CN114055625A - Electronic ceramic material production and processing equipment - Google Patents

Abstract

The invention relates to the field of clay manufacturing, in particular to electronic ceramic material production and processing equipment, wherein a base is fixedly connected with a shell, raw materials entering the shell can enter a feed inlet, a fixed disc is fixedly connected with the shell, a water inlet device is arranged in the feed inlet, water is mixed into the raw materials through the water inlet device, the raw materials are ground more fully, a supporting plate is arranged on one side of the fixed disc, a rotating disc is rotatably connected with the supporting plate and contacts with the fixed disc, a first output end of a rotating motor is fixedly connected with the rotating disc, and a stirring assembly is connected with a second output end of the rotating motor. Put into raw and other materials in the shell to the feeding and pass through the feed inlet, the rolling disc rotates and grinds raw and other materials with the fixed disk cooperation, and water injection ware injects water into the feed inlet, and raw and other materials get into the stirring subassembly under the action of gravity and stir after the grinding is accomplished, can not remain in the shell, and it also can conveniently wash to inject water into the feed inlet through water injection ware.

Description

Electronic ceramic material production and processing equipment

Technical Field

The invention relates to the field of clay manufacturing, in particular to clay pulping production and processing equipment in an electronic ceramic material.

Background

The electronic ceramics are ceramics that can utilize electric and magnetic properties in the electronics industry. The electronic ceramic is a ceramic with new functions finally obtained through the precise control of the surface, grain boundary and size structure. The ceramic is various products of materials prepared by crushing, mixing, molding and calcining natural clay and various natural minerals serving as main raw materials.

Need use the making beating device in ceramic production process, carry out the making beating work to the raw materials for production, current equipment polishes and accomplishes the back thick liquids and can not stir and export in getting into the stirred tank completely, has increased abluent degree of difficulty.

Disclosure of Invention

The invention aims to provide electronic ceramic material production and processing equipment, and aims to solve the problem that the existing equipment is inconvenient to clean.

In order to achieve the above object, the present invention provides an electronic ceramic material production and processing apparatus, which includes a feeding assembly, a grinding assembly and a stirring assembly, wherein the feeding assembly includes a base, a housing and a feeding shell, the base is fixedly connected to the housing and is located at one side of the housing, the feeding shell is communicated with the housing and is located at one side of the housing, the grinding assembly includes a fixed disk, a rotating disk, a water feeder, a rotating motor and a supporting plate, the fixed disk has a feeding port, the fixed disk is fixedly connected to the housing and is located at one side of the feeding shell, the water feeder is arranged in the feeding port, the supporting plate is arranged at one side of the fixed disk, the rotating disk is rotatably connected to the supporting plate and contacts the fixed disk, the rotating motor has a first output end and a second output end, the first output end of the rotating motor is fixedly connected with the rotating disc and is positioned on one side of the rotating disc, and the stirring assembly is connected with the second output end of the rotating motor.

The feeding assembly further comprises a shock pad, and the shock pad is fixedly connected with the base and located on one side of the base.

The shock pad can reduce the vibration of device operation in-process for the operation is more steady.

The water inlet device comprises a supporting plate, a plurality of water inlet pipes, a lifter, a water supply pipe and a water pump, wherein the lifter is arranged on one side of the feeding shell, the supporting plate is in sliding connection with the lifter and is positioned on one side of the lifter, the plurality of water inlet pipes are fixedly connected with the supporting plate and are distributed around the supporting plate, the water supply pipe is communicated with the plurality of water inlet pipes, and the water pump is communicated with the water supply pipe.

The lifter can drive the supporting disc to move up and down, a plurality of water inlet pipes are arranged in the supporting disc, and water provided by the water pump and the water supply pipe can enter the feed inlets respectively and can be better mixed with materials to be ground.

The lifter comprises a screw motor and a sliding block, the screw motor is fixedly connected with the shell, the sliding block is connected with the shell in a sliding mode, and the supporting disc is installed on the sliding block.

The screw motor can drive the slider reciprocates to can conveniently control the height of inlet tube, and take out the inlet tube.

The grinding assembly further comprises a protective shell, and the protective shell is fixedly connected with the supporting plate and located around the rotating motor.

The protective shell is used for protecting the rotating motor and preventing materials from entering the interior of the rotating motor.

The grinding assembly further comprises a conical baffle, and the conical baffle is fixedly connected with the protective shell and is positioned at the bottom of the protective shell.

The conical baffle is arranged at the bottom of the protective shell and used for preventing the bottom stirring assembly from entering the rotating motor during operation.

Wherein, the stirring subassembly includes stirring shell, second pipe, puddler and stirring vane, the stirring shell with the shell intercommunication, and be located the shell is kept away from one side of feeding shell, the second pipe with stirring shell intercommunication, the puddler with the second output of rotating the motor is connected, stirring vane with puddler fixed connection, and be located one side of puddler.

The stirring shell is internally provided with raw materials to be stirred, water is added into the stirring shell through the second pipe, the rotating motor can drive the stirring rod to rotate, and the ceramic materials can be stirred and mixed through the stirring blades.

Wherein, stirring subassembly still includes the doctor-bar, the doctor-bar sets up in the bottom of stirring shell.

The scraping blade can separate the material at the bottom of the stirring shell from the stirring shell, so that the stirring is more sufficient.

The scraper comprises a control blade, a bottom rod and a side rod, the control blade is rotatably connected with the stirring rod, the stirring rod penetrates through the control blade, the bottom rod is fixedly connected with the control blade and is contacted with the bottom of the shell, and the side rod is fixedly connected with the bottom rod and is contacted with the side wall of the shell.

The stirring assembly further comprises a plurality of centrifugal rods and a plurality of balancing weights, the centrifugal rods are rotatably connected with the stirring rod and are located around the stirring rod, and the balancing weights are fixedly connected with the centrifugal rods respectively and contact the bottom rod.

The invention relates to electronic ceramic material production and processing equipment, which comprises a base, a shell and a feeding shell, wherein the base is fixedly connected with the shell and is positioned on one side of the shell, the shell is supported by the base, the feeding shell is communicated with the shell and is positioned on one side of the shell, raw materials to be processed can be placed into the shell through the feeding shell, a grinding component comprises a fixed disc, a rotating disc, a water inlet device, a rotating motor and a supporting plate, the fixed disc is provided with a feed inlet, the raw materials entering the shell can enter the feed inlet, the fixed disc is fixedly connected with the shell and is positioned on one side of the feeding shell, the water inlet device is arranged in the feed inlet, water can be mixed into the raw materials through the water inlet device, so that the grinding is more sufficient, the supporting plate is arranged on one side of the fixed disc, the rolling disc with the backup pad is rotated and is connected to contact the fixed disk, through the rolling disc rotate can with the fixed disk is mutually supported and is ground, it has first output and second output to rotate the motor, rotate the motor first output with rolling disc fixed connection, and be located one side of rolling disc, the stirring subassembly with the second output that rotates the motor is connected, it is diaxon output motor to rotate the motor, can drive simultaneously the rolling disc with the stirring subassembly rotates, the stirring subassembly is used for stirring the ceramic material after grinding and mixes. When the material feeding device is used, raw materials are placed into the material feeding shell, then the rotating disc rotates under the driving of the rotating motor through the material feeding hole, so that the raw materials can be ground, the water feeding device can inject water into the material feeding hole, the raw materials can be conveniently ground, the raw materials can enter the stirring assembly under the action of gravity after the grinding is completed and can be stirred, the raw materials cannot remain in the shell, the utilization rate of the materials can be improved, and meanwhile, the raw materials can be conveniently cleaned through the water injection of the water feeding device into the material feeding hole, so that the problem that the existing equipment is inconvenient to clean is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of an apparatus for manufacturing and processing an electronic ceramic material according to the present invention.

FIG. 2 is a left side structural view of an electronic ceramic material manufacturing and processing apparatus of the present invention.

Fig. 3 is a schematic transverse cross-section of fig. 1.

FIG. 4 is a schematic longitudinal sectional view of the apparatus for manufacturing and processing an electronic ceramic material according to the present invention along a stirring rod.

Fig. 5 is an enlarged view of a detail a of fig. 3.

FIG. 6 is a second schematic longitudinal sectional view of the apparatus for manufacturing and processing an electronic ceramic material according to the present invention along a stirring rod.

1-feeding component, 2-grinding component, 3-stirring component, 11-base, 12-shell, 13-feeding shell, 14-shock pad, 21-fixed disk, 22-rotating disk, 23-water inlet device, 24-rotating motor, 25-supporting plate, 26-protecting shell, 27-conical baffle, 31-stirring shell, 32-second tube, 33-stirring rod, 34-stirring blade, 35-scraping blade, 36-centrifugal rod, 37-balancing weight, 211-feeding hole, 231-supporting plate, 232-water inlet tube, 233-lifter, 234-water supply tube, 235-water pump, 236-feeding plate, 237-rotating rod, 241-first output end, 242-second output end, 351-control blade, 352-bottom rod, 353-side rod, 2331-screw motor and 2332-sliding block.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or have the same or similar functional elements throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides an apparatus for manufacturing and processing electronic ceramic material, comprising: including feeding subassembly 1, grinding unit 2 and stirring subassembly 3, feeding subassembly 1 includes base 11, shell 12 and feeding shell 13, base 11 with shell 12 fixed connection to be located one side of shell 12, feeding shell 13 with shell 12 intercommunication, and be located one side of shell 12, grinding unit 2 includes fixed disk 21, rolling disk 22, water inlet 23, rotation motor 24 and backup pad 25, fixed disk 21 has feed inlet 211, fixed disk 21 with shell 12 fixed connection, and be located one side of feeding shell 13, water inlet 23 sets up in feed inlet 211, backup pad 25 sets up one side of fixed disk 21, rolling disk 22 with backup pad 25 rotates to be connected, and contacts fixed disk 21, rotation motor 24 has first output 241 and second output 242, the first output end 241 of the rotating motor 24 is fixedly connected with the rotating disc 22 and is located at one side of the rotating disc 22, and the stirring assembly 3 is connected with the second output end 242 of the rotating motor 24.

In this embodiment, the feeding assembly 1 includes a base 11, a housing 12 and a feeding shell 13, the base 11 is fixedly connected to the housing 12 and is located at one side of the housing 12, the housing 12 is supported by the base 11, the feeding shell 13 is communicated with the housing 12 and is located at one side of the housing 12, raw materials to be processed can be put into the housing 12 through the feeding shell 13, the grinding assembly 2 includes a fixed disk 21, a rotating disk 22, a water inlet 23, a rotating motor 24 and a supporting plate 25, the fixed disk 21 has a feeding port 211, raw materials entering the housing 12 can enter the feeding port 211, the fixed disk 21 is fixedly connected to the housing 12 and is located at one side of the feeding shell 13, the water inlet 23 is disposed in the feeding port 211, water can be mixed into raw materials through the water inlet 23, make to grind more abundant, the backup pad 25 sets up one side of fixed disk 21, the rolling disc 22 with the backup pad 25 rotates to be connected, and contact fixed disk 21, through the rolling disc 22 rotate can with fixed disk 21 mutually supports and grinds, rotation motor 24 has first output 241 and second output 242, rotation motor 24's first output 241 with rolling disc 22 fixed connection, and be located one side of rolling disc 22, stirring subassembly 3 with rotation motor 24's second output 242 is connected, rotation motor 24 is diaxon output motor, can drive simultaneously the rolling disc 22 with stirring subassembly 3 rotates, stirring subassembly 3 is used for stirring the mixture to the ceramic material after grinding. When the material feeding device is used, raw materials are put into the feeding shell 13, then the rotating disc 22 is driven by the rotating motor 24 to rotate through the feeding hole 211, so that the raw materials can be ground, the water inlet device 23 can inject water into the feeding hole 211, so that the raw materials can be conveniently ground, the raw materials can enter the stirring assembly 3 under the action of gravity after the grinding is completed and can be stirred, and the raw materials cannot remain in the shell 12, so that the utilization rate of the materials can be improved, and meanwhile, the water can be conveniently washed through the water inlet device 23 by injecting water into the feeding hole 211, so that the problem that the existing device is inconvenient to wash is solved.

Further, referring to fig. 1, the feeding assembly 1 further includes a shock absorbing pad 14, and the shock absorbing pad 14 is fixedly connected to the base 11 and is located at one side of the base 11.

In this embodiment, the shock absorbing pad 14 can reduce the vibration during the operation of the device, so that the operation is more stable.

Further, referring to fig. 3 and 5, the water inlet device 23 includes a supporting plate 231, a plurality of water inlet pipes 232, a lifter 233, a water supply pipe 234 and a water pump 235, the lifter 233 is disposed at one side of the feeding housing 13, the supporting plate 231 is slidably connected to the lifter 233 and is located at one side of the lifter 233, the plurality of water inlet pipes 232 are fixedly connected to the supporting plate 231 and are distributed around the supporting plate 231, the water supply pipe 234 is communicated with the plurality of water inlet pipes 232, and the water pump 235 is communicated with the water supply pipe 234; the supporting disc 231 is provided with an opening, the water inlet device 23 further comprises a feeding plate 236 and a rotating rod 237, the rotating rod 237 is rotatably connected with the supporting disc 231 and is positioned in the feeding hole 211, and the feeding plate 236 is fixedly connected with the rotating rod 237 and is positioned in the feeding shell 13; the lifter 233 comprises a screw motor 2331 and a slider 2332, the screw motor 2331 is fixedly connected with the housing 12, the slider 2332 is slidably connected with the housing 12, and the support plate 231 is mounted on the slider 2332.

In this embodiment, the lifter 233 may drive the support plate 231 to move up and down, the plurality of water inlet pipes 232 are disposed in the support plate 231, and water supplied from the water pump 235 and the water supply pipe 234 may enter the respective feed ports 211, so as to be mixed with a material and ground. The supporting plate 231 is provided with an opening, so that the raw material can be put in from the opening, and then the rotating rod 237 can be rotated, so that the feeding plate 236 can push the raw material to disperse all around to enter the feeding hole 211 of the fixed plate 21, and the feeding is more convenient. The screw motor 2331 may drive the slider 2332 to move up and down, so that the height of the water inlet pipe 232 may be conveniently controlled, and the water inlet pipe 232 may be taken out.

Further, referring to fig. 3, the grinding assembly 2 further includes a protective shell 26, and the protective shell 26 is fixedly connected to the supporting plate 25 and located around the rotating motor 24; the grinding assembly 2 further comprises a conical baffle 27, and the conical baffle 27 is fixedly connected with the protective shell 26 and is positioned at the bottom of the protective shell 26.

In the present embodiment, the protective casing 26 is used to protect the rotating motor 24 from materials entering the inside of the rotating motor 24. The conical baffle 27 is disposed at the bottom of the protective shell 26 for preventing the bottom stirring assembly 3 from entering the rotating motor 24 during operation.

Further, referring to fig. 3 and 4, the stirring assembly 3 includes a stirring shell 31, a second pipe 32, a stirring rod 33 and a stirring blade 34, the stirring shell 31 is communicated with the outer shell 12 and is located on a side of the outer shell 12 away from the feeding shell 13, the second pipe 32 is communicated with the stirring shell 31, the stirring rod 33 is connected with the second output end 242 of the rotating motor 24, and the stirring blade 34 is fixedly connected with the stirring rod 33 and is located on a side of the stirring rod 33; the stirring assembly 3 further comprises a scraping blade 35, and the scraping blade 35 is arranged at the bottom of the stirring shell 31; the blade 35 includes a control blade 351, a bottom bar 352 and a side bar 353, the control blade 351 is rotatably connected to the stirring rod 33, the stirring rod 33 passes through the control blade 351, the bottom bar 352 is fixedly connected to the control blade 351 and contacts the bottom of the housing 12, and the side bar 353 is fixedly connected to the bottom bar 352 and contacts the side wall of the housing 12.

In this embodiment, the raw material to be stirred is placed in the stirring shell 31, water is added into the stirring shell 31 through the second pipe 32, the rotating motor 24 can drive the stirring rod 33 to rotate, and the ceramic material can be stirred and mixed through the stirring blade 34. The scraper 35 can separate the material at the bottom of the stirring shell 31 from the stirring shell 31, so that the stirring is more sufficient. The control blade 351 can rotate under the pushing of the raw materials when the raw materials are stirred, so that the bottom rod 352 and the side rods 353 move relative to the stirring shell 31, thereby scraping the bottom and the side walls of the stirring shell 31 and preventing the raw materials from being stuck.

Further, referring to fig. 6, the stirring assembly 3 further includes a plurality of centrifugal rods 36 and a plurality of weight blocks 37, the centrifugal rods 36 are rotatably connected to the stirring rod 33 and located around the stirring rod 33, and the weight blocks 37 are respectively fixedly connected to the centrifugal rods 36 and contact the bottom rod 352.

In this embodiment, when the stirring rod 33 rotates at a low speed, the rotating speed of the material inside the stirring shell is not high enough to drive the control blade 351 to rotate, so that the cleaning effect on the stirring shell 31 is reduced, therefore, the centrifugal rod 36 is provided, when the stirring rod 33 rotates at a low speed, the counterweight 37 drives the bottom rod 352 to rotate through friction, and when the rotating speed is increased, the counterweight 37 is lifted up under the action of centrifugal force to be out of contact with the bottom rod 352, so that the cleaning effect on the stirring shell 31 can be increased at any rotating speed.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An electronic ceramic material production and processing device is characterized in that,

the grinding device comprises a feeding assembly, a grinding assembly and a stirring assembly, wherein the feeding assembly comprises a base, a shell and a feeding shell, the base is fixedly connected with the shell and is positioned on one side of the shell, the feeding shell is communicated with the shell and is positioned on one side of the shell, the grinding assembly comprises a fixed disc, a rotating disc, a water inlet device, a rotating motor and a supporting plate, the fixed disc is provided with a feeding hole, the fixed disc is fixedly connected with the shell and is positioned on one side of the feeding shell, the water inlet device is arranged in the feeding hole, the supporting plate is arranged on one side of the fixed disc, the rotating disc is rotatably connected with the supporting plate and contacts the fixed disc, the rotating motor is provided with a first output end and a second output end, a first output end of the rotating motor is fixedly connected with the rotating disc and is positioned on one side of the rotating disc, the stirring assembly is connected with a second output end of the rotating motor.

2. The electronic ceramic material producing and processing apparatus as claimed in claim 1,

the feeding assembly further comprises a shock pad, and the shock pad is fixedly connected with the base and is positioned on one side of the base.

3. The electronic ceramic material producing and processing apparatus as claimed in claim 1,

the water inlet device comprises a supporting plate, a plurality of water inlet pipes, a lifter, a water supply pipe and a water pump, wherein the lifter is arranged on one side of the feeding shell, the supporting plate is in sliding connection with the lifter and is positioned on one side of the lifter, the water inlet pipes are fixedly connected with the supporting plate and are distributed around the supporting plate, the water supply pipe is communicated with the water inlet pipes, and the water pump is communicated with the water supply pipe.

4. The electronic ceramic material producing and processing apparatus as claimed in claim 3,

the lifter comprises a screw motor and a sliding block, the screw motor is fixedly connected with the shell, the sliding block is connected with the shell in a sliding mode, and the supporting disc is installed on the sliding block.

5. The electronic ceramic material producing and processing apparatus as claimed in claim 1,

the grinding assembly further comprises a protective shell, and the protective shell is fixedly connected with the supporting plate and located around the rotating motor.

6. The electronic ceramic material producing and processing apparatus as claimed in claim 5,

the grinding assembly further comprises a conical baffle, and the conical baffle is fixedly connected with the protective shell and is positioned at the bottom of the protective shell.

7. The electronic ceramic material producing and processing apparatus as claimed in claim 1,

the stirring subassembly includes stirring shell, second pipe, puddler and stirring vane, the stirring shell with the shell intercommunication, and be located the shell is kept away from one side of feeding shell, the second pipe with stirring shell intercommunication, the puddler with the second output of rotating the motor is connected, stirring vane with puddler fixed connection, and be located one side of puddler.

8. The electronic ceramic material producing and processing apparatus as claimed in claim 7,

the stirring assembly further comprises a scraping blade, and the scraping blade is arranged at the bottom of the stirring shell.

9. The electronic ceramic material producing and processing apparatus as claimed in claim 8,

the scraper comprises a control blade, a bottom rod and a side rod, the control blade is connected with the stirring rod in a rotating mode, the stirring rod penetrates through the control blade, the bottom rod is fixedly connected with the control blade and is contacted with the bottom of the shell, and the side rod is fixedly connected with the bottom rod and is contacted with the side wall of the shell.

10. The electronic ceramic material producing and processing apparatus as claimed in claim 9,

the stirring assembly further comprises a plurality of centrifugal rods and a plurality of balancing weights, the centrifugal rods are rotatably connected with the stirring rod and are located around the stirring rod, and the balancing weights are fixedly connected with the centrifugal rods respectively and contact the bottom rod.

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