CN210875111U - Glazing nanometer powder mixing device - Google Patents

Abstract

The utility model discloses a nanometer powder mixing arrangement glazes porcelain, including the mixing arrangement main part, install power unit in the mixing arrangement main part, and be equipped with mixing chamber and lid in the mixing arrangement main part, mixing arrangement main part lower extreme is equipped with the base, and is connected with support frame and two connecting rods on the base, be equipped with the mount between the connecting rod, and the mount is cylindrical frame construction to the mount bottom is cross structure, be equipped with the backing plate between mount and the base, and evenly run through on the mount and have anti-skidding gasket to the mount lower extreme is equipped with anti-skidding base, be equipped with the feeding ring on the lid, and the block has the pan feeding funnel on the feeding ring. This nanometer powder mixing arrangement of glazing porcelain can make the even joining of nanometer powder of various materials mix the intracavity for nanometer powder's mixture is more high-efficient, can make the relative support frame of mount rotatory through the connecting rod after nanometer powder mixes, thereby makes mixing arrangement can incline and conveniently fall the material.

Description

Glazing nanometer powder mixing device

Technical Field

The utility model relates to a jun porcelain mixing arrangement technical field that glazing porcelain specifically is a nanometer powder mixing arrangement that polishes.

Background

Jun porcelain is originated from Tang and contained in Song, is one of five famous porcelain in ancient China, is magically famous in the world due to unique glaze and transmutation generated by a firing method, and plays an important role in the development history of the world ceramics as an important symbol in the artistic history of the Chinese ceramics, and has the unique transmutation art from ancient times, namely ' gold has no price in price and ' family has universal property and is not as good as the Jun porcelain ', and the unique transmutation art is widely liked by ceramic enthusiasts due to the artistic characteristics of ' one color in kiln and universal color out of kiln '. After the Jun porcelain is manufactured and formed, biscuit firing is needed to enable the Jun porcelain to discharge water and reinforce a blank body, the blank body is taken out, glazing and glaze firing are carried out, the change of flame atmosphere is reasonably controlled in the glaze firing process, and furnace transmutation colors with different glaze colors and different depths are formed by utilizing oxidation and reduction atmosphere. The main raw materials of the Jun porcelain glazing are various natural ores, artificially prepared materials and some chemical raw materials, and the Jun porcelain glazing is nano powder prepared by grinding.

The existing Jun porcelain glazing nanometer powder needs to be uniformly mixed, the device for glazing nanometer powder mixing adopts a resonance mode to uniformly mix the powder, but the powder is not easy to take out of the mixing device after being mixed, and the powder is directly poured into the mixing device, so that the time for uniformly mixing the powder is longer.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a nanometer powder mixing arrangement polishes to solve the device that is used for the nanometer powder that polishes to mix on the existing market that the above-mentioned background art provided and be difficult for taking out from mixing arrangement after the powder mixes, and in the mixing arrangement was all directly poured into to the powder, caused the longer problem of time of powder homogeneous mixing.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a nanometer powder mixing arrangement glazes porcelain, includes the mixing arrangement main part, install power unit in the mixing arrangement main part, and be equipped with material mixing chamber and lid in the mixing arrangement main part, mixing arrangement main part lower extreme is equipped with the base, and the base is square structure to be connected with support frame and two connecting rods on the base, be equipped with the mount between the connecting rod, and the mount is cylindrical frame construction to the mount bottom is cross structure, be equipped with the backing plate between mount and the base, and evenly run through on the mount and have anti-skidding gasket to the mount lower extreme is equipped with anti-skidding base, be equipped with the feeding ring on the lid, and the block has the pan feeding funnel on the feeding ring.

Preferably, the anti-skid gasket and the anti-skid base are made of rubber materials, and one side of the anti-skid gasket is of an arc-shaped structure.

Preferably, circular through holes are uniformly formed in the feeding funnel, and bulges are arranged at the lower end of each through hole of the feeding funnel.

Preferably, the feeding ring is composed of an upper layer of circular rings and a lower layer of circular rings which are the same in shape, the upper layer of circular rings and the lower layer of circular rings of the feeding ring are movably connected, and circular through holes which are the same as the feeding funnel in shape and size are formed in the feeding ring.

Preferably, the cover body is composed of an upper layer of discs and a lower layer of discs which are the same in shape, the cover body is provided with a circular through hole, and the joint of the upper layer of discs and the lower layer of discs of the cover body is also provided with an annular groove which is matched with the feeding ring in shape.

Preferably, the connecting rod is movably connected with the fixed frame through a bolt.

Compared with the prior art, the beneficial effects of the utility model are that: this nanometer powder mixing arrangement of glazing porcelain can make the even joining of nanometer powder of various materials mix the intracavity for nanometer powder's mixture is more high-efficient, can make the relative support frame of mount rotatory through the connecting rod after nanometer powder mixes, thereby makes mixing arrangement can incline and conveniently fall the material. This nanometer powder mixing arrangement of glazing porcelain is equipped with anti-skidding gasket on the mount, can avoid mixing arrangement to fix and take place to rock when carrying out the nanometer powder and mix on the mount, can pour into the pan feeding funnel with nanometer powder when feeding in raw material, avoids nanometer powder to drop and causes the waste.

Drawings

FIG. 1 is a schematic structural view of a glazing nano-powder mixing device of the present invention;

FIG. 2 is a top view of a nano-powder mixing device for glazing according to the present invention;

FIG. 3 is a schematic view of the structure of a feeding funnel of a glazed nano-powder mixing device of the present invention;

FIG. 4 is a schematic view of the bottom structure of the fixing frame of the glazed nano-powder mixing device of the present invention;

FIG. 5 is a side view of a feeding funnel of a glazed nano-powder mixing device of the present invention;

fig. 6 is a schematic view of the opening structure of the cover of the glazed nano-powder mixing device of the present invention.

In the figure: 1. mixing arrangement main part, 2, support frame, 3, mount, 4, anti-skidding gasket, 5, anti-skidding base, 6, pan feeding funnel, 7, power unit, 8, lid, 9, reinforced ring, 10, connecting rod, 11, compounding chamber, 12, base, 13, backing plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a glazing nanometer powder mixing device comprises a mixing device main body 1, a power mechanism 7 is installed on the mixing device main body 1, the power mechanism 7 is a power structure on the existing nanometer powder mixing device, nanometer powder is uniformly mixed and treated by the resonance principle, a mixing cavity 11 and a cover body 8 are arranged on the mixing device main body 1, a base 12 is arranged at the lower end of the mixing device main body 1, the base 12 is of a square structure, a support frame 2 and two connecting rods 10 are connected onto the base 12, a fixing frame 3 is arranged between the connecting rods 10, the fixing frame 3 is of a cylindrical frame structure, the bottom of the fixing frame 3 is of a cross structure, the mixing device main body 1 is conveniently supported, the connecting rods 10 are movably connected with the fixing frame 3 through bolts, the structure can enable the mixing device main body 1 to be inclined to conveniently pour out the nanometer powder by rotating the fixing frame 3 after the mixing device main body 1 mixes the nanometer powder, a backing plate 13 is arranged between the fixing frame 3 and the base 12, the backing plate 13 can support the mixing device main body 1 to prevent the mixing device main body 1 from shaking, an anti-slip gasket 4 uniformly penetrates through the fixing frame 3, an anti-slip base 5 is arranged at the lower end of the fixing frame 3, the anti-slip gasket 4 and the anti-slip base 5 are both made of rubber, one side of the anti-slip gasket 4 is of an arc structure, the anti-slip gasket 4 is conveniently attached to one side of the mixing device main body 1 to support the mixing device main body 1 by the fixing frame 3 to prevent the mixing device main body 1 from shaking during work, a feeding ring 9 is arranged on the cover body 8, a feeding funnel 6 is clamped on the feeding ring 9, circular through holes are uniformly formed in the feeding funnel 6, a bulge is arranged at the lower end of the through hole of the feeding funnel 6, the feeding funnel 6 is conveniently clamped on the feeding ring 9, so that nano powder enters the mixing cavity 11 through the matching of the feeding funnel 6 and, the feeding ring 9 is composed of upper and lower layers of circular rings with the same shape and size, the upper and lower circular rings of the feeding ring 9 are movably connected, a circular through hole with the same shape and size as the feeding funnel 6 is arranged on the feeding ring 9, the feeding ring 9 can rotate, feeding can be carried out when the upper and lower through holes correspond to each other, when the through holes do not correspond to each other, the mixing device main body 1 can be sealed, mixing of nano powder is facilitated, the cover body 8 is composed of upper and lower layers of disks with the same shape, a circular through hole is arranged on the cover body 8, an annular groove matched with the feeding ring 9 in shape is also arranged at the joint of the upper and lower layers of disks of the cover body 8, the feeding ring 9 can be embedded in the cover body 8 conveniently by the structure, the feeding ring 9 can rotate through the groove of the cover body 8, uniform feeding of the nano powder can be facilitated under the action of the rotating feeding ring, thereby the mixing of nanometer powder is more efficient.

The working principle is as follows: when the glazed nano powder mixing device is used, firstly, the feeding ring 9 is rotated to align through holes of an upper layer and a lower layer of the feeding ring 9, then the through holes of the feeding funnel 6 are aligned to the through holes of the feeding ring 9 to clamp the feeding funnel 6 on the feeding ring 9, then, the nano powder is poured on the feeding funnel 6, the feeding ring 9 is embedded in the cover body 8, the feeding ring 9 can rotate in the cover body 8, so that the feeding funnel 6 is driven to rotate, the nano powder can uniformly enter the mixing cavity 11, the difficulty of mixing can be reduced when the nano powder is uniformly poured into the mixing cavity 11, after the nano powder is added, the feeding funnel 6 is detached, the feeding ring 9 is rotated again to cover the through holes of the feeding ring 9, then, the nano powder is uniformly mixed by the resonance principle of the power mechanism 7, the mixing device main body 1 is stably supported on the base 12 by the backing plate 13 during mixing, after mixing, take out the backing plate 13 of inserting between mixing arrangement main part 1 and base 12, then lift lid 8 off, connecting rod 10 through base 12 upper end and 3 swing joint of mount rotates mount 3, thereby make mixing arrangement main part 1 slope, the convenient mixed nanometer powder pours out, mixing arrangement main part 1 can keep away from ground through the supporting role of mount 3 and support frame 2, avoid long-time work under humid environment to receive moisture corruption, the antiskid gasket 4 of mount 3 side and the antiskid base 5 of bottom can fix mixing arrangement main part 1, support frame 2 plays the effect of strengthening the protection of mount 3 to mixing arrangement main part 1 simultaneously, can avoid mixing arrangement main part 1 to drop from mount 3, thereby accomplish a series of works.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a nanometer powder mixing arrangement glazes porcelain, includes mixing arrangement main part (1), install power unit (7) in mixing arrangement main part (1), and be equipped with on mixing arrangement main part (1) and expect that chamber (11) and lid (8), its characterized in that: mixing arrangement main part (1) lower extreme is equipped with base (12), and base (12) are square structure to be connected with support frame (2) and two connecting rods (10) on base (12), be equipped with mount (3) between connecting rod (10), and mount (3) are cylindrical frame construction, and mount (3) bottom is cross structure, be equipped with backing plate (13) between mount (3) and base (12), and evenly run through on mount (3) and have anti-skidding gasket (4), and mount (3) lower extreme is equipped with anti-skidding base (5), be equipped with on lid (8) and add material ring (9), and the block has pan feeding funnel (6) on reinforced ring (9).

2. The glazing nano-powder mixing device according to claim 1, characterized in that: the anti-skid gasket (4) and the anti-skid base (5) are made of rubber materials, and one side of the anti-skid gasket (4) is of an arc-shaped structure.

3. The glazing nano-powder mixing device according to claim 1, characterized in that: circular through holes are uniformly formed in the feeding funnel (6), and protrusions are arranged at the lower end of each through hole of the feeding funnel (6).

4. The glazing nano-powder mixing device according to claim 3, characterized in that: the feeding ring (9) is composed of an upper layer and a lower layer of circular rings with the same shape, the upper layer and the lower layer of the feeding ring (9) are movably connected, and a circular through hole with the same shape and size as the feeding funnel (6) is formed in the feeding ring (9).

5. The glazing nano-powder mixing device according to claim 4, characterized in that: the cover body (8) is composed of an upper layer of disc and a lower layer of disc which are the same in shape, a circular through hole is formed in the cover body (8), and an annular groove which is matched with the feeding ring (9) in shape is further formed in the joint of the upper layer of disc and the lower layer of disc of the cover body (8).

6. The glazing nano-powder mixing device according to claim 1, characterized in that: the connecting rod (10) is movably connected with the fixed frame (3) through a bolt.

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