CN112497481A

CN112497481A - Mixer for ceramic equipment

Info

Publication number: CN112497481A
Application number: CN202011304664.9A
Authority: CN
Inventors: 许添城
Original assignee: Guangzhou Chengqi Trading Co ltd
Current assignee: Guangzhou Chengqi Trading Co ltd
Priority date: 2020-11-19
Filing date: 2020-11-19
Publication date: 2021-03-16

Abstract

The invention discloses a mixer for ceramic equipment, which structurally comprises a bracket, a feeding machine, a centralized hopper and a stirrer, wherein the top of the bracket is connected with the top of the feeding machine in a welding way, the bottom of the centralized hopper is mutually communicated with the top of the stirrer and is connected with the top of the stirrer in an electric welding way, and the bottom of the stirrer is connected with the middle section of the bracket in a welding way. Avoid intensity to descend, bounce the wheel through gravity simultaneously and avoid the production of jam problem in the screening process.

Description

Mixer for ceramic equipment

Technical Field

The invention relates to the field of ceramic equipment, in particular to a mixer for ceramic equipment.

Background

The mixer is composed of a horizontal rotating container and a rotating vertical stirring blade, the rotating direction of the container is opposite to the rotating direction of the blade, so the moving directions of raw material particles are crossed by the reverse flow action, the contact chance is increased, the raw materials are uniformly mixed, different raw materials need to be mixed in the clay according to the required ceramic color and hardness before the ceramic is manufactured, therefore, the raw material mixing needs to be carried out by the mixer, feldspar and quartz need to be mixed in the clay when the porcelain is manufactured, the feldspar and quartz need to be made into the required shape and fired at high temperature after the thorough mixing, the feldspar and the quartz are blocky objects with different sizes, the mixer in the prior art only directly mixes the feldspar and the quartz into the clay, and when the firing is carried out, the small particles of the feldspar and the quartz can be mixed into the clay under high temperature, however, since large particles of feldspar and quartz are only partially melted into clay and part of feldspar and quartz remains in a block shape, the surface of the porcelain is raised, the appearance of the porcelain is affected, and the stress on the part is increased to reduce the strength.

Disclosure of Invention

In order to solve the problems, the invention provides a mixer for ceramic equipment.

In order to achieve the purpose, the invention is realized by the following technical scheme: a mixer for ceramic equipment structurally comprises a support, a feeding machine, a centralized hopper and a stirrer, wherein the top of the support is connected with the top of the feeding machine in a welding manner, the bottom surface of the centralized hopper is communicated with the top surface of the stirrer and is connected with the top surface of the stirrer in an electric welding manner, and the bottom of the stirrer is connected with the middle section of the support in a welding manner; the pan feeding machine includes that fixed plate, top cap, separation are fought, grinding wheel, output tube, the fixed plate top surface is connected with the top cap left side is articulated, the separation is fought the top surface and is welded in the fixed plate bottom surface, output tube top surface and separation are fought the bottom surface and are put through each other and be connected through the electric welding, the central activity block of grinding wheel is in the output tube inner wall, the grinding wheel is equipped with a plurality ofly, and the surface roughening handles.

Further, the separation is fought including outer wall, leading-in slope, isolating structure, activity groove, division board, outer wall inlayer and leading-in slope right side fixed connection, isolating structure right side and division board top surface activity block, the division board back of the body welds inside the outer wall, the activity groove is the integrated into one piece with the outer wall is inside, the isolating structure left side and the contact of activity inslot inlayer each other, leading-in slope is the smooth triangle-shaped plate structure of 15 oblique settings.

Furthermore, the separation structure includes filter plate, sliding block, spacing groove, laminating wheel, gravity bounce wheel, the sliding block imbeds in the filter plate middle section, the sliding block both sides and spacing inslot wall contact each other, laminating wheel right side imbeds in the filter plate left side, gravity bounce wheel center and filter plate right side fixed connection, laminating wheel skin is the silica gel material manufacturing.

Still further, the gravity bounce wheel includes solid fixed ring, slip track, pressure handle ring, roll axis, laminating stick, gu fixed ring is inside to be integrated with the slip track shaping, press handle ring inner ring and roll axis outer loop activity block, roll axis outer loop and laminating stick bottom fixed connection, slip track inlayer and laminating stick top mutual contact, the slip track is the smooth dual type track structure of inner wall.

Furthermore, the laminating stick includes connecting seat, flexible card post, extension spring, the shell that warp, roll head, connecting seat top surface and flexible card post bottom surface welded connection, extension spring fixed mounting is in the shell inlayer that warp, roll head inside with flexible card post top activity block, the shell right side and the flexible card post left side fixed connection that warp, it adopts rubber materials to make to warp the shell.

Still further, flexible card post includes hollow stick, spring, stretches out post, dop, collecting storage, hollow stick inside and spring bottom surface fixed connection, hollow stick inner wall with stretch out post transitional coupling, dop one side is connected with stretch out post one side through collecting storage, be equipped with spring structure in the collecting storage, hollow stick inner wall is equipped with the recess the same with the dop shape.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the feldspar and the quartz required by porcelain firing are added through the feeding machine, the large feldspar and the quartz are separated from the small feldspar and the quartz through the separation structure arranged in the feeding machine, the two parts fall through different sides, the small feldspar and the quartz can directly enter the mixed material, the large feldspar and the quartz can be crushed for multiple times and then put into the mixed material, the mixed material is effectively ensured to be completely burnt, the phenomenon that the surface of the porcelain is raised due to the incompletely burnt feldspar and quartz is avoided, the cleanness of the porcelain surface is ensured, the strength is prevented from being reduced, and the blockage problem in the screening process is avoided through the gravity bouncing wheel.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a mixer for ceramic equipment according to the present invention.

Fig. 2 is a front view of the feeding machine of the present invention.

Fig. 3 is a schematic structural view of a front section of the separating hopper of the present invention.

Fig. 4 is a schematic structural view of a front cross section of the separation structure of the present invention.

Fig. 5 is a schematic structural view of a front section of the gravity pop-up wheel of the present invention.

FIG. 6 is a schematic structural view of a front cross-section of a conformable rod of the present invention.

Fig. 7 is a schematic structural view of a front cross section of the retractable clamping column of the present invention.

In the figure: support-1, material feeding machine-2, collecting hopper-3, stirrer-4, fixing plate-21, top cover-22, separating hopper-23, grinding wheel-24, output pipe-25, outer wall-231, guide slope-232, separating structure-233, movable groove-234, isolating plate-235, filter plate-A1, slide block-A2, limiting groove-A3, fit wheel-A4, gravity bounce wheel-A5, fixing ring-A51, slide track-A52, press handle ring-A53, rolling shaft-A54, fit rod-A55, connecting seat-B1, telescopic clamp column-B2, tension spring-B3, deformation shell-B4, rolling head-B5, hollow rod-B21, spring-B22, extending column-B23, clamp head-B24, and elastic force-B3, Storage bin-B25.

Detailed Description

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

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The first embodiment is as follows:

referring to fig. 1-4, the embodiments of the present invention are as follows: a mixer for ceramic equipment structurally comprises a support 1, a feeding machine 2, a centralized hopper 3 and a stirrer 4, wherein the top of the support 1 is connected with the top of the feeding machine 2 in a welding manner, the bottom surface of the centralized hopper 3 is communicated with the top surface of the stirrer 4 and is connected with the top surface of the stirrer 4 through electric welding, and the bottom of the stirrer 4 is connected with the middle section of the support 1 in a welding manner; go into material machine 2 and include fixed plate 21, top cap 22, separation fill 23, grinding wheel 24, output tube 25, fixed plate 21 top surface and top cap 22 left side are articulated to be connected, the separation is fought 23 top surfaces and is welded in fixed plate 21 bottom surface, output tube 25 top surface and separation are fought 23 bottom surfaces and are put through each other and be connected through the electric welding, grinding wheel 24 center activity block in output tube 25 inner wall, grinding wheel 24 is equipped with a plurality ofly, and the surface roughening handles, is favorable to the reinforcing to roll the effect, avoids the large granule to pass through.

Wherein, the separation fill 23 includes outer wall 231, leading-in slope 232, isolating construction 233, activity groove 234, division board 235, outer wall 231 inlayer and leading-in slope 232 right side fixed connection, the isolating construction 233 right side and the activity block of division board 235 top surface, division board 235 back weld is inside outer wall 231, activity groove 234 and the inside integrated into one piece that is of outer wall 231, the left side of division construction 233 and the interior contact of activity groove 234 inlayer, leading-in slope 232 is the smooth triangle-shaped plate structure of 15 oblique settings, is favorable to reducing when possessing the gravity guide ability and remains.

Wherein, separation structure 233 includes filter plate A1, sliding block A2, spacing groove A3, laminating wheel A4, gravity bounce wheel A5, sliding block A2 is embedded in filter plate A1 middle section, sliding block A2 both sides and spacing groove A3 inner wall contact each other, laminating wheel A4 right side is embedded in filter plate A1 left side, gravity bounce wheel A5 center and filter plate A1 right side fixed connection, laminating wheel A4 is outer to be the silica gel material manufacturing, is favorable to strengthening sealed effect.

Based on the above embodiment, the specific working principle is as follows: clay is added into the stirrer 4, then the top cover 22 of the feeder 2 is opened, and the required feldspar and quartz blocks are added, after the added raw materials enter the feeder 2, the added raw materials firstly pass through the separating hopper 23 and impact on the separating structure 233 through the lead-in breaker 232, the separating structure 233 is provided with the filter plate a1, so that the conforming raw materials directly fall into the stirrer 4 through the filter plate a1 to be mixed with the clay, while the non-conforming raw materials are blocked by the filter plate a1 and fall from the right side of the separating plate 235 through an inclined angle, enter the position where the grinding wheel 24 is installed, are ground by the grinding wheel 24, become qualified small blocks, fall into the stirrer 4 to be stirred, when accumulation is generated on the filter plate a1, corresponding weight is generated according to the amount of accumulation, so that the adhering wheel a4 is ejected and slowly moves downwards along the movable groove 234, keep the laminating state throughout, avoid spilling, while the sliding block A2 of isolating construction also slides along spacing groove A3, and gravity reaches after the certain degree, can bounce through gravity wheel A5, makes its upper side accumulational large granule thrown away, once only passes through from division board 235 right side.

Example two:

referring to fig. 5-7, the embodiment of the present invention is as follows: gravity bounce wheel A5 is including solid fixed ring A51, slip track A52, pressure handle ring A53, rolling axle A54, laminating stick A55, gu fixed ring A51 is inside to be integrated into one piece with slip track A52, press handle ring A53 inner ring and rolling axle A54 outer ring activity block, rolling axle A54 outer ring and laminating stick A55 bottom fixed connection, slip track A52 inlayer and laminating stick A55 top mutual contact, slide track A52 is the smooth two U type track structures of inner wall, is favorable to steady direction, reduces the frictional force that produces when laminating stick A55 slides simultaneously.

Wherein, laminating stick A55 includes connecting seat B1, flexible card post B2, extension spring B3, warp shell B4, rolling head B5, connecting seat B1 top surface and flexible card post B2 bottom surface welded connection, extension spring B3 fixed mounting is in warping shell B4 inlayer, roll head B5 inside and flexible card post B2 top activity block, warp shell B4 right side and flexible card post B2 left side fixed connection, it adopts rubber materials to make to warp shell B4, is favorable to keeping certain deformability when having certain support nature.

Wherein, flexible card post B2 includes hollow stick B21, spring B22, stretches out post B23, dop B24, storage bin B25, hollow stick B21 is inside and spring B22 bottom surface fixed connection, hollow stick B21 inner wall with stretch out post B23 transitional coupling, dop B24 one side is connected with stretching out post B23 one side through storage bin B25, be equipped with the spring structure in the storage bin B25, hollow stick B21 inner wall is equipped with the recess the same with dop B24 shape, is favorable to mutually supporting to make dop B24 can control the extension distance that stretches out post B23.

Based on the above embodiment, the specific working principle is as follows: after more and more deposits are accumulated, the rolling shaft A54 in the gravity pop-up wheel A5 rotates due to the compression, so the attaching rod A55 is driven to rotate, the rolling head B5 at the top end of the attaching rod A55 is clamped in the lower track of the sliding track A52, the attaching rod A55 gradually moves leftwards due to the rotation, and simultaneously presses the deforming shell B4 to deform, the tension spring B3 generates elasticity, when the deposits are excessive, the rolling head B5 moves to the leftmost end of the sliding track A52, the track is an arc track, the rolling head B5 is guided upwards, and the spring B22 of the telescopic clamping column B2 ejects the extending column B23 due to the change of the track from the lower track to the upper track, the clamping head B24 is clamped in the groove in the inner layer of the hollow rod B21 to be fixed, after the track is changed, the elastic force generated by the tension spring B3 and the deforming shell B4 can directly push the telescopic clamping column B2 to move rightwards, the roll axis a54 is reversed, thereby creating a large lifting force to eject the stack.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a blendor that ceramic equipment used, its structure includes support (1), pan feeding machine (2), concentrates fill (3), agitator (4), its characterized in that:

the top of the support (1) is welded with the top of the feeding machine (2), the bottom surface of the centralized hopper (3) is communicated with the top surface of the stirrer (4) and is connected with the top surface of the stirrer (4) through electric welding, and the bottom of the stirrer (4) is welded with the middle section of the support (1);

go into material machine (2) and fight (23), muller (24), output tube (25) including fixed plate (21), top cap (22), separation, fixed plate (21) top surface and top cap (22) left side are articulated to be connected, separation fill (23) top surface welds in fixed plate (21) bottom surface, output tube (25) top surface and separation are fought (23) bottom surface and are put through each other and are connected through the electric welding, muller (24) center activity block closes in output tube (25) inner wall.

2. The mixer for ceramic plant according to claim 1, characterized in that: separating hopper (23) include outer wall (231), leading-in slope (232), isolating construction (233), activity groove (234), division board (235), outer wall (231) inlayer and leading-in slope (232) right side fixed connection, dividing construction (233) right side and division board (235) top surface activity block, division board (235) back weld is inside outer wall (231), activity groove (234) and the inside integrated into one piece that is of outer wall (231), dividing construction (233) left side and activity groove (234) inlayer contact each other.

3. The mixer for ceramic plant according to claim 1, characterized in that: separation structure (233) include filter plate (A1), sliding block (A2), spacing groove (A3), laminating wheel (A4), gravity bounce wheel (A5), sliding block (A2) is embedded in filter plate (A1) middle section, sliding block (A2) both sides and spacing groove (A3) inner wall contact each other, laminating wheel (A4) right side is embedded in filter plate (A1) left side, gravity bounce wheel (A5) center and filter plate (A1) right side fixed connection.

4. A mixer for ceramic plant according to claim 3, characterized in that: gravity bounce wheel (A5) is including solid fixed ring (A51), slip track (A52), pressure handle ring (A53), rolling axle (A54), laminating stick (A55), gu fixed ring (A51) is inside to be integrated into one piece with slip track (A52), press handle ring (A53) inner ring and rolling axle (A54) outer loop activity block, rolling axle (A54) outer loop and laminating stick (A55) bottom fixed connection, slip track (A52) inlayer and laminating stick (A55) top mutual contact.

5. The mixer for ceramic plant according to claim 4, characterized in that: laminating stick (A55) is including connecting seat (B1), flexible card post (B2), extension spring (B3), deformation shell (B4), rolling head (B5), connecting seat (B1) top surface and flexible card post (B2) bottom surface welded connection, extension spring (B3) fixed mounting is in deformation shell (B4) inlayer, rolling head (B5) inside and flexible card post (B2) top activity block, it blocks post (B2) left side fixed connection with flexible card to warp shell (B4) right side.

6. The mixer for ceramic plant according to claim 5, characterized in that: flexible card post (B2) includes hollow stick (B21), spring (B22), stretches out post (B23), dop (B24), storage bin (B25), hollow stick (B21) inside and spring (B22) bottom surface fixed connection, hollow stick (B21) inner wall with stretch out post (B23) transitional coupling, dop (B24) one side is connected with one side of stretching out post (B23) through storage bin (B25).