of the fourth threaded pipe (308).

7. The fully automatic charging device of claim 6, wherein: the utility model discloses a ceramic material feeding pipe, including lifting cylinder (305), mounting panel (306) are gone up and down in cylinder (305) top joint, lifting cylinder (305) bottom slip joint has flexible pipe (307), flexible pipe (307) bottom joint is in ceramic material feeding pipe (3) top central authorities, first feed through hole (309) have been run through at ceramic material feeding pipe (3) top border, second feed through hole (310) have been run through at ceramic material feeding pipe (302) top border, one fourth screwed pipe (308) and a first feed through hole (309) inboard run through the intercommunication, one first feed through hole (309) and one run through the intercommunication in second feed through hole (310), a plurality of second feed through hole (310) inboard bottom runs through the intercommunication.