CN113414853A - Slurry pouring device - Google Patents

Abstract

A slurry pouring device comprises a slurry pouring conveyer belt and a turnover assembly, wherein the slurry pouring conveyer belt is paved on a slurry pouring rack; the inverted slurry conveying belt is used for conveying the plaster mold fixed on the mold placing plate through the plaster mold clamp; the overturning assembly comprises an overturning motor, an overturning shaft and an overturning plate; the turnover plate is arranged at two ends of the turnover shaft and is provided with a fixed end which is used for fixing the mould placing plate; the turnover motor is connected with the turnover shaft in a transmission manner and is used for driving the turnover shaft to rotate so as to drive the turnover plate to turn over. According to the gypsum mould pouring device, the gypsum mould is conveyed into the overturning assembly by the pouring conveyer belt to be overturned, so that the gypsum mould is poured, the problem that manual pouring efficiency in the traditional technology is low is solved, the pouring device is simple in structure and quick in pouring, and the pouring effect is greatly improved; the motor is used for overturning and pouring the slurry, so that the slurry pouring device can realize the change and stop of any speed and angle, is suitable for a more complicated slurry pouring process, and improves the product quality and liberates labor force; two sets of slurry pouring mechanisms are arranged at the same time, so that two different slurry pouring process products can be produced at the same time.

Description

Slurry pouring device

Technical Field

The invention relates to the technical field of ceramic production, in particular to a slurry pouring 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;

after the gypsum mould through the slip casting, inhale thick liquid step, need pour unnecessary mud in the gypsum mould, the slip casting is called as to this process, and the slip casting needs to be changed the slip casting mouth of gypsum mould downwards by upwards, pours mud from the slip casting mouth, and the slip casting is mostly manual operation among the conventional art, and not only the slip casting speed is slow, wastes time and energy moreover, is unfavorable for improving production efficiency.

Disclosure of Invention

The invention aims to provide a pouring device aiming at the defects in the background art.

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

the invention relates to a slurry pouring device, which comprises a slurry pouring conveyer belt and a turnover assembly, wherein the slurry pouring conveyer belt is paved on a slurry pouring rack;

the inverted slurry conveying belt is used for conveying the plaster molds fixed on the mold placing plate through the plaster mold clamp;

the overturning assembly comprises an overturning motor, an overturning shaft and an overturning plate;

the turnover plate is arranged at two ends of the turnover shaft and is provided with a fixed end which is used for fixing the mould placing plate;

the turnover motor is in transmission connection with the turnover shaft and is used for driving the turnover shaft to rotate so as to drive the turnover plate to turn over.

Preferably, the turnover plate comprises a first turnover plate and a second turnover plate, and the middle parts of the first turnover plate and the second turnover plate are respectively installed at two ends of the turnover shaft;

the both ends of first returning face plate and second returning face plate have all been seted up the stiff end, the U type clamp groove has been seted up to the stiff end, the mould is placed the board and can be inserted U type clamp groove is in order to be fixed in the returning face plate.

Preferably, an opening of the U-shaped clamping groove at one end of the turnover plate faces towards the input end of the pouring conveyer belt, and an opening of the U-shaped clamping groove at the other end of the turnover plate faces towards the output end of the pouring conveyer belt;

the mould placing plate is conveyed by the reverse sizing conveying belt from the input end of the reverse sizing conveying belt to be inserted into the U-shaped clamping groove, and after the mould placing plate is overturned by the overturning assembly, the reverse sizing conveying belt conveys the mould placing plate to leave the U-shaped clamping groove.

Preferably, the plaster mold clamp comprises a clamping component and a clamping end driving component;

the clamping assembly is fixedly arranged on the mold placing plate and comprises a clamping end fixing frame, the clamping end fixing frame is provided with transmission assemblies in a criss-cross mode, and each transmission assembly comprises a first transmission screw rod, a second transmission screw rod, a first auxiliary guide rod and a second auxiliary guide rod; the first transmission screw rod and the first auxiliary guide rod are used for installing a first clamping piece, and the second transmission screw rod and the second auxiliary guide rod are used for installing a second clamping piece and a third clamping piece;

the clamping end driving assembly is used for driving a first transmission screw rod to transmit so that the first clamping piece can do lifting motion along the first transmission screw rod and a first auxiliary guide rod;

the clamping end driving assembly is used for driving a second transmission screw rod to transmit so that the first clamping piece and/or the second clamping piece do transverse motion along the second transmission screw rod and the second auxiliary guide rod.

Preferably, the first clamping piece, the second clamping piece and the third clamping piece respectively comprise a clamping end and a sliding end;

the sliding end is provided with a clamping sliding block, and the clamping sliding block can slide along the transmission assembly;

the clamping end is provided with a clamping rod, the clamping rod is installed on the clamping sliding block, and the clamping rod is perpendicular to the transmission assembly.

Preferably, the clamping rod is sleeved with a protective sleeve.

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

1. according to the invention, the pouring conveyer belt and the overturning assembly are arranged, and the pouring conveyer belt is used for conveying the gypsum mold into the overturning assembly for overturning, so that the gypsum mold finishes a pouring process, the problem of low manual pouring efficiency in the traditional technology is solved, the pouring device has a simple structure, is quick in pouring, greatly improves the pouring effect, can realize any speed and angle change and stop by using the motor for overturning and pouring, adapts to a more complex pouring process, and improves the product quality and liberates labor force; two groups of slurry pouring mechanisms are arranged at the same time, so that two different slurry pouring process products can be produced at the same time;

2. the clamping end driving assembly, the clamping assembly and the transmission assembly are arranged, the transmission assembly is driven by the clamping end driving assembly to transmit, and then the clamping assembly is driven to clamp and loosen the plaster mold, so that the plaster mold is clamped and fixed, and the plaster mold is prevented from falling off in the slurry pouring process.

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 view of the overall construction of a plaster mold clamp according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a clamping assembly (without a cast) according to one embodiment of the invention;

FIG. 3 is a schematic structural view of a clamping assembly (with cast) according to one embodiment of the invention;

FIG. 4 is a schematic view of the configuration of the clamp end drive assembly (longitudinal direction) of one embodiment of the present invention;

FIG. 5 is a schematic view of the clamp end drive assembly (transverse) of one embodiment of the present invention;

fig. 6 is a schematic structural diagram of a pouring device according to an embodiment of the present invention.

Wherein: the mold placing plate 1, the clamping assembly 2, the clamping end fixing frame 21, the transmission assembly 22, the first transmission screw rod 221, the second transmission screw rod 222, the first auxiliary guide rod 223, the second auxiliary guide rod 224, the first clamping piece 23, the second clamping piece 24, the third clamping piece 25, the clamping slide block 261, the clamping rod 262, the protective sleeve 263, the clamping end driving assembly 3, the first fixing plate 31, the second fixing plate 32, the driving motor 33, the telescopic cylinder 34, the cylinder clamping slide block 35, the cylinder guide rail 36, the cylinder butt joint position 37, the portal frame 38, the slurry pouring rack 41, the slurry pouring conveying belt 42, the turnover assembly 43, the turnover motor 431, the turnover shaft 432, the first turnover plate 433, the second turnover plate 434, the U-shaped clamping groove 435 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 invention relates to a pouring device, as shown in fig. 6, comprising a pouring conveyer belt 42 and a turning assembly 43, wherein the pouring conveyer belt 42 is laid on a pouring rack 41;

the inverted pulp conveyer belt 42 is used for conveying the plaster mold fixed on the mold placing plate 1 by the plaster mold clamp;

the overturning assembly 43 comprises an overturning motor 431, an overturning shaft 432 and an overturning plate;

the turnover plates are arranged at two ends of the turnover shaft 432, and fixed ends are arranged on the turnover plates and used for fixing the mold placing plate 1;

the overturning motor 431 is in transmission connection with the overturning shaft 432 and is used for driving the overturning shaft 432 to rotate so as to drive the overturning plate to overturn.

After the gypsum mould through the slip casting, inhale thick liquid step, need pour unnecessary mud in the gypsum mould, the slip casting is called as to this process, and the slip casting needs to be changed the slip casting mouth of gypsum mould downwards by upwards, pours mud from the slip casting mouth, and the slip casting is mostly manual operation among the conventional art, and not only the slip casting speed is slow, wastes time and energy moreover, is unfavorable for improving production efficiency. In order to solve the above problem, the present application provides a device for pouring pulp, specifically including:

a pouring conveyer belt 42 and a turnover assembly 43 are arranged on the pouring frame 41, the pouring conveyer belt 42 conveys the plaster molds on the mold placing plate 1, and the plaster molds are clamped and fixed on the mold placing plate 1 through a plaster mold clamp;

upset subassembly 43 passes through upset motor 431 drive trip shaft 432 rotates, and because install respectively at trip shaft 432 both ends the returning face plate, the returning face plate is provided with the stiff end, board 1 is placed to the fixed mould of stiff end, so the upset of trip shaft 432 can drive the returning face plate realizes the upset, the returning face plate then carries the mould is placed the gypsum mould on the board 1 and is together overturned, and the gypsum mould is overturned the back of coming, and its slip casting mouth is down to accomplish the process of pouring thick liquid, whole upset process is quick and simple to the gypsum mould is effectual of pouring thick liquid after the upset.

Preferably, the turning plate comprises a first turning plate 433 and a second turning plate 434, and the middle parts of the first turning plate 433 and the second turning plate 434 are respectively installed at two ends of the turning shaft 432;

the both ends of first returning face plate 433 and second returning face plate 434 have all been seted up the stiff end, U type clamp groove 435 has been seted up to the stiff end, the mould is placed board 1 and can be inserted U type clamp groove 435 is in order to be fixed in the returning face plate.

In this embodiment, the first flipping plate 433 is disposed at the front end of the flipping shaft 432, the second flipping plate 434 is disposed at the rear end of the flipping shaft 432, and the front end of the flipping shaft 432 is in transmission connection with the flipping motor 431; the fixed ends are arranged at the two ends of the first turnover plate 433 and the second turnover plate 434, the fixed ends in the embodiment are U-shaped clamping grooves 435, and the two sides of the mold placing plate 1 are fixed by inserting the U-shaped clamping grooves 435 of the first turnover plate 433 and the second turnover plate 434, so that the plaster mold cannot fall off in the turnover process;

it should be noted that the turning angle of the turning plate is 180 degrees every time, namely before the gypsum mold is turned, the grouting port of the gypsum mold faces upwards, and after the gypsum mold is turned, the grouting port of the gypsum mold faces downwards;

further, the first turning plate 433 and the second turning plate 434 are provided with the U-shaped clamping grooves 435 at two ends thereof, so that after the plaster molds fixed by the U-shaped clamping grooves 435 at one ends of the first turning plate 433 and the second turning plate 434 are turned over, the U-shaped clamping grooves 435 at the other ends can be seamlessly connected with the next plaster mold, thereby improving the slurry pouring speed.

Preferably, the opening of the U-shaped clamping groove 435 at one end of the turning plate faces the input end of the pouring conveyer belt 42, and the opening of the U-shaped clamping groove 435 at the other end of the turning plate faces the output end of the pouring conveyer belt 42;

the inverse-sizing conveyer belt 42 conveys the mold placing board 1 from the input end thereof to be inserted into the U-shaped clamping groove 435, and after the inverting unit 43 inverts the mold placing board 1, the inverse-sizing conveyer belt 42 conveys the mold placing board 1 away from the U-shaped clamping groove 435.

In this embodiment, the opening of the U-shaped clamp groove 435 on the same side of the first and second flipping plates 433 and 434 faces the input end of the pouring conveyor belt 42, the plaster mold is fixed on the mold placing plate 1 and conveyed from the input end, when the mold placing plate 1 is conveyed to the U-shaped clamp groove 435 with the insertion opening facing the input end, the mold is turned over, the grout is poured out from the grout pouring port of the plaster mold from top to bottom, and the U-shaped clamp groove 435 with the opening facing the input end before turning over is turned over, and the opening of the U-shaped clamp groove 435 faces the output end of the pouring conveyor belt 42, so that the pouring conveyor belt 42 can convey the mold placing plate 1 out of the opening of the U-shaped clamp groove 435.

Preferably, as shown in fig. 1 to 5, the plaster mold clamp comprises a clamping assembly 2 and a clamping end driving assembly 3;

the clamping assembly 2 is fixedly arranged on the mold placing plate 1, the clamping assembly 2 comprises a clamping end fixing frame 21, the clamping end fixing frame 21 is provided with transmission assemblies 22 in a criss-cross mode, and each transmission assembly 22 comprises a first transmission screw rod 221, a second transmission screw rod 222, a first auxiliary guide rod 223 and a second auxiliary guide rod 224; the first transmission screw rod 221 and the first auxiliary guide rod 223 are used for installing the first clamping piece 23, and the second transmission screw rod 222 and the second auxiliary guide rod 224 are used for installing the second clamping piece 24 and the third clamping piece 25;

the clamping end driving assembly 3 is used for driving a first transmission screw rod 221 to perform transmission so as to enable the first clamping piece 23 to perform lifting motion along the first transmission screw rod 221 and a first auxiliary guide rod 223;

the clamping end driving assembly 3 is used for driving the second transmission screw 222 to perform transmission so as to enable the first clamping piece 23 and/or the second clamping piece 24 to perform transverse movement along the second transmission screw 222 and the second auxiliary guide rod 224.

In this application, the clamping assembly 2 includes a clamping end fixing frame 21, the transmission assembly 22 is mounted on the clamping end fixing frame 21, the transmission assembly 22 includes a first transmission screw 221 and a first auxiliary guide rod 223 which are longitudinally arranged, and a second transmission screw 222 and a second auxiliary guide rod 224 which are transversely arranged, in this embodiment, the first auxiliary guide rod 223 is provided with two, one left and one right are parallel to two sides of the first transmission screw 221, the second auxiliary guide rod 224 is provided with two, and one is parallel to two sides of the second transmission screw 222; the first clamping piece 23 is mounted at the upper end of the first transmission screw rod 221, the lower end of the first transmission screw rod is vertically fixed at the edge of the mould placing plate 1, the mould placing plate 1 is used for placing a plaster mould, and the clamping assembly 2 is mounted at the edge of the mould placing plate 1, so that the mould placing plate 1 is provided with enough space for placing the plaster mould; a second clamping piece 24 and a third clamping piece 25 are respectively arranged at two ends of the second transmission screw rod 222; when the clamping end driving assembly 3 drives the first transmission screw 221 and the second transmission screw 222 to perform transmission, the first clamping member 23 can perform lifting motion along the first transmission screw 221 and the first auxiliary guide 223, and the second clamping member 24 and/or the third clamping member 25 can perform lateral motion along the second transmission screw 222 and the second auxiliary guide 224, it should be noted that, in this embodiment, when the first clamping member 23 descends, the upper portion of the plaster mold on the mold placing plate 1 can be clamped, and when the second clamping member 24 and/or the third clamping member 25 moves laterally in the direction of the clamping end fixing frame 21, the two sides of the plaster mold on the mold placing plate 1 can be clamped, so as to complete clamping of the upper end surface and the two side end surfaces of the plaster mold, so that the plaster mold is firmly fixed on the mold placing plate 1, the falling off in the turning process is prevented;

preferably, as shown in fig. 2 and 3, the first clamping member 23, the second clamping member 24 and the third clamping member 25 each comprise a clamping end and a sliding end;

the sliding end is provided with a clamping slide block 261, and the clamping slide block 261 can slide along the transmission assembly 22;

the clamping end is provided with a clamping rod 262, the clamping rod 262 is mounted on the clamping slide block 261, and the clamping rod 262 is perpendicular to the transmission assembly 22.

Further, in this embodiment, each of the first clamping member 23, the second clamping member 24, and the third clamping member 25 is provided with a clamping end and a sliding end, the clamping end includes a clamping slider 261, the clamping slider 261 is connected to the clamping end, the clamping end includes a clamping stem 262, it should be noted that the clamping stem 262 of the first clamping member 23 needs to be perpendicular to the first driving screw 221 and the first auxiliary guide rod 223, and the clamping stems 262 of the second clamping member 24 and the third clamping member 25 need to be perpendicular to the second driving screw 222 and the second auxiliary guide rod 224, so as to achieve the clamping effect;

the clamping slide 261 is used for sliding the clamping slide 261 along the transmission assembly 22 when the first transmission screw 221 and the second transmission screw 222 are transmitting, so as to drive the clamping stem 262 to clamp the plaster mold or release the plaster mold.

In this implementation, can pass through holder end drive assembly 3 accomplishes the centre gripping of centre gripping subassembly 2 to the gypsum mould is placed on board 1 to the mould, specifically, this application holder end drive assembly 3 can be as follows structure:

as shown in fig. 4 and 5, the gripper end driving assembly 3 includes a driving motor 33 and a telescopic cylinder 34, the driving motor 33 is mounted on the first fixing plate 31 for abutting against the transmission assembly 22, and the telescopic cylinder 34 is mounted on the second fixing plate 32;

the first fixing plate 31 is provided with an air cylinder clamping slide block 35, the second fixing plate 32 is connected with an air cylinder guide rail 36, and the air cylinder clamping slide block 35 is slidably mounted on the air cylinder guide rail 36 and can slide along the air cylinder guide rail 36;

the first fixing plate 31 is provided with an air cylinder butt joint position 37, and the air cylinder butt joint position 37 is used for butt joint with the telescopic air cylinder 34.

In this embodiment, a gantry 38 is provided for fixing the clamping end driving assembly 3, the clamping end driving assembly 3 includes a first fixing plate 31 and a second fixing plate 32, the first fixing plate 31 is provided with a driving motor 33, the driving motor 33 is used for butting the first transmission screw rod 221 and the second transmission screw rod 222 to provide power for the clamping assembly 2, and the second fixing plate 32 is provided with a telescopic cylinder 34; the first fixing plate 31 is provided with an air cylinder clamping slide block 35, the second fixing plate 32 is provided with an air cylinder guide rail 36, the air cylinder clamping slide block 35 is slidably mounted on the air cylinder guide rail 36, and the air cylinder clamping slide block 35 and the first fixing plate 31 are mutually fixed, so that when the air cylinder clamping slide block 35 slides along the air cylinder guide rail 36, the first fixing plate 31 can slide together, namely, the driving motor 33 on the first fixing plate 31 can slide together;

further, an air cylinder docking station 37 is disposed on the first fixing plate 31, and the air cylinder docking station 37 is configured to dock the telescopic air cylinder 34, so that after the telescopic air cylinder 34 is docked with the air cylinder docking station 37, when an air shaft of the telescopic air cylinder 34 is extended and retracted, an extension and retraction acting force is applied to the first fixing plate 31, and the acting force acts on the air cylinder clamping slider 35 on the first fixing plate 31 simultaneously, so as to drive the air cylinder clamping slider 35 to slide along the air cylinder guide rail 36, thereby implementing extension and retraction sliding of the driving motor 33 on the first fixing plate 31; when the driving motor 33 can be driven to extend and retract, the effect that one group of clamping end driving assemblies 3 provides power for a plurality of clamping assemblies 2 can be achieved, namely when one clamping assembly 2 is conveyed to the group of clamping end driving assemblies 3 in a conveying mode, the driving motor 33 extends out in a sliding mode to complete butt joint with the first transmission screw rod 221 and the second transmission screw rod 222 of the clamping assembly 2, power is provided to enable the first transmission screw rod 221 and the second transmission screw rod 222 to transmit the first clamping piece 23, the second clamping piece 24 and the third clamping piece 25 to complete clamping of a plaster mold, after the plaster mold is clamped, the driving motor 33 retracts in a sliding mode again to disconnect the butt joint with the group of clamping assemblies 2, the group of clamping assemblies 2 is conveyed away, and the next group of clamping assemblies 2 is conveyed to continue to complete clamping work.

Furthermore, one end of the second transmission screw 222 is provided with a forward thread, the other end is provided with a reverse thread, the second clamping member 24 is mounted at one end of the second transmission screw 222, and the third clamping member 25 is mounted at the other end of the second transmission screw 222;

when the clamping end driving assembly 3 drives the second transmission screw 222 for transmission, the second clamping piece 24 and the third clamping piece 25 perform reverse transverse movement simultaneously.

In the embodiment, in order to reduce the production cost to the maximum extent, only two sets of clamping end driving assemblies 3 are provided for the transverse transmission and longitudinal transmission assemblies 22, wherein the driving motor 33 of one set of clamping end driving assemblies 3 is used for butting the first transmission screw rod 221, and the driving motor 33 of the other set of clamping end driving assemblies 3 is used for butting the second transmission screw rod 222; specifically, the second driving screw 222 in this embodiment may be a screw having a forward thread at one end, a reverse thread at the other end, the second clamping member 24 and the third clamping member 25 are respectively installed at both ends of the second driving screw 222, so that when the driving motor 33 drives the second driving screw 222 to drive, the clamping sliders 261 of the second clamping member 24 and the third clamping member 25 can slide along the second driving screw 222 and the second auxiliary guide rod 224 at the same time, the sliding directions of the two clamping members are opposite to each other, namely, the second clamping piece 24 and the third clamping piece 25 can slide towards the direction close to the clamping end fixing frame 21 to complete the clamping of the plaster mold, and can also slide towards the direction of the clamping end fixing frame 21 to ensure that the clamping pieces loosen the plaster mold, the coaxial reverse sliding of the second clamping piece 24 and the third clamping piece 25 can be realized through the structure.

Preferably, one end of the second transmission screw 222 is provided with a transmission thread;

one end of the second transmission screw rod 222 provided with the transmission thread is in transmission connection with the second clamping piece 24 or the third clamping piece 25, and the other end of the second transmission screw rod is not in transmission connection with the other clamping piece;

when the clamping end driving assembly 3 drives the second transmission screw 222 for transmission, the second clamping piece 24 or the third clamping piece 25 moves transversely, and the other clamping piece is kept still.

Further, in this embodiment, the second driving screw 222 may be configured to have a driving thread at only one end, and the end having the driving thread may be drivingly connected to the second clamping member 24 or the third clamping member 25, so that when the driving motor 33 drives the second driving screw 222 to perform driving, the clamping member connected to the end having the driving thread may slide along the second driving screw 222 and the second auxiliary guide rod 224, and the clamping member not drivingly connected to the other end may remain stationary, and clamping or releasing the plaster mold may be achieved by the structure of the sliding clamping member connected to the driving thread at one end and the clamping member remaining stationary at the other end.

Preferably, the holding stem 262 is sleeved with a protective sleeve 263.

Further, in this embodiment, the clamping rod 262 is sleeved with a protective sleeve 263, so that when the plaster mold is clamped, the clamping rod 262 is prevented from damaging the plaster mold;

furthermore, in this embodiment, the contact surface between the plaster mold and the holding rod 262 can be designed to be a groove structure, so that the holding rod 262 fits into the plaster mold, the holding force of the holding rod 262 on the plaster mold is increased, and the plaster mold is further prevented from shifting during transportation.

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 kind of pouring device, characterized by: comprises a pulp pouring conveyer belt and a turnover component which are paved on a pulp pouring rack;

the inverted slurry conveying belt is used for conveying the plaster molds fixed on the mold placing plate through the plaster mold clamp;

the overturning assembly comprises an overturning motor, an overturning shaft and an overturning plate;

the turnover plate is arranged at two ends of the turnover shaft and is provided with a fixed end which is used for fixing the mould placing plate;

the turnover motor is in transmission connection with the turnover shaft and is used for driving the turnover shaft to rotate so as to drive the turnover plate to turn over.

2. The pouring device according to claim 1, wherein:

the turnover plate comprises a first turnover plate and a second turnover plate, and the middle parts of the first turnover plate and the second turnover plate are respectively arranged at two ends of the turnover shaft;

the both ends of first returning face plate and second returning face plate have all been seted up the stiff end, the U type clamp groove has been seted up to the stiff end, the mould is placed the board and can be inserted U type clamp groove is in order to be fixed in the returning face plate.

3. The pouring device according to claim 2, wherein:

the opening of the U-shaped clamping groove at one end of the turnover plate faces towards the input end of the slurry pouring conveying belt, and the opening of the U-shaped clamping groove at the other end of the turnover plate faces towards the output end of the slurry pouring conveying belt;

the mould placing plate is conveyed by the reverse sizing conveying belt from the input end of the reverse sizing conveying belt to be inserted into the U-shaped clamping groove, and after the mould placing plate is overturned by the overturning assembly, the reverse sizing conveying belt conveys the mould placing plate to leave the U-shaped clamping groove.

4. The pouring device according to claim 1, wherein:

the plaster mold clamp comprises a clamping component and a clamping end driving component;

the clamping assembly is fixedly arranged on the mold placing plate and comprises a clamping end fixing frame, the clamping end fixing frame is provided with transmission assemblies in a criss-cross mode, and each transmission assembly comprises a first transmission screw rod, a second transmission screw rod, a first auxiliary guide rod and a second auxiliary guide rod; the first transmission screw rod and the first auxiliary guide rod are used for installing a first clamping piece, and the second transmission screw rod and the second auxiliary guide rod are used for installing a second clamping piece and a third clamping piece;

the clamping end driving assembly is used for driving a first transmission screw rod to transmit so that the first clamping piece can do lifting motion along the first transmission screw rod and a first auxiliary guide rod;

the clamping end driving assembly is used for driving a second transmission screw rod to transmit so that the first clamping piece and/or the second clamping piece do transverse motion along the second transmission screw rod and the second auxiliary guide rod.

5. The pouring device according to claim 4, wherein:

the first clamping piece, the second clamping piece and the third clamping piece respectively comprise a clamping end and a sliding end;

the sliding end is provided with a clamping sliding block, and the clamping sliding block can slide along the transmission assembly;

the clamping end is provided with a clamping rod, the clamping rod is installed on the clamping sliding block, and the clamping rod is perpendicular to the transmission assembly.

6. The pouring device according to claim 5, wherein:

the clamping rod is sleeved with a protective sleeve.

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