CN218144443U - Ceramic conveying mechanism - Google Patents

Abstract

A ceramic transport mechanism comprising: the device comprises a movable trolley, a fixed component and a rotating component; the fixed component is arranged on the movable trolley; the rotating component is connected with the fixed component; the fixed frame is arranged on the movable trolley; the transverse rotating shaft is transversely arranged on the fixed frame; the middle part between the two ends of the bracket is arranged on the transverse rotating shaft and rotates around the transverse rotating shaft as a rotating shaft; the underframe is rotatably arranged at the lower end of the bracket; the underframe is rotationally adjusted to be positioned above the surface of the bracket; the chassis is also rotationally adjusted to project outside of the bracket and offset above the surface of the bracket. This scheme provides a pottery transport mechanism, and it can be used for shifting pottery, can realize taking out pottery and shift to another process with pottery from arbitrary process in the processing line, has solved the problem that pottery is not nimble enough in processing production shift among the prior art effectively.

Description

Ceramic conveying mechanism

Technical Field

The utility model relates to a pottery conveyer technical field especially relates to a pottery transport mechanism.

Background

During the processing or forming process of the existing ceramic tiles, due to special needs (such as detection needs or sampling needs), the ceramic tiles need to be transferred from one processing device to another processing device; the prior art generally lifts the tile to another processing device manually, which increases the working strength of workers and damages the tile during the transfer process; prior art still can directly shift the ceramic tile through the ceramic tile production line, makes the ceramic tile pass through a plurality of processingequipment in proper order, and the ceramic tile stops after can arriving specific processingequipment, nevertheless this kind of way shifts the ceramic tile along the process sequence, and it can only shift the ceramic tile to the rear end of process sequence, can't shift the ceramic tile to the front end of process sequence, therefore the shift of ceramic tile is inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pottery transport mechanism, it can be used for shifting pottery, can realize taking out pottery and shifting to in another process with pottery from any process in the processing line.

To achieve the purpose, the utility model adopts the following technical proposal:

a ceramic transport mechanism comprising: the device comprises a movable trolley, a fixed component and a rotating component;

the fixed component is arranged on the movable trolley; the rotating assembly is connected to the fixing assembly;

the fixing assembly comprises: a fixed frame and a transverse rotating shaft;

the fixed frame is arranged on the movable trolley; the transverse rotating shaft is transversely arranged on the fixed frame;

the rotating assembly includes: a bracket and a chassis;

the middle part between the two ends of the bracket is arranged on the transverse rotating shaft and rotates around the transverse rotating shaft as a rotating shaft; the underframe is rotatably arranged at the lower end of the bracket;

the chassis is rotatably adjusted to be positioned above the surface of the bracket;

the chassis is also rotationally adjusted to project outside of the bracket and offset above the surface of the bracket.

Preferably, the method further comprises the following steps: a brick body limiting mechanism;

brick body stop gear includes: the limiting mounting seat and the limiting column are arranged on the base;

the limiting mounting seats are connected to the fixing assembly and are positioned on two sides of the bracket; one end of the limiting column is installed on the limiting installation seat, and the other end of the limiting column extends above the surface of the bracket.

Preferably, the limiting mounting seat is provided with an upright post; the upright post is provided with a transversely extending upright hole; one end of the limiting column is detachably mounted in the vertical hole.

Further optimally, the limiting column is matched with the vertical hole through a threaded structure.

Preferably, the fixing frame comprises: the device comprises a fixed base, a height adjusting sleeve and a fixed adjusting rod;

the bottom of the fixed base is arranged on the movable trolley; the height adjusting sleeve is fixed at one end of the fixed adjusting rod and coaxially sleeved on the transverse rotating shaft; the other end of the fixed adjusting rod is limited on the fixed base in a lifting adjusting way.

Preferably, the fixing frame comprises: a limiting plate;

the fixed base is provided with a height adjusting groove, the side wall of the fixed base is provided with a plurality of height adjusting openings which are communicated with each other inside and outside, and the height adjusting openings are sequentially distributed along the height direction of the fixed base; one end of the limiting plate detachably penetrates through the height-adjusting opening and is limited in the height-adjusting groove;

the fixed adjusting rod extends into the height adjusting groove and abuts against the surface of the limiting plate.

Preferably, the chassis includes: a bottom shaft and an L-shaped plate;

the bottom shaft is arranged at the lower end of the bracket and extends along the length direction of the bracket; the L-shaped plate is installed on the bottom shaft and rotates around the bottom shaft as a rotating shaft.

Preferably, the L-shaped plate is provided with a first rotating plate and a second rotating plate;

one end of the first rotating plate is rotatably connected to the bottom shaft, the other end of the first rotating plate is connected with the second rotating plate, and the second rotating plate and the bottom shaft are located on the same side face of the first rotating plate.

The utility model provides a technical scheme can include following beneficial effect:

the scheme provides a ceramic conveying mechanism, which can be used for transferring ceramic, can realize that the ceramic is taken out from any procedure in a processing line and transferred to another procedure, and effectively solves the problem that the ceramic is not flexible enough in processing production transfer in the prior art.

Drawings

FIG. 1 is a schematic structural view of one embodiment of a ceramic transport mechanism;

FIG. 2 is a schematic structural view of one embodiment of a ceramic transport mechanism;

FIG. 3 is an enlarged view of portion A of FIG. 2;

figure 4 is a schematic view of the structure of one embodiment of the chassis.

Wherein:

the device comprises a movable trolley 1, a fixed component 2 and a rotating component 3; a brick body limiting mechanism 4; a ceramic 9;

a fixed frame 21 and a transverse rotating shaft 22;

a fixed base 211, a height adjusting sleeve 212 and a fixed adjusting rod 213; a limit plate 214; a height-adjustment tank 215; an elevation port 216;

a bracket 31, a chassis 32; a bottom shaft 321, an L-shaped plate 322; a first rotary plate 3221 and a second rotary plate 3222;

a limiting mounting seat 41 and a limiting column 42; a column 411; a vertical hole 412.

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 some, not all, of the embodiments of the present invention. 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.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The technical solution of the present solution is further explained by the following embodiments with reference to the accompanying drawings.

A ceramic transport mechanism comprising: the device comprises a movable trolley 1, a fixed component 2 and a rotating component 3;

the fixed component 2 is arranged on the movable trolley 1; the rotating assembly 3 is connected to the fixed assembly 2;

the fixing assembly 2 comprises: a fixed frame 21 and a transverse rotating shaft 22;

the fixed frame 21 is arranged on the movable trolley 1; the transverse rotating shaft 22 is transversely arranged on the fixed frame 21;

the rotating assembly 3 comprises: a bracket 31 and a chassis 32;

the middle part between the two ends of the bracket 31 is arranged on the transverse rotating shaft 22 and rotates around the transverse rotating shaft 22 as a rotating shaft; the chassis 32 is rotatably mounted to the lower end of the bracket 31;

the chassis 32 is rotatably adjusted to be located above the surface of the bracket 31;

the chassis 32 is also rotatably adjusted to project outside the bracket 31 and to be offset above the surface of the bracket 31.

The scheme provides a ceramic conveying mechanism which can be used for transferring ceramic 9, can realize that ceramic 9 is taken out from any one procedure in a processing line and transferred to another procedure, and effectively solves the problem that the ceramic is not flexible enough in processing production transfer in the prior art.

Specifically, as shown in fig. 1, in an initial state, the chassis 32 is located above the surface of the carriage 31; when the ceramic is required to be transferred, the movable trolley 1 can be moved to a corresponding process, and the bracket 31 is driven to rotate; the bracket 31 rotates by taking the transverse rotating shaft 22 at the middle part as an axis, so that the bracket 31 horizontally faces or slantingly faces; the adjusted angle can facilitate the movement of the ceramics from the upper end of the bracket 31 to the bottom end of the bracket 31 along the length direction of the bracket 31, and finally the bottom end of the ceramics is abutted against the bottom frame 32; at this time, since the ceramics is located on the surface of the bracket 31 and the bottom of the ceramics is limited by the bottom frame 32, the ceramics is not easy to separate from the bracket 31; thereafter, the worker may turn the bracket 31, the bracket 31 rotates around the transverse rotation shaft 22, and the worker may hold the upper end of the bracket 31 by hand to control the angle of the bracket 31, so as to control the angle of the ceramic; the worker can control the direction of the movable trolley 1 through the upper end of the bracket 31, so that the movable trolley 1 reaches the destination; the worker then turns over the bracket 31 to enable the bracket 31 to face horizontally; thereafter, the worker may release the base frame 32 such that the base frame 32 is turned over to protrude outside the bracket 31 and the base frame 32 is deviated from the surface of the bracket 31 as shown in fig. 2, whereby the ceramics may be transferred from the lower end of the bracket 31 to another process by controlling the direction and force only through the upper end of the bracket 31.

Preferably, the method further comprises the following steps: a brick body limiting mechanism 4;

brick body stop gear 4 includes: a limiting mounting seat 41 and a limiting column 42;

the limiting installation seats 41 are connected to the fixing component 2 and are positioned at two sides of the bracket 31; one end of the limiting column 42 is installed on the limiting installation seat 41, and the other end of the limiting column 42 extends above the surface of the bracket 31.

The limiting mounting seat 41 can limit the left and right positions of the ceramic, so that the ceramic is prevented from being separated from the bracket 31 from the directions of two sides; meanwhile, because the bracket 31 is rotatable, the bracket 31 and the ceramic placed on the bracket 31 can rotate to compress the ceramic on the limiting column 42 under the action of gravity, so that the two sides of the ceramic are limited by the limiting mounting seat 41, the surface of the ceramic is compressed by the limiting column 42, the stability of ceramic transmission is improved, and the ceramic is prevented from falling off.

Preferably, the limiting installation seat 41 is provided with an upright column 411; the upright column 411 is provided with a vertical hole 412 extending transversely; one end of the limit post 42 is detachably mounted to the vertical hole 412.

The limiting column 42 is detachably mounted in the vertical hole 412; when the limit column 42 is used to limit the ceramic, the limit column 42 is only required to be installed in the vertical hole 412, so that the limit column 42 is arranged above the surface of the bracket 31. When the ceramic is driven to be in the vertical state by the bracket 31, the limit column 42 can be detached, so that the ceramic and the bracket 31 can be conveniently and vertically arranged, and the limit column 42 can be more flexibly used.

Preferably, the stop post 42 is engaged with the vertical hole 412 through a threaded structure.

Since the stopper post 42 is fitted to the upright hole 412 through a screw structure, the degree of screw fitting can be adjusted to control the position of the stopper post 42 above the surface of the bracket 31; in one embodiment, the limiting column 42 can be horizontally moved away from the upper surface of the bracket 31 by adjusting the thread structure; in one embodiment, the limiting column 42 can be detached from the upright hole 412 by adjusting the thread structure, so as to be far away from the upper surface of the bracket 31; in one embodiment, the limiting column 42 can move towards the upper part of the middle part of the bracket 31 by adjusting the thread structure, and the contact area between the limiting column 42 and the ceramic is larger and better in stability.

Preferably, the fixing frame 21 includes: a fixed base 211, a height adjusting sleeve 212 and a fixed adjusting rod 213;

the bottom of the fixed base 211 is mounted on the movable trolley 1; the height adjusting sleeve 212 is fixed at one end of the fixed adjusting rod 213, and the height adjusting sleeve 212 is coaxially sleeved on the transverse rotating shaft 22; the other end of the fixed adjusting rod 213 is limited on the fixed base 211 in a lifting adjustable manner.

In order to adapt to the heights of the processing devices in different working procedures, the fixing frame 21 can be set into a lifting structure; one end of the fixed adjusting rod 213 is connected with the transverse rotating shaft 22 through the height adjusting sleeve 212, and the other end of the fixed adjusting rod 213 is arranged on the fixed base 211 in a liftable manner; when the height position of the bracket 31 needs to be adjusted, the bracket 31 can be lifted only by adjusting the relative distance between the fixed adjusting rod 213 and the fixed base 211, so that the bracket is adapted to processing devices of different procedures.

Preferably, the fixing frame 21 includes: a limit plate 214;

the fixed base 211 is provided with a height-adjusting groove 215, the side wall of the fixed base 211 is provided with a plurality of height-adjusting ports 216 which are communicated with each other inside and outside, and the height-adjusting ports 216 are sequentially distributed along the height direction of the fixed base 211; one end of the limiting plate 214 detachably penetrates through the height-adjusting opening 216 and is limited in the height-adjusting groove 215;

the fixed adjusting rod 213 extends into the height-adjusting groove 215 and abuts against the surface of the limiting plate 214.

The limiting plate 214 can be installed in different height-adjusting grooves 215, and only one end of the limiting plate 214 needs to pass through the height-adjusting opening 216 and be placed in the height-adjusting groove 215; the plurality of height-adjusting openings 216 are sequentially distributed along the height direction of the fixed base 211; the restriction plate 214 thus represents different heights at different leveling ports 216; when the height of bracket 31 needs to be adjusted, only need stretch into height-adjusting mouth 216 that corresponds the height with limiting plate 214, the bottom of fixed adjustment pole 213 stretches into behind height-adjusting groove 215, can contact limiting plate 214, and then makes fixed adjustment pole 213 arrange corresponding height in, and rotating assembly 3 is adjusted to corresponding height to satisfy the bracket and shift the ceramic tile to the height that corresponds processingequipment.

Preferably, the chassis 32 comprises: a bottom shaft 321 and an L-shaped plate 322;

the bottom shaft 321 is mounted at the lower end of the bracket 31 and extends along the length direction of the bracket 31; the L-shaped plate 322 is mounted on the bottom shaft 321 and rotates around the bottom shaft 321 as a rotating shaft.

The extending direction of the bottom shaft 321 is the length direction of the bracket 31, so that when the L-shaped plate 322 rotates around the bottom shaft 321, it can rotate to be located above the surface of the bracket 31; the L-shaped plate 322 can also be rotated to lie on the side of the bracket 31 and be horizontally aligned with the bracket 31, possibly offset from the surface of said bracket 31.

More optimally, the L-shaped plate 322 is provided with a first rotating plate 3221 and a second rotating plate 3222;

one end of the first rotating board 3221 is rotatably connected to the bottom shaft 321, the other end of the first rotating board 3221 is connected to the second rotating board 3222, and the second rotating board 3222 and the bottom shaft 321 are located on the same side of the first rotating board 3221.

The second rotary board 3222 and the bottom shaft 321 are located on the same side of the first rotary board 3221, and a U-shaped portion 301 is formed between the second rotary board 3222 and the bracket 31 and can be used for accommodating ceramics; when the ceramic is located at the U-shaped portion, the ceramic is located between the second rotary plate 3222 and the bracket 31, and the L-shaped plate 322 is not easily turned over, so that the ceramic can be limited.

The technical principle of the present solution is described above with reference to specific embodiments. These descriptions are only used to explain the principles of the present solution and should not be interpreted in any way as limiting the scope of the present solution. Based on the explanations provided herein, a person skilled in the art will be able to conceive of other embodiments of the present solution without inventive effort, which shall fall within the scope of protection of the present solution.

Claims (8)

1. A ceramic transport mechanism, comprising: the device comprises a movable trolley, a fixed component and a rotating component;

the fixed component is arranged on the movable trolley; the rotating assembly is connected to the fixing assembly;

the fixing assembly includes: a fixed frame and a transverse rotating shaft;

the fixed frame is arranged on the movable trolley; the transverse rotating shaft is transversely arranged on the fixed frame;

the rotating assembly includes: a bracket and a chassis;

the middle part between the two ends of the bracket is arranged on the transverse rotating shaft and rotates around the transverse rotating shaft as a rotating shaft; the underframe is rotatably arranged at the lower end of the bracket;

the chassis is rotatably adjusted to be positioned above the surface of the bracket;

the chassis is also rotationally adjusted to project outside of the bracket and offset above the surface of the bracket.

2. The ceramic transport mechanism of claim 1, further comprising: a brick body limiting mechanism;

brick body stop gear includes: the limiting mounting seat and the limiting column are arranged on the base;

the limiting mounting seats are connected to the fixing assembly and are positioned on two sides of the bracket; the one end of spacing post install in spacing mount pad, the other end of spacing post extends in the surface top of bracket.

3. The ceramic conveying mechanism as claimed in claim 2, wherein the limit mounting seat is provided with a column; the upright post is provided with a transversely extending upright hole; one end of the limiting column is detachably mounted in the vertical hole.

4. A ceramic transport mechanism as claimed in claim 3, wherein the restraint posts are threaded into the vertical bores.

5. The ceramic transport mechanism of claim 1, wherein the fixture comprises: the height adjusting device comprises a fixed base, a height adjusting sleeve and a fixed adjusting rod;

the bottom of the fixed base is arranged on the movable trolley; the height adjusting sleeve is fixed at one end of the fixed adjusting rod and coaxially sleeved on the transverse rotating shaft; the other end of the fixed adjusting rod is limited on the fixed base in a lifting adjusting way.

6. The ceramic transport mechanism of claim 5, wherein the fixture comprises: a limiting plate;

the fixed base is provided with a height adjusting groove, the side wall of the fixed base is provided with a plurality of height adjusting openings which are communicated with each other inside and outside, and the height adjusting openings are sequentially distributed along the height direction of the fixed base; one end of the limiting plate detachably penetrates through the height-adjusting opening and is limited in the height-adjusting groove;

the fixed adjusting rod extends into the height adjusting groove and abuts against the surface of the limiting plate.

7. The ceramic transfer mechanism of any one of claims 1-6, wherein the chassis comprises: a bottom shaft and an L-shaped plate;

the bottom shaft is arranged at the lower end of the bracket and extends along the length direction of the bracket; the L-shaped plate is installed on the bottom shaft and rotates around the bottom shaft as a rotating shaft.

8. The ceramic transfer mechanism of claim 7, wherein the L-shaped plate is provided with a first rotating plate and a second rotating plate;

one end of the first rotating plate is rotatably connected to the bottom shaft, the other end of the first rotating plate is connected with the second rotating plate, and the second rotating plate and the bottom shaft are located on the same side face of the first rotating plate.

Images