CN215471853U - Grouting device - Google Patents

Abstract

A grouting device comprises a grouting conveying belt, a grouting mechanism and a mold rotating mechanism, wherein the grouting conveying belt, the grouting mechanism and the mold rotating mechanism are arranged on a grouting rack; the grouting conveying belt is used for conveying the plaster mold placed on the mold placing plate; the grouting mechanism comprises a grouting lifting assembly and a grouting pipe, wherein the grouting lifting assembly is arranged on the grouting mounting frame and is used for driving the grouting pipe to do lifting motion; the die rotating mechanism comprises a die rotating assembly and a die lifting assembly; the rotary die assembly is used for rotating the die placing plate so as to realize rotary grouting of the plaster die in the grouting process; the mould lifting assembly is used for driving the mould rotating assembly to do lifting movement, so that the mould rotating assembly is in contact with and separated from the mould placing plate. According to the utility model, the rotating lifting of the plaster mold is realized in the grouting process, so that the slurry is ensured to be fully contacted with the inner wall, the slurry can be uniformly hung on the inner wall of the plaster mold, air is prevented from entering the slurry, the formed model is enabled to generate bubbles, the grouting effect is improved, and the slurry is prevented from splashing to cause damage to personnel and equipment.

Description

Grouting device

Technical Field

The utility model relates to the technical field of grouting forming, in particular to a grouting device.

Background

In the ceramic industry, the manufacture and molding of domestic ceramics are mostly poured by a grouting molding method, the grouting molding method is simple, namely, slurry made of blanks is injected into a gypsum model, and because the gypsum model has water absorption, moisture in the slurry close to the inner wall of the model is sucked by porous gypsum to form a mud layer with the same shape as the inner wall of the model on the inner wall of the gypsum model, and the mud layer is thickened along with the increase of time. After stopping for a period of time, pouring out the excess slurry, and leaving the mud layer close to the inner wall of the gypsum model in the model; after a period of time, the mud layer naturally shrinks and is separated from the model, and the formed rough blank can be taken out;

in the slip casting process, whether the thick liquids can fully contact with the inner wall of the gypsum mould and avoid the slip casting process in which too much air enters the gypsum mould along with the thick liquids is an important basic point for improving the slip casting effect, the traditional slip casting technology adopts a slip casting pipe to directly slip casting above a slip casting opening or at a certain distance in a non-slip casting opening, the mode easily causes the thick liquids to splash and the thick liquids can not fully contact with the inner wall of the gypsum mould, and the slip casting effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a grouting device aiming at the defects in the background technology, which ensures that slurry can be uniformly hung on the inner wall of a plaster mold by realizing rotary lifting of the plaster mold in the grouting process and prevents air from entering the slurry, so that bubbles appear in the molded model, the grouting effect is improved, and the slurry is prevented from splashing to damage personnel and equipment.

In order to solve the problems, the utility model is realized according to the following technical scheme:

the utility model relates to a grouting device, which comprises a grouting conveying belt, a grouting mechanism and a mold rotating mechanism, wherein the grouting conveying belt is arranged on a grouting rack;

the grouting conveying belt is used for conveying the gypsum mold placed on the mold placing plate;

the grouting mechanism comprises a grouting lifting assembly and a grouting pipe, wherein the grouting lifting assembly is arranged on the grouting mounting frame and is used for driving the grouting pipe to do lifting motion;

the die rotating mechanism comprises a die rotating assembly and a die lifting assembly;

the rotary die assembly is used for rotating the die placing plate so as to enable the gypsum die to realize rotary grouting in the grouting process;

the die lifting assembly is used for driving the die rotating assembly to do lifting movement, so that the die rotating assembly is in contact with and separated from the die placing plate.

Preferably, the grouting lifting assembly comprises a grouting cylinder fixing frame, a grouting cylinder, a grouting transmission bearing and a grouting sliding block;

the grouting cylinder fixing frame is arranged on the grouting mounting frame and fixedly provided with the grouting cylinder;

the grouting cylinder is connected with the grouting transmission bearing, and the grouting sliding block is slidably mounted on the grouting transmission bearing;

the grouting pipe is arranged on the grouting sliding block through a grouting pipe mounting plate;

the grouting cylinder is used for driving the grouting sliding block to lift and slide along the grouting transmission shaft bearing so as to drive the grouting pipe to lift.

Preferably, the rotary die assembly comprises a rotary die cylinder arranged on the rotary die mounting frame, a bearing seat and a rotating shaft sleeved in the bearing seat;

one end of the rotating shaft is provided with a tray, and the other end of the rotating shaft is provided with a rotating swing arm which is connected with a telescopic air shaft of the rotary die cylinder;

the rotary die mounting frame is also provided with a swing limiting block, and the swing limiting block is provided with a swing space;

the rotary swing arm can swing in the swing space.

Preferably, the die lifting assembly comprises a die lifting cylinder and a die lifting guide post which are arranged on the die lifting mounting plate;

the die lifting guide column is sleeved with a linear bearing, and the linear bearing is fixedly installed with the rotating die mounting frame;

and a lifting air shaft of the mold lifting air cylinder is fixedly installed with the rotating mold installation frame.

Preferably, the grouting frame is provided with a grouting blocking mechanism;

the grouting blocking mechanism comprises a blocking mounting frame, a blocking cylinder and a buffering air shaft;

the blocking cylinder is arranged on the blocking mounting frame and is provided with the buffer air shaft;

the top of buffering gas axle is provided with the wheel that blocks, block the wheel cooperation buffering gas axle is in order to cushion the board is placed to the mould, makes the gypsum mould stop in under the slip casting pipe.

Preferably, the body of the grouting pipe is provided with an electric valve.

Compared with the prior art, the utility model has the beneficial effects that:

the rotating die assembly is arranged to rotate the gypsum die, the lifting die assembly is arranged to lift the gypsum die, the grouting pipe is lifted by the grouting lifting mechanism, the gypsum die is lifted and lowered during grouting, the grouting pipe is inserted into the gypsum die to perform grouting, the gypsum die is rotated in the grouting process, the slurry is guaranteed to be fully contacted with the inner wall, the slurry can be evenly hung on the inner wall of the gypsum die, the grouting effect is improved, the gypsum die is gradually lowered along with the increase of slurry inside the gypsum die, the grouting pipe gradually rises along with the increase of slurry inside the gypsum die, the proper height of the grouting pipe and the slurry is guaranteed to be always kept, the slurry is prevented from splashing, the damage to personnel and equipment is prevented, air is prevented from entering the slurry, and bubbles are prevented from appearing on the molded model.

Drawings

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

FIG. 1 is a schematic structural diagram of a grouting device according to an embodiment of the utility model;

FIG. 2 is a schematic structural view of a grouting stand according to an embodiment of the utility model;

FIG. 3 is a schematic structural diagram of a grouting mechanism according to an embodiment of the utility model;

FIG. 4 is a schematic structural view of a grouting blocking mechanism according to an embodiment of the utility model;

FIG. 5 is a schematic structural view of a rotary die mechanism of one embodiment of the present invention;

fig. 6 is a schematic structural view of a rotary die mechanism according to an embodiment of the present invention.

Wherein: the grouting machine frame 1, the grouting conveying belt 2, the grouting mechanism 3, the grouting mounting frame 31, the grouting cylinder fixing frame 32, the grouting cylinder 33, the grouting transmission bearing 34, the grouting slide block 35, the grouting pipe 36, the electric valve 37, the mold rotating mechanism 4, the mold rotating assembly 41, the mold rotating mounting frame 410, the mold rotating cylinder 411, the bearing seat 412, the rotating shaft 413, the tray 414, the cushion 415, the swing limiting block 416, the rotating swing arm 417, the mold lifting assembly 42, the mold lifting mounting plate 421, the mold lifting cylinder 422, the mold lifting guide pillar 423, the linear bearing 424, the lifting air shaft 425, the mold placing plate 5, the grouting blocking mechanism 6, the blocking mounting frame 61, the blocking cylinder 62, the buffer air shaft 63, the blocking wheel 64 and the plaster mold A.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation only and are not to be construed as limitations of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, 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, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The grouting device disclosed by the utility model comprises a grouting conveying belt 2, a grouting mechanism 3 and a rotary die mechanism 4, wherein the grouting conveying belt 2, the grouting mechanism 3 and the rotary die mechanism are arranged on a grouting rack 1;

the grouting conveying belt 2 is used for conveying the plaster molds placed on the mold placing plate 5;

the grouting mechanism 3 comprises a grouting lifting assembly and a grouting pipe 36, wherein the grouting lifting assembly is mounted on the grouting mounting frame 31 and is used for driving the grouting pipe 36 to do lifting motion;

the rotary die mechanism 4 comprises a rotary die assembly 41 and a die lifting assembly 42;

the rotary die assembly 41 is used for rotating the die placing plate 5 to enable the gypsum die to realize rotary grouting in the grouting process;

the mold lifting assembly 42 is used for driving the mold rotating assembly 41 to perform lifting movement, so that the mold rotating assembly 41 is in contact with and separated from the mold placing plate 5.

Whether the slurry can be fully contacted with the inner wall of the gypsum mold in the grouting process and whether excessive air enters the gypsum mold along with the slurry in the grouting process are avoided, so that the important basic point for improving the grouting effect is provided. In order to solve the above problem, the present application provides a grouting device, specifically including: the grouting conveying belt 2 is used for conveying the plaster molds, and it should be noted that the plaster molds in the embodiment are placed on the mold placing plate 5, and then the mold placing plate 5 is placed on the grouting conveying belt 2 for transportation; when the grouting conveyer belt 2 conveys the plaster molds to the position right below the grouting mechanism 3, then the mold lifting assembly 42 drives the mold rotating assembly 41 to lift, the mold rotating assembly 41 lifts to drive the plaster molds on the mold placing plate 5 to lift, the grouting elevating assembly then drives the grouting pipe 36 to descend, so that the grouting pipe 36 extends from the grouting opening of the plaster mold into the interior of the plaster mold, and then grouting is performed through the grouting pipe 36, during the grouting, the rotary die assembly 41 rotates the die-placing plate 5, so that the plaster mold rotates at the time of grouting, the full contact between the slurry and the inner wall of the plaster mold is ensured through rotation, the slurry can be evenly hung on the inner wall of the plaster mold, the grouting effect is improved, meanwhile, slurry injected into the gypsum mold synchronously rotates and shakes by rotating the gypsum mold to discharge redundant air in the grouting process;

further, it should be noted that the grouting pipe 36 initially extends into the bottom of the gypsum mold, rather than only into the grouting opening, so that during initial grouting, splashing of the grout due to an excessively high height difference between the grouting pipe 36 and the inner bottom of the gypsum mold is avoided, air caused by the height difference is reduced, and air bubbles in the molded mold due to the air are avoided;

along with the more and more thick liquids in the gypsum mold, the mold lifting assembly 42 gradually drives the mold rotating assembly 41 to descend, and the mold rotating assembly 41 descends to drive the gypsum mold on the mold placing plate 5 to descend, that is, it can be understood here that, along with the gradual increase of the thick liquids in the gypsum mold, the gypsum mold gradually rotates and descends, so that the grouting pipe 36 and the thick liquids in the gypsum mold are always kept at a small distance, and an excessively high height difference is avoided, and meanwhile, the situation that the grouting pipe 36 is polluted by the thick liquids in the gypsum mold to cause pressure to the grout outlet of the grouting pipe 36 due to the fact that the thick liquids in the gypsum mold are submerged by the ascending of the thick liquids in the gypsum mold can also be avoided, and the situation that the thick liquids drop after the subsequent grouting pipe 36 is lifted up can be caused.

Preferably, as shown in fig. 3, the grouting lifting assembly comprises a grouting cylinder fixing frame 32, a grouting cylinder 33, a grouting transmission bearing 34 and a grouting sliding block 35;

the grouting cylinder fixing frame 32 is mounted on the grouting mounting frame 31, and the grouting cylinder 33 is fixedly mounted on the grouting cylinder fixing frame;

the grouting cylinder 33 is connected with the grouting transmission bearing 34, and the grouting sliding block 35 is slidably mounted on the grouting transmission bearing 34;

the grouting pipe 36 is mounted on the grouting slide block 35 through a grouting pipe 36 mounting plate;

the grouting cylinder 33 is used for driving the grouting sliding block 35 to slide up and down along the grouting transmission bearing 34 so as to drive the grouting pipe 36 to move up and down.

In this embodiment, slip casting cylinder 33 provides power drive slip casting transmission bearing 34 carries out the transmission to order about slip casting slider 35 is along slip casting bearing is elevating movement, and then drives slip casting pipe 36 goes up and down, it needs to explain that, when the slip casting, drive actuating cylinder drive slip casting pipe 36 descends and stretches into in the gypsum mould and carry out the slip casting, and after the slip casting was accomplished, slip casting cylinder 33 drive slip casting pipe 36 rises, avoids blockking the transportation of next gypsum mould.

Preferably, as shown in fig. 5 and 6, the rotary die assembly 41 includes a rotary die cylinder 411 mounted on the rotary die mounting bracket 410, a bearing seat 412 and a rotary shaft 413 sleeved in the bearing seat 412;

a tray 414 is installed at one end of the rotating shaft 413, a rotating swing arm 417 is installed at the other end of the rotating shaft 413, and the rotating swing arm 417 is connected with a telescopic air shaft of the rotary die cylinder 411;

the rotary die mounting frame 410 is further provided with a swing limiting block 416, and the swing limiting block 416 is provided with a swing space;

the rotation swing arm 417 can swing within the swing space.

In this embodiment, the bearing seat 412 is sleeved outside the rotating shaft 413, the rotating shaft 413 is vertically installed on the top of the rotating mold mounting frame 410, a tray 414 is arranged on the top of the rotating shaft 413, the tray 414 is provided with a cushion 415, and before the plaster mold is rotated, the tray 414 is in contact with the mold placing plate 5; the bottom of the rotating shaft 413 is provided with the rotating swing arm 417, the rotating swing arm 417 is connected with a telescopic air shaft of the rotating cylinder 411, when the rotating cylinder 411 drives the telescopic air shaft to extend and retract, the rotating swing arm 417 can be driven to swing in a swing space of the swing limiting block 416, so as to drive the rotating shaft 413 to rotate, the rotating shaft 413 can drive the tray 414 on the top of the rotating shaft to synchronously rotate, and the mold placing plate 5 can synchronously rotate because the tray 414 is in contact with the mold placing plate 5, so as to drive the plaster mold to rotate;

when grouting is not needed, the rotating die assembly 41 is positioned below the grouting conveying belt 2, so that the rotating die assembly 41 is prevented from influencing the conveying of the plaster molds.

Preferably, the die lifting assembly 42 includes a die lifting cylinder 422 and a die lifting guide column 423 mounted on a die lifting mounting plate 421;

the die lifting guide column 423 is sleeved with a linear bearing 424, and the linear bearing 424 is fixedly installed with the rotary die mounting frame 410;

the lifting air shaft 425 of the mold lifting air cylinder 422 is fixedly mounted with the mold rotating mounting frame 410.

In this embodiment, the mold lifting guide pillars 423 are respectively installed at four corners of the upper portion of the mold lifting mounting plate 421, the bottom of the mold lifting guide pillars is provided with a mold lifting cylinder 422, and a lifting air shaft 425 of the mold lifting cylinder 422 penetrates through the mold lifting mounting plate 421 to be connected with the mold rotating mounting frame 410;

further, the mold lifting guide column 423 is externally sleeved with a linear bearing 424, the linear bearing 424 fixes the mold lifting mounting frames 410 to each other, so when the mold lifting cylinder 422 drives the lifting air shaft 425 to lift, the mold lifting mounting frames 410 are driven to lift along the mold lifting guide column 423 through the linear bearing 424, thereby realizing the overall lifting of the mold lifting mounting frames 410, and the mold rotating assemblies 41 are mounted on the mold lifting mounting frames 410, so the mold rotating assemblies 41 can be synchronously driven to lift integrally, it should be noted that before the grouting is prepared, the grouting conveyor 2 conveys the plaster molds on the mold placing plate 5 to a proper position, the mold lifting assemblies 42 drive the mold rotating assemblies 41 to lift to contact the mold placing plate 5, and then the mold placing plate 5 is lifted to a certain height by driving the mold rotating assemblies 41, and then stopping, waiting for grouting, and in the grouting process, as the slurry in the plaster mold increases, the mold lifting assembly 42 drives the mold rotating assembly 41 to gradually descend so as to drive the plaster mold to gradually descend.

Preferably, as shown in fig. 4, the grouting stand 1 is provided with a grouting blocking mechanism 6;

the grouting blocking mechanism 6 comprises a blocking mounting frame 61, a blocking cylinder 62 and a buffer air shaft 63;

the blocking cylinder 62 is mounted on the blocking mounting frame 61, and the blocking cylinder 62 is provided with the buffer air shaft 63;

the top of the buffer air shaft 63 is provided with a blocking wheel 64, and the blocking wheel 64 is matched with the buffer air shaft 63 to buffer the mould placing plate 5, so that the plaster mould stops under the grouting pipe 36.

In this embodiment, the grouting conveyor 2 transports the plaster molds which need to be stopped accurately below the grouting pipe 36, and the plaster molds will move forward for a certain distance when stopping due to the transport inertia, in order to solve this problem, the present application provides the grouting blocking mechanism 6, when the mold placing plate 5 bearing the plaster molds contacts the blocking wheel 64, the blocking wheel 64 cooperates with the buffer air shaft 63 to offset the forward inertia, so that the mold placing plate 5 stops, after the grouting is completed, the grouting conveyor 2 transports the plaster molds to move forward, at this time, the mold placing plate 5 presses the blocking wheel 64, the buffer air shaft 63 elastically descends, so that the mold placing plate 5 moves forward through the blocking wheel 64;

it should be noted that, in this application, the grouting blocking mechanism 6 may also be disposed at the end of the grouting conveyor 2 to block the grouted plaster mold from falling off the grouting conveyor 2.

Preferably, the body of the grouting pipe 36 is provided with an electric valve 37.

In this embodiment, the electric valve 37 is a kaji electric butterfly valve for controlling the opening and closing of the grouting pipe 36, and controlling the grouting rate and flow rate.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, so that any modification, equivalent change and modification made to the above embodiment according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.

Claims (6)

1. A grouting device is characterized in that:

the grouting machine comprises a grouting conveying belt, a grouting mechanism and a mold rotating mechanism, wherein the grouting conveying belt is arranged on a grouting rack;

the grouting conveying belt is used for conveying the gypsum mold placed on the mold placing plate;

the grouting mechanism comprises a grouting lifting assembly and a grouting pipe, wherein the grouting lifting assembly is arranged on the grouting mounting frame and is used for driving the grouting pipe to do lifting motion;

the die rotating mechanism comprises a die rotating assembly and a die lifting assembly;

the rotary die assembly is used for rotating the die placing plate so as to enable the gypsum die to realize rotary grouting in the grouting process;

the die lifting assembly is used for driving the die rotating assembly to do lifting movement, so that the die rotating assembly is in contact with and separated from the die placing plate.

2. A grouting device according to claim 1, characterised in that:

the grouting lifting assembly comprises a grouting cylinder fixing frame, a grouting cylinder, a grouting transmission bearing and a grouting sliding block;

the grouting cylinder fixing frame is arranged on the grouting mounting frame and fixedly provided with the grouting cylinder;

the grouting cylinder is connected with the grouting transmission bearing, and the grouting sliding block is slidably mounted on the grouting transmission bearing;

the grouting pipe is arranged on the grouting sliding block through a grouting pipe mounting plate;

the grouting cylinder is used for driving the grouting sliding block to lift and slide along the grouting transmission shaft bearing so as to drive the grouting pipe to lift.

3. A grouting device according to claim 1, characterised in that:

the rotary die assembly comprises a rotary die cylinder arranged on the rotary die mounting frame, a bearing seat and a rotating shaft sleeved in the bearing seat;

one end of the rotating shaft is provided with a tray, and the other end of the rotating shaft is provided with a rotating swing arm which is connected with a telescopic air shaft of the rotary die cylinder;

the rotary die mounting frame is also provided with a swing limiting block, and the swing limiting block is provided with a swing space;

the rotary swing arm can swing in the swing space.

4. A grouting device according to claim 1, characterised in that:

the die lifting assembly comprises a die lifting cylinder and a die lifting guide pillar which are arranged on a die lifting mounting plate;

the die lifting guide column is sleeved with a linear bearing, and the linear bearing is fixedly installed with the rotating die mounting frame;

and a lifting air shaft of the mold lifting air cylinder is fixedly installed with the rotating mold installation frame.

5. A grouting device according to claim 1, characterised in that:

the grouting machine frame is provided with a grouting blocking mechanism;

the grouting blocking mechanism comprises a blocking mounting frame, a blocking cylinder and a buffering air shaft;

the blocking cylinder is arranged on the blocking mounting frame and is provided with the buffer air shaft;

the top of buffering gas axle is provided with the wheel that blocks, block the wheel cooperation buffering gas axle is in order to cushion the board is placed to the mould, makes the gypsum mould stop in under the slip casting pipe.

6. A grouting device according to claim 2, characterised in that:

the body of slip casting pipe is provided with the motorised valve.

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