CN112895118B - Ceramic slurry production equipment for domestic ceramic production - Google Patents

Abstract

The invention discloses a ceramic slurry production device for domestic ceramic production, which is characterized in that: the stirring device comprises a supporting frame, wherein a base is arranged on the supporting frame, a bracket and a stirring device are arranged on the base, and a feeding device matched with a feeding hole of the stirring device is arranged on the bracket; the stirring device comprises a stirring tank, a connecting rod, a rotary table, a connecting shaft, a power motor surrounding the rotary shaft and fixed on a support, wherein the power rod of the power motor is connected with the rotary shaft, one end of the rotary shaft is connected with a rotary plate, two ends of the stirring tank are respectively connected with a feeding pipe and a self-rotating shaft, and one end of the stirring tank close to the self-rotating shaft is provided with a discharge valve; according to the ceramic slurry production equipment for the domestic ceramic production, disclosed by the invention, the stirring ball in the stirring tank can quickly crush and stir materials by enabling the stirring tank to rotate and rotate around the rotating shaft, so that the materials can be crushed and prepared into slurry in the stirring tank, and the preparation time is shortened.

Description

Ceramic slurry production equipment for domestic ceramic production

Technical Field

The invention belongs to the technical field of ceramic slurry production, and particularly relates to ceramic slurry production equipment for daily ceramic production.

Background

At present, a tape casting method is commonly used for preparing a ceramic base, and comprises the steps of preparing mud tape casting slurry, scraping the tape casting slurry into sheets by using a scraper, forming the sheet slurry into green bodies in a drying process, drilling a through hole to form a signal transmission channel, printing a circuit, and finally sintering at high temperature to prepare the ceramic base. The tape casting is an important process method for preparing the alumina ceramic base material on a large scale, the tape casting method needs to prepare tape casting slurry firstly, and the tape casting slurry guarantees the quality and the performance of the ceramic base.

At present, the slurry for preparing 96% white ceramic base is mainly prepared by uniformly mixing powder, solvent, dispersant, binder, plasticizer and the like, wherein the used solvent mainly comprises toluene, butanone, trichloroethylene and the like, and the toluene, the butanone and the trichloroethylene have toxicity, bring harm to the health of human body and natural environment, and have the danger of flammability and explosiveness. At present, when preparing the casting slurry, all the components of the powder are generally firstly crushed and then added into a ball mill, then all the components of the mixed solvent are weighed and then added into the ball mill, and finally the ball mill performs ball milling for more than 48 hours. The preparation process is rough, so that the dispersibility of the powder is poor, the poor dispersibility can influence a series of characteristics such as compactness, porosity, mechanical strength and the like of the sintering of the ceramic base, the plasticity of the binder is poor, and the mixing and stirring uniformity is poor.

Disclosure of Invention

The technical problem to be solved by the invention is to provide ceramic slurry production equipment for daily ceramic production, which is characterized in that a stirring tank is enabled to rotate and rotate around a rotating shaft, so that stirring balls in the stirring tank can quickly crush and stir materials, the materials can be crushed and prepared into slurry in the stirring tank, and the preparation time is shortened.

The utility model provides a domestic ceramics production is with ceramic thick liquids production facility which characterized in that: the stirring device comprises a supporting frame, wherein a base is arranged on the supporting frame, a bracket and a stirring device are arranged on the base, and a feeding device matched with a feeding hole of the stirring device is arranged on the bracket; the stirring device comprises a stirring tank, a connecting rod, a rotary table, a connecting shaft, a power motor which surrounds the rotary shaft and is fixed on a support, wherein the power motor is connected with the rotary shaft on a power rod, one end of the rotary shaft is connected with a rotary plate, the two ends of the stirring tank are respectively connected with an inlet pipe and a rotating shaft, one end of the stirring tank, which is close to the rotating shaft, is provided with a discharge valve, a bearing is sleeved on the inlet pipe and is connected with the rotary plate through the connecting rod, one end of the rotating shaft is connected with an autorotation bearing, the autorotation bearing is connected on the rotary table, the rotating shaft is connected with the rotary table through the connecting shaft, the rotating shaft is fixed on a base, a sealing block is arranged in the inlet pipe, the sealing block is connected with a feed screw rod, the inner wall of the inlet pipe is provided with connecting threads, and the sealing block is provided with external threads which are mutually meshed with the connecting threads, stirring balls are arranged in the stirring tank, a plurality of hole grooves matched with the feeding device are formed in the sealing block, a magnet is arranged on the sealing block, and the support is provided with a position sensor; the feeding device comprises a fixing frame, a connecting cylinder and a lifting cylinder are fixed on the fixing frame, a moving guide pipe is connected to a connecting cylinder power rod, a wire sleeve is sleeved on the moving guide pipe and connected to a support, a rotating motor is connected to the lifting cylinder power rod, a rotating shaft is connected to the rotating motor power rod, a rotating block and a fixing plate are connected to the rotating shaft, at least 2 buffers are fixed to the fixing plate, one end of each buffer is connected with a dismounting rod, one end of each dismounting rod penetrates through the rotating block and is matched with a hole groove in the sealing block, a magnet is arranged on the rotating block, and an inlet pipe is connected to one side of the moving guide pipe.

Preferably, the support is connected with a connecting frame, the connecting frame is connected with a gear ring, and the feeding pipe is sleeved with a helical gear meshed with the gear ring.

Preferably, one end of the stirring tank close to the rotation bearing is provided with an isolation screen plate.

Preferably, the one end that the agitator tank was kept away from to the inlet pipe is provided with the sealed head of toper, the one end that the passage is close to the agitator tank is provided with and removes sealed head with the sealed head complex of toper.

Preferably, the stirring tank forms a throwing angle A with the horizontal line, and the degree of the throwing angle A is set between 30 and 85 degrees.

Preferably, the degree of the material throwing angle A is set between 35 degrees and 45 degrees.

Preferably, one end of the dismounting rod close to the sealing block is provided with a conical chamfer.

Preferably, a sealing groove is formed in one end, close to the movable material guide pipe, of the sealing block, and a sealing ring is arranged in the sealing groove.

Preferably, the isolation screen plate is arranged at the discharge valve and comprises two screen plates, and a filter membrane is arranged between the two screen plates.

Has the advantages that:

(1) according to the ceramic slurry production equipment for the domestic ceramic production, disclosed by the invention, the stirring ball in the stirring tank can quickly crush and stir materials by enabling the stirring tank to rotate and rotate around the rotating shaft, so that the materials can be crushed and prepared into slurry in the stirring tank, and the preparation time is shortened.

(2) According to the ceramic slurry production equipment for daily ceramic production, the feeding device drives the sealing block to rotate, so that the feeding screw can convey materials, the materials are prevented from being blocked in the feeding pipe, the rotating block is driven to rotate by the disassembling rod to be disassembled from the feeding pipe, and meanwhile the sealing block is tightly adsorbed on the rotating block by matching with the magnet, so that the sealing block moves along with the rotating block, and the feeding device can finish the purpose of sealing and feeding.

Drawings

FIG. 1 is a schematic diagram of a slurry production facility;

FIG. 2 is a view showing the combination of a stirring device and a feeding device;

FIG. 3 is a partial view of a stirring device;

FIG. 4 is a schematic structural view of a feeding device;

1-support frame, 2-base, 3-support frame, 4-stirring device, 41-power motor, 42-rotating shaft, 43-rotating plate, 44-connecting rod, 45-stirring tank, 46-isolation screen plate, 47-feeding pipe, 48-helical gear, 49-bearing, 410-rotating shaft, 411-self-rotating bearing, 412-rotating table, 413-connecting shaft, 414-rotating shaft, 415-conical sealing head, 416-connecting thread, 417-sealing block, 418-feeding screw, 419-connecting frame, 420-gear ring, 5-feeding device, 51-fixing frame, 52-connecting cylinder, 53-moving material guide pipe, 54-wire guide sleeve, 55-moving sealing head, 56-feeding pipe, 57-lifting cylinder, 58-rotating motor, 59-rotating shaft, 510-rotating block, 511-dismounting rod, 512-buffer, 513-fixing plate and 514-sealing ring.

Detailed Description

Embodiments of the present invention are further described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-3; the ceramic slurry production equipment for the daily ceramic production comprises a support frame 1, wherein a base 2 is arranged on the support frame 1, a support 3 and a stirring device 4 are arranged on the base 2, and a feeding device 5 matched with a feeding hole of the stirring device 4 is arranged on the support 3; the stirring device 4 comprises a stirring tank 45, a connecting rod 44, a rotary table 412, a connecting shaft 413, a power motor 41 which surrounds a rotating shaft 414 and is fixed on the support 3, wherein the power rod of the power motor 41 is connected with a rotating shaft 42, one end of the rotating shaft 42 is connected with a rotating plate 43, two ends of the stirring tank 45 are respectively connected with a feeding pipe 47 and a rotating shaft 410, one end of the stirring tank 45, which is close to the rotating shaft 410, is provided with a discharge valve, the feeding pipe 47 is sleeved with a bearing 49, the bearing 49 is connected with the rotating plate 43 through the connecting rod 44, one end of the rotating shaft 410 is connected with a self-rotating bearing 411, the self-rotating bearing 411 is connected on the rotary table 412, the rotating shaft 414 is connected with the rotary table 412 through the connecting shaft 413, the rotating shaft 414 is fixed on the base 2, a sealing block 417 is arranged in the feeding pipe 47, a feeding screw 418 is connected on the sealing block 417, and a connecting thread 416 is arranged on the inner wall of the feeding pipe 47, the sealing block 417 is provided with external threads meshed with the connecting threads 416, stirring balls are arranged in the stirring tank 45, the sealing block 417 is provided with a plurality of hole grooves matched with the feeding device 5, the sealing block 417 is provided with a magnet, and the bracket 3 is provided with a position sensor; a connecting frame 419 is connected to the bracket 3, a gear ring 420 is connected to the connecting frame 419, and a bevel gear 48 meshed with the gear ring 420 is sleeved on the feeding pipe 47; an isolation screen plate 46 is arranged at one end of the stirring tank 45 close to the rotation bearing 411; feeding device 5 is including mount 51, be fixed with on mount 51 and connect cylinder 52 and lift cylinder 57, be connected with on the connection cylinder 52 power rod and remove the passage 53, the cover is equipped with wire cover 54 on removing the passage 53, wire cover 54 is connected on support 3, be connected with rotating electrical machines 58 on the lift cylinder 57 power rod, be connected with pivot 59 on the rotating electrical machines 58 power rod, be connected with commentaries on classics piece 510 and fixed plate 513 in the pivot 59, be fixed with 2 at least buffers 512 on the fixed plate 513, buffer 512 one end is connected with dismantlement pole 511, dismantlement pole 511 one end run through commentaries on classics piece 510 and with the hole groove cooperation on the sealed piece 417, be provided with magnet on the commentaries on classics piece 510, it is connected with the inlet pipe 56 to remove passage 53 one side.

The rotating shaft 42 is driven to rotate by the power motor 41, the rotating shaft 42 drives the rotating plate 43 to rotate, the rotating plate 43 drives the connecting rod 44 to rotate around the rotating shaft 42, the connecting rod 44 drives the feeding pipe 47 to rotate around the rotating shaft 42, the feeding pipe 47 can rotate by the bearing 49, the bevel gear 48 is matched with the gear ring 420 when the feeding pipe 47 rotates around the rotating shaft 42, the bevel gear 48 can drive the feeding pipe 47 to rotate when the bevel gear 48 moves along with the feeding pipe 47 around the rotating shaft 42, the feeding pipe 47 drives the stirring tank 45 to rotate, one end of the stirring tank 45, which is close to the feeding pipe 47 when the rotation is completed, rotates around the rotating shaft 42, so that the stirring balls in the stirring tank 45 crush and stir the materials, the stirring balls are isolated by the isolation screen 46 to avoid entering the discharge valve, the stirring balls adopt stirring balls with different sizes, and centrifugal force generated when one end of the stirring tank 45 rotates around the rotating shaft 42 throws the stirring balls with different sizes to different heights of the stirring tank 45, meanwhile, larger materials are crushed at the bottom of the stirring tank 45, and light powder and the stirring balls are thrown to the position of the taller stirring tank 45, so that the powder is crushed in different areas by centrifugal force; during feeding, the position of the feeding pipe 47 is positioned by the position sensor, so that the feeding pipe 47 is aligned with the movable material guiding pipe 53, the movable material guiding pipe 53 is driven to move by the connecting cylinder 52, so that the movable material guiding pipe 53 is butted with the feeding pipe 47, the rotating motor 58 is driven to move by the lifting cylinder 57, the rotating motor 58 drives the rotating shaft 59 to move, the rotating shaft 59 drives the rotating block 510 and the fixing plate 513 to move, the fixing plate 513 drives the buffer 512 and the dismounting rod 511 to move, so that the dismounting rod 511 moves towards the sealing block 417, the buffer 512 contracts after the dismounting rod 511 contacts the sealing block 417, meanwhile, when the lifting cylinder 57 drives the rotating motor 58 to move, the rotating shaft 58 is opened, so that the rotating shaft 59 rotates, the rotating block 59 drives the rotating block 510 and the fixing plate 513 to rotate, the rotating block 510 and the fixing plate 513 rotate to drive the buffer 512 and the dismounting rod 511 connected to the buffer 512 to rotate around the rotating shaft 59, the disassembling rod 511 is pushed into the hole groove by the contracted buffer 512 when rotating, the sealing block 417 and the magnet on the rotating block 510 attract each other, the sealing block 417 and the rotating block 510 are tightly attached together, meanwhile, the rotating block 510 drives the feeding screw 418 to rotate, the sealing block 417 gradually separates from the connecting thread 416 when rotating, meanwhile, the power rod of the lifting cylinder 57 slowly contracts, so that the sealing block 417 is guided into the feeding pipe 56, the sealing block 417 moves to one side of the feeding pipe 56, the material in the feeding pipe 56 is conveniently guided into the movable material guiding pipe 53, and meanwhile, the feeding screw 418 rotates to quickly guide the material in the movable material guiding pipe 53 into the stirring tank 45 through the feeding screw 418; after the material is introduced, the feed pipe 47 is guided by the sealing block 417 carried by the lifting cylinder 57, and the feed pipe 47 is rotated by the sealing block 417 carried by the rotating motor 58, so that the sealing block 417 is gradually locked into the feed pipe 47 in cooperation with the connecting thread 416.

Example 2

On the basis of the embodiment 1, a tapered sealing head 415 is arranged at one end of the feeding pipe 47, which is far away from the stirring tank 45, and a movable sealing head 55 matched with the tapered sealing head 415 is arranged at one end of the material guiding pipe 53, which is close to the stirring tank 45; the stirring tank 45 and a horizontal line form a throwing angle A, and the degree of the throwing angle A is set between 30 and 85 degrees; the degree of the throwing angle A is set to be between 35 and 45 degrees; one end of the dismounting rod 511 close to the sealing block 417 is provided with a conical chamfer; one end of the sealing block 417 close to the movable material guide pipe 53 is provided with a sealing groove, and a sealing ring 514 is arranged in the sealing groove; the isolation mesh plate 46 is arranged at the discharge valve, the isolation mesh plate 46 comprises two mesh plates, and a filter membrane is arranged between the two mesh plates.

A tapered sealing head 415 arranged at one end of the feeding pipe 47 far away from the stirring tank 45 and a movable sealing head 55 matched with the tapered sealing head 415 arranged at one end of the material guiding pipe 53 close to the stirring tank 45 are arranged, so that the movable sealing head 55 is close to the tapered sealing head 415 and is simultaneously attached, the material guiding pipe 53 is accurately aligned with the feeding pipe 47, and the sealing block 417 is convenient to move in the material guiding pipe 53 and the threads on the sealing block 417 are matched with the connecting threads 416; get rid of the number of degrees setting of material angle A and guarantee that stirring ball of different sizes can the layering and the material layering of different sizes between 35 degrees to 45 degrees, be convenient for comminuted and stirring, through set up the toper chamfer in dismounting rod 511 one end, dismounting rod 511 insert hole inslot of being convenient for, one end through being close to at sealed piece 417 and removing the passage 53 sets up sealing washer 514, make the clearance between sealing washer 417 and the passage 53 sealed, keep apart otter board 46 and set up and can reduce as far as possible at bleeder valve department and keep apart otter board 46 and stirring ball area of contact, through set up the filter membrane between two otter boards, make the filter membrane can filter the good material of processing, two otter boards can fix the filter membrane simultaneously.

The embodiments of the present invention have been described in detail, but the embodiments are merely examples, and the present invention is not limited to the above-described embodiments. Any equivalent modifications and substitutions to those skilled in the art are also within the scope of the present invention. Accordingly, equivalent alterations and modifications are intended to be included within the scope of the invention, without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides a domestic ceramics production is with ceramic thick liquids production facility which characterized in that: the stirring device comprises a support frame (1), wherein a base (2) is arranged on the support frame (1), a support (3) and a stirring device (4) are arranged on the base (2), and a feeding device (5) matched with a feeding hole of the stirring device (4) is arranged on the support (3); agitating unit (4) including agitator tank (45), connecting rod (44), revolving stage (412), connecting axle (413), around pivot (414) and fix motor power (41) on support (3), be connected with pivot (42) on motor power (41) the pole, pivot (42) one end is connected with commentaries on classics board (43), agitator tank (45) both ends are connected with inlet pipe (47) and axis of rotation (410) respectively, the one end that agitator tank (45) is close to axis of rotation (410) is provided with the bleeder valve, the cover is equipped with bearing (49) on inlet pipe (47), bearing (49) are connected with revolving stage (43) through connecting rod (44), axis of rotation (410) one end is connected with rotation bearing (411), rotation bearing (411) are connected on revolving stage (412), be connected with revolving stage (412) through connecting axle (413) around pivot (414), the rotary shaft (414) is fixed on the base (2), a sealing block (417) is arranged in the feeding pipe (47), a feeding screw rod (418) is connected onto the sealing block (417), a connecting thread (416) is arranged on the inner wall of the feeding pipe (47), an external thread meshed with the connecting thread (416) is arranged on the sealing block (417), a stirring ball is arranged in the stirring tank (45), a plurality of hole grooves matched with the feeding device (5) are formed in the sealing block (417), a magnet is arranged on the sealing block (417), and a position sensor is arranged on the support (3); the feeding device (5) comprises a fixing frame (51), a connecting cylinder (52) and a lifting cylinder (57) are fixed on the fixing frame (51), a movable material guide pipe (53) is connected to a power rod of the connecting cylinder (52), a wire sleeve (54) is sleeved on the movable material guide pipe (53), the wire sleeve (54) is connected to the support (3), a rotating motor (58) is connected to the power rod of the lifting cylinder (57), a rotating shaft (59) is connected to the power rod of the rotating motor (58), a rotating block (510) and a fixing plate (513) are connected to the rotating shaft (59), at least 2 buffers (512) are fixed to the fixing plate (513), a dismounting rod (511) is connected to one end of the buffer (512), one end of the dismounting rod (511) penetrates through the rotating block (510) and is matched with a hole groove on a sealing block (417), a magnet is arranged on the rotating block (510), one side of the movable material guide pipe (53) is connected with a material feeding pipe (56).

2. The ceramic slurry production apparatus for domestic ceramic production as claimed in claim 1, wherein: the support (3) is connected with a connecting frame (419), the connecting frame (419) is connected with a gear ring (420), and the feed pipe (47) is sleeved with a bevel gear (48) meshed with the gear ring (420).

3. The ceramic slurry production apparatus for domestic ceramic production as claimed in claim 2, wherein: and an isolation screen (46) is arranged at one end of the stirring tank (45) close to the rotation bearing (411).

4. The ceramic slurry production apparatus for domestic ceramic production as claimed in claim 3, wherein: the one end that agitator tank (45) were kept away from in inlet pipe (47) is provided with toper sealing head (415), the one end that removes passage (53) and be close to agitator tank (45) is provided with and removes sealing head (55) with toper sealing head (415) complex.

5. The ceramic slurry production apparatus for domestic ceramic production as claimed in claim 4, wherein: the stirring tank (45) and a horizontal line form a throwing angle A, and the degree of the throwing angle A is set between 30 degrees and 85 degrees.

6. The ceramic slurry production apparatus for domestic ceramic production as claimed in claim 5, wherein: the degree of the material throwing angle A is set between 35 degrees and 45 degrees.

7. The ceramic slurry production apparatus for domestic ceramic production as claimed in claim 6, wherein: one end of the dismounting rod (511) close to the sealing block (417) is provided with a conical chamfer.

8. The ceramic slurry production apparatus for domestic ceramic production as claimed in claim 7, wherein: and one end of the sealing block (417) close to the movable material guide pipe (53) is provided with a sealing groove, and a sealing ring (514) is arranged in the sealing groove.

9. The ceramic slurry production apparatus for domestic ceramic production as claimed in claim 3 or 8, wherein: the isolation net plate (46) is arranged at the discharge valve, the isolation net plate (46) comprises two net plates, and a filter membrane is arranged between the two net plates.

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