CN217967568U - Double-station grouting and drying mechanism of grouting machine of ceramic production line - Google Patents

Abstract

The utility model provides a duplex position slip casting stoving mechanism of ceramic manufacture line slip casting machine which characterized in that: including the frame, come and go the mechanism, the movable frame, the slip casting unit, the stoving unit, the frame has at least one back timber that extends backward in the past, both sides below is provided with a slip casting stoving station respectively around the back timber, the movable frame can be installed on the back timber along the back timber seesaw, the slip casting unit, the stoving unit is installed respectively on the movable frame, it sets up on the back timber and drives movable frame along the back timber motion to come and go the mechanism, let slip casting unit and stoving unit together at two slip casting stoving stations wheel flows and stop. Compared with the prior art, the utility model beneficial effect is that, because duplex position slip casting stoving mechanism can drive slip casting unit, stoving unit stop simultaneously in turn to two slip casting stoving stations on, consequently can carry out slip casting, stoving to one or more moulds that lie in two slip casting stoving stations in turn, improved work efficiency greatly.

Description

Double-station grouting drying mechanism of grouting machine of ceramic production line

Technical Field

The utility model relates to a slip casting drying device of ceramic manufacture line slip casting machine, more specifically say and relate to one kind and can carry out the duplex position slip casting stoving mechanism of the ceramic manufacture line slip casting machine that slip casting, stoving to one or more mould that is located on two slip casting stoving stations in turn.

Background

The steps of slip-casting ceramic production are generally: firstly, positioning a mold and conveying the mold to a grouting station; then, injecting ceramic slurry into the die, and standing and forming the ceramic slurry in the die to form a blank; then, after the forming, the mould is sent to a slurry discharge station, and redundant slurry in the blank body is discharged; then, after the ceramic green body is formed, conveying the die to a die opening and blank taking station; then, opening the die and taking out the ceramic blank; and finally, taking out the ceramic blank. In the production of ceramics by a grouting method, a grouting machine is an important device for completing the forming processing of a ceramic blank. In order to improve the working efficiency of ceramic production, a method for improving the working efficiency of a grouting machine is needed.

For example, a grouting machine disclosed in chinese patent document CN113442278A entitled "an automatic grouting forming apparatus and work flow for ceramic production" includes a frame, a turnover mechanism, a recovery plate, and a hopper. The frame is provided with a movable grouting nozzle for grouting. The turnover mechanism is composed of a placing frame, a baffle, a pressing plate, a third air cylinder and a connecting arm, wherein the U-shaped placing frame is rotatably arranged on the rack, the placing frame is provided with a ceramic die, and the baffle and the pressing plate capable of moving up and down are fixedly arranged between two vertical side faces of the placing frame. The arc is retrieved the board and is located in the frame in the slope, retrieves the board and is used for retrieving the thick liquid of pouring out from ceramic mould. The hopper can be arranged on the rack in a swinging suspension way and is connected with the grouting spray head through the grouting pipe. This slip casting machine adopts the fixed ceramic mould of above-mentioned clamp plate and baffle, and rethread slip casting shower nozzle slip casting, and tilting mechanism rotates the pouring, forms the structure of pottery idiosome, has improved the work efficiency of slip casting machine.

However, the applicant found that the above-mentioned slip casting machine does not perform proper treatment on the ceramic mold each time the ceramic blank is manufactured using the ceramic mold. This leads to the ceramic mould to process after several times in succession, just need to dry for a period of time just can continue to produce, has seriously influenced the normal clear of production, and production efficiency is difficult to improve, and the life-span of ceramic mould is very short moreover.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a duplex position slip casting stoving mechanism of ceramic manufacture line slip casting machine, duplex position slip casting stoving mechanism of this kind of ceramic manufacture line slip casting machine can carry out slip casting, stoving to being located one or more moulds on two slip casting stoving stations in turn. The technical scheme is as follows:

the utility model provides a duplex position slip casting stoving mechanism of pottery production line slip casting machine which characterized in that: including the frame, come and go the mechanism, the movable frame, the slip casting unit, the stoving unit, the frame has at least one back timber that extends backward in the past, both sides below is provided with a slip casting stoving station respectively around the back timber, the movable frame can be installed on the back timber along the back timber seesaw, the slip casting unit, the stoving unit is installed respectively on the movable frame, it sets up on the back timber and drives movable frame along the back timber motion to come and go the mechanism, let slip casting unit and stoving unit together at two slip casting stoving stations wheel flows and stop. That is, the reciprocating mechanism drives the movable frame to move to the front side of the top beam along the top beam, at the moment, the grouting unit and the drying unit stay on a grouting drying station below the top beam at the same time, and one or more molds on the grouting drying station can be grouted and dried; after the grouting unit and the drying unit respectively complete work, the reciprocating unit drives the movable frame to move to the rear side of the top beam along the top beam, at the moment, the grouting unit and the drying unit simultaneously stop on another grouting drying station below the top beam, and one or more molds on the grouting drying station can be grouted and dried. So go back and forth, can be constantly to being located one or more moulds on two slip casting stoving stations and carry out slip casting or stoving, improve work efficiency by a wide margin.

The movable rack comprises a horizontal movable rack, a vertical lifting rack, a first driving unit and at least one lifting unit, the horizontal movable rack can be movably installed on the top beam along the top beam, the vertical lifting rack can be vertically and vertically installed on the horizontal movable rack, the grouting unit and the drying unit are respectively installed on the vertical lifting rack, the first driving unit comprises a first motor and a first transmission shaft, the lifting unit comprises a first rack and a first gear, the first motor is installed on the horizontal movable rack, the first transmission shaft is rotatably installed on the horizontal movable rack and is connected with a first output shaft of the first motor through the first transmission shaft, the first rack is installed on the vertical lifting rack, the first rack extends along the vertical direction, the first gear is installed on the first transmission shaft, and the first gear is meshed with the first rack. The first motor drives the first transmission shaft to rotate, the first gear rotates along with the first transmission shaft, and the first gear rolls on the first rack, so that the vertical lifting frame is driven to ascend or descend.

More preferably, the movable rack further comprises at least one guide unit, the guide unit comprises a vertical direction guide sleeve and a guide rod capable of sliding along the vertical direction guide sleeve, the vertical direction guide sleeve is mounted on the horizontal movable rack, the guide rod is mounted on the vertical erector, and the guide rod penetrates through the vertical direction guide sleeve from top to bottom.

More preferably, the reciprocating mechanism comprises a second driving unit and at least one reciprocating unit, the second driving unit comprises a second motor and a second transmission shaft, the reciprocating unit comprises a second rack and a second gear, the second motor is mounted on the horizontally movable frame, the second transmission shaft is rotatably mounted on the horizontally movable frame and is connected with a second output shaft of the second motor, the second rack is mounted on the top beam, the extending direction of the second rack is parallel to the moving direction of the horizontally movable frame, the second gear is mounted on the second transmission shaft, and the second gear is meshed with the second rack. The second motor drives the second transmission shaft to rotate, the second gear rotates along with the second transmission shaft and rolls on the second rack, and therefore the horizontally movable rack is driven to move.

More preferably, the round trip unit is multiple.

According to a more preferable scheme, the top beam is provided with a slide rail, the slide rail is provided with at least one slide block capable of sliding along the slide rail, and the bottom end of the horizontal movable frame is connected with all the slide blocks.

According to a more preferable scheme, the grouting unit comprises a slurry conveying pipeline and at least one vertical grouting pipe, wherein the slurry conveying pipeline is communicated with an external slurry conveying device; the drying unit comprises an air blower, a drying box, a hot air conveying pipeline and at least one vertical drying pipe, the air blower and the drying box are respectively installed on a horizontal moving frame, an air blower inlet is communicated with the drying box, an air blower outlet is communicated with the hot air conveying pipeline, the hot air conveying pipeline and the vertical drying pipe are respectively installed on a vertical lifting frame, an air blower outlet is communicated with the hot air conveying pipeline, and the vertical drying pipe extends along the vertical direction and is communicated with the hot air conveying pipeline at the top end of the vertical drying pipe.

Compared with the prior art, the utility model beneficial effect is that, because duplex position slip casting stoving mechanism can drive slip casting unit, stoving unit stop simultaneously in turn to two slip casting stoving stations on, consequently can carry out slip casting, stoving to one or more moulds that lie in two slip casting stoving stations in turn, improved work efficiency greatly.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of the embodiment of FIG. 1 with the airframe removed and only two top beams remaining;

FIG. 3 is a schematic diagram of the movable frame and shuttle mechanism of the embodiment of FIG. 1;

FIG. 4 is a schematic structural view of the horizontally movable stand of FIG. 3;

fig. 5 is a schematic structural view of the vertically erectable frame of fig. 3.

Detailed Description

As shown in fig. 1 and 2, double-station grouting drying mechanism of ceramic production line grouting machine in one embodiment of the present application, including a machine frame 1, a reciprocating mechanism 2, a movable frame 3, a grouting unit 4, and a drying unit 5, where the machine frame 1 has two top beams 101 extending from the front to the back, a grouting drying station is respectively disposed below the front and back sides of the top beam 101, the movable frame 3 can be mounted on the top beam 101 along the front and back movement of the top beam 101, the grouting unit 4 and the drying unit 5 are respectively mounted on the movable frame 3, the reciprocating mechanism 2 is disposed on the top beam 101 and drives the movable frame 3 to move along the top beam 101, and the grouting unit 4 and the drying unit 5 stop together on the two grouting drying stations in a rotational flow manner.

As shown in fig. 1 to 5, in an alternative embodiment of the present application, the movable frame 3 includes a horizontally movable frame 301, a vertically movable frame 302, a first driving unit 303, and two lifting units 304, the horizontally movable frame 301 is movably mounted on the top beam 101 along the top beam 101, the vertically movable frame 302 is vertically movably mounted on the horizontally movable frame 301, and the grouting unit 4 and the drying unit 5 are respectively mounted on the vertically movable frame 302. The first driving unit 303 includes a first motor 3031 and a first transmission shaft 3032, the lifting unit 304 includes a first rack 3041, a first gear 3042, the first motor 3031 is mounted on the horizontally movable frame, the first transmission shaft 3032 is rotatably mounted on the horizontally movable frame 301 and the first transmission shaft 3032 is connected to a first output shaft of the first motor 3031, the first rack 3041 is mounted on the vertically movable frame and the first rack 3041 extends in the vertical direction, the first gear 3042 is mounted on the first transmission shaft 3032 and the first gear 3042 is engaged with the first rack 3041. The first motor 3031 drives the first transmission shaft 3032 to rotate, the first gear 3042 rotates with the first transmission shaft 3032 and the first gear 3042 rolls on the first rack 3041, thereby driving the vertically erectable frame to ascend or descend.

As shown in fig. 3, in an alternative embodiment of the present application, the first motor 3031 is a reduction motor. The reduction motor is an integrated body of a reduction gear and a motor (motor). Such an integrated body may also be generally referred to as a gear motor or gearmotor. Generally, a professional reducer manufacturer integrally assembles the reducer and supplies the reducer and the motor in a complete set. In other alternative embodiments, the first motor 3031 may be a servomotor.

As shown in fig. 1-3, in an alternative embodiment of the present application, the reciprocating mechanism 2 includes a second driving unit 201, two reciprocating units 202, the second driving unit 201 includes a second motor 2011 and a second transmission shaft 2012, the reciprocating unit 202 includes a second rack 2021 and a second gear 2022, the second motor 2011 is mounted on the horizontally movable frame 301, the second transmission shaft 2012 is rotatably mounted on the horizontally movable frame 301 and the second transmission shaft 2012 is connected to a second output shaft of the second motor 2011, the second rack 2021 is mounted on the top beam 101 and a direction in which the second rack 2021 extends is parallel to a direction in which the horizontally movable frame 301 moves, the second gear 2022 is mounted on the second transmission shaft 2012 and the second gear 2022 is engaged with the second rack 2021. The second motor 2011 drives the second transmission shaft 2012 to rotate, the second gear 2022 rotates along with the second transmission shaft 2012, and the second gear 2022 rolls on the second rack 2021, so as to drive the horizontally movable rack 301 to move.

As shown in fig. 2 and 3, in an alternative embodiment of the present application, the second motor 2011 is a reduction motor. In other alternative embodiments, the second motor 2011 may be a servomotor.

In an alternative embodiment of the present application, the number of the roundtrip units 202 is 1.

As shown in fig. 1 and 2, in an alternative embodiment of the present application, the top beam 101 is provided with a sliding rail 1011, the sliding rail 1011 is provided with at least one sliding block 1012 capable of sliding along the sliding rail 1011, and the bottom end of the horizontally movable frame 301 is connected to all the sliding blocks 3011.

As shown in fig. 1 and 2, in an alternative embodiment of the present application, the grouting unit 4 includes a slurry conveying pipe 401 communicating with an external slurry conveying device, and a plurality of vertical grouting pipes 402, where the slurry conveying pipe 401 and the vertical grouting pipes 402 are respectively installed on the vertical crane 302, the vertical grouting pipes 402 extend in a vertical direction, and the top ends of the vertical grouting pipes 402 are communicated with the slurry conveying pipe 401; the drying unit 5 comprises a blower 501, a drying box 502, a hot air conveying pipeline 503 and a plurality of vertical drying pipes 504, the blower 501 and the drying box 502 are respectively installed on the horizontally movable frame 301, the inlet of the blower 501 is communicated with the drying box 502, the outlet of the blower 501 is communicated with the hot air conveying pipeline 503, the hot air conveying pipeline 503 and the vertical drying pipes 504 are respectively installed on the vertical lifting frame 302, the outlet of the blower 501 is communicated with the hot air conveying pipeline 503, the vertical drying pipes 504 extend along the vertical direction, and the top ends of the vertical drying pipes 504 are communicated with the hot air conveying pipeline 503.

As shown in fig. 3 to 5, in an alternative embodiment of the present application, the movable frame 3 further includes a plurality of guide units 305, the guide units 305 include a vertical direction guide sleeve 3051 and a guide stick 3052 slidably movable along the vertical direction guide sleeve 3051, the vertical direction guide sleeve 3051 is mounted on the horizontally movable frame 301, the guide stick 3052 is mounted on the vertically movable frame 302 and the guide stick 3052 passes through the vertical direction guide sleeve 3051 from above to below.

The following operation is described with reference to fig. 1-5:

1. the reciprocating mechanism 2 drives the movable frame 3 to move to the front side of the top beam 101 along the top beam 101, and at the moment, the grouting unit 4 and the drying unit 5 stay on a grouting drying station below the top beam 101 at the same time, so that grouting or drying can be performed on a plurality of moulds on the grouting drying station;

2. after the grouting unit 4 and the drying unit 5 respectively complete the work, the reciprocating unit 202 drives the movable frame 3 to move to the rear side of the top beam 101 along the top beam 101, at this time, the grouting unit 4 and the drying unit 5 simultaneously stop at another grouting and drying station below the top beam 101, and grouting or drying can be performed on one or more molds located at the grouting and drying station.

So go back and forth, just can constantly take turns to slip casting or drying to a plurality of moulds that are located on two slip casting stoving stations, improve work efficiency by a wide margin. The production person can accomplish the operation such as slip casting, ceramic base of a plurality of moulds on two slip casting stoving stations in turn takes out, mould stoving, producer work efficiency improves, and the mould utilization efficiency improves, and slip casting unit 4, stoving unit 5 also can obtain abundant utilization to the work efficiency of ceramic manufacture line slip casting machine has been improved effectively.

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structure, the features and the principle of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (7)

1. The utility model provides a duplex position slip casting stoving mechanism of pottery production line slip casting machine which characterized in that: including the frame, come and go the mechanism, the movable frame, the slip casting unit, the stoving unit, the frame has at least one back timber that extends backward in the past, both sides below is provided with a slip casting stoving station respectively around the back timber, the movable frame can be installed on the back timber along the back timber seesaw, the slip casting unit, the stoving unit is installed respectively on the movable frame, it sets up on the back timber and drives movable frame along the back timber motion to come and go the mechanism, let slip casting unit and stoving unit stop in two slip casting stoving stations wheel flows together.

2. The double-station grouting drying mechanism of the ceramic production line grouting machine of claim 1, characterized in that: but the portable frame includes horizontal migration frame, but the vertical lift frame, first drive unit, at least one lift unit, but the horizontal migration frame can be installed on the back timber with following the back timber motion, but the vertical lift frame is installed on the horizontal migration frame with going up and down perpendicularly, slip casting unit, but the stoving unit is installed respectively on the vertical lift frame, first drive unit includes first motor and first transmission shaft, the lift unit includes first rack, first gear, but first motor is installed on the horizontal migration frame, but first transmission shaft rotationally installs on the horizontal migration frame and first output shaft of first motor is connected to first transmission shaft, but first rack is installed on the vertical lift frame and first rack extends along the vertical direction, first gear is installed on first transmission shaft and first gear and first rack toothing.

3. The double-station grouting drying mechanism of the ceramic production line grouting machine of claim 2, characterized in that: the movable rack further comprises at least one guide unit, the guide unit comprises a vertical direction guide sleeve and a guide rod capable of sliding along the vertical direction guide sleeve, the vertical direction guide sleeve is installed on the horizontal movable rack, the guide rod is installed on the vertical lifting rack, and the guide rod penetrates through the vertical direction guide sleeve from top to bottom.

4. The double-station grouting drying mechanism of the grouting machine of the ceramic production line as claimed in claim 2, characterized in that: the reciprocating mechanism comprises a second driving unit and at least one reciprocating unit, the second driving unit comprises a second motor and a second transmission shaft, the reciprocating unit comprises a second rack and a second gear, the second motor is installed on the horizontal movable frame, the second transmission shaft is rotatably installed on the horizontal movable frame and connected with a second output shaft of the second motor, the second rack is installed on the top beam, the extending direction of the second rack is parallel to the moving direction of the horizontal movable frame, the second gear is installed on the second transmission shaft, and the second gear is meshed with the second rack.

5. The double-station grouting drying mechanism of the ceramic production line grouting machine of claim 4, characterized in that: the number of the round trip units is multiple.

6. The double-station grouting drying mechanism of the grouting machine of the ceramic production line as claimed in claim 2, characterized in that: the top beam is provided with a slide rail, the slide rail is provided with at least one slide block capable of sliding along the slide rail, and the bottom end of the horizontally movable frame is connected with all the slide blocks.

7. The double-station grouting drying mechanism of the ceramic production line grouting machine according to any one of claims 2 to 6, characterized in that: the grouting unit comprises a slurry conveying pipeline communicated with an external slurry conveying device and at least one vertical grouting pipe, the slurry conveying pipeline and the vertical grouting pipe are respectively arranged on the vertical lifting frame, the vertical grouting pipe extends along the vertical direction, and the top end of the vertical grouting pipe is communicated with the slurry conveying pipeline; the drying unit comprises an air blower, a drying box, a hot air conveying pipeline and at least one vertical drying pipe, the air blower and the drying box are respectively installed on a horizontal moving frame, an inlet of the air blower is communicated with the drying box, an outlet of the air blower is communicated with the hot air conveying pipeline, the hot air conveying pipeline and the vertical drying pipe are respectively installed on a vertical lifting frame, an outlet of the air blower is communicated with the hot air conveying pipeline, and the vertical drying pipe extends along the vertical direction and is communicated with the hot air conveying pipeline at the top end of the vertical drying pipe.

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