CN110666935B

CN110666935B - Ceramic rolling and clockwise-demoulding forming production line

Info

Publication number: CN110666935B
Application number: CN201910888984.4A
Authority: CN
Inventors: 李小伟
Original assignee: Quanzhou Taishang Investment Zone Yichuang Industrial Design Co ltd
Current assignee: Quanzhou Taishang investment zone Yichuang Industrial Design Co.,Ltd.
Priority date: 2019-09-19
Filing date: 2019-09-19
Publication date: 2020-12-15
Anticipated expiration: 2039-09-19
Also published as: CN110666935A

Abstract

The invention provides a ceramic rolling and sequential stripping forming production line which structurally comprises a rolling disc, a rolling motor, a rolling joint, a main control machine table, a ceramic rolling and sequential stripping device, a conveying motor, a blank conveyor, a support frame and a repairing and washing machine, wherein the rolling disc is movably connected with the rolling motor, the bottom end of the blank conveyor is welded with the support frame, a sequential stripping bottom disc mechanism can continuously drive a blank to rotate during rolling so as to adjust the thickness of the blank, a stripping mechanism can be directly detached to form a one-way open external rubbing area, and the auxiliary control mechanism moves a certain distance downwards, and the clockwise dropping chassis mechanism which is restrained in one direction is actively released under the traction of the conveyor belt, and the demoulding process of the ceramic blank after moulding is direct and simple, the steps of the blank in the demoulding process are reduced, the toughness of the blank is enhanced, and the moulding integrity of the blank is maintained to the maximum extent.

Description

Ceramic rolling and clockwise-demoulding forming production line

Technical Field

The invention belongs to the field of ceramic production equipment, and particularly relates to a ceramic rolling and forward-demoulding forming production line.

Background

In the roll forming step of the ceramic roll forming production line, a forming machine is generally required to be independently opened, a ceramic blank is taken out after forming and is placed on a conveyor belt for conveying in the next process, and the ceramic blank subjected to primary pressing forming is low in hardness and needs to be carefully removed.

Based on the above description, the inventor finds that the existing ceramic rolling and cis-demoulding forming production line mainly has the following defects, such as:

because the ceramic embryo spare of initial compaction shaping is when the production shaping, its hardness is lower to when through roll forming, directly push away the stock of inside towards the side, thereby lead to the embryo spare internal and external surface after the shaping all can be comparatively crude, and must carry out drawing of patterns to it and process, just can carry out the development of next process, in the in-process of advancing form removal and secondary transport, can receive a plurality of application of force points repeatedly, and then lead to the production micro deformation of embryo spare easily.

Disclosure of Invention

In order to solve the technical problems, the invention provides a ceramic rolling clockwise-demoulding forming production line, which aims to solve the problems that the hardness of the primary-pressing formed ceramic blank is low during production and forming, and the blank inside is directly pushed towards the side surface during rolling forming, so that the inner surface and the outer surface of the formed blank are rough, demoulding processing is required to be carried out on the blank, a next procedure can be carried out, and multiple force application points can be repeatedly received during mould feeding and removing and secondary conveying, so that the blank is easy to deform slightly.

Aiming at the defects of the prior art, the purpose and the effect of the ceramic rolling cis-falling forming production line are achieved by the following specific technical means: the utility model provides a pottery roll extrusion is in same direction as taking off shaping production line, its structure includes that the rolling disc is taken turns, the rolling motor, the rolling joint, main control board, pottery roll extrusion is in same direction as take-off unit, conveying motor, blank conveyer, support frame, repaiies the washing machine, the rolling disc is in the same place with rolling motor swing joint, the rolling joint top is installed inside the rolling disc through the mode of embedding, the main control board welds with the rolling motor mutually, the pottery roll extrusion is in the same direction as take-off unit fixed mounting at the positive terminal surface of main control board, blank conveyer bottom welds with the support frame mutually, repair washing machine bottom end fixed mounting is in blank conveyer upper end, blank conveyer bottom is located to conveying motor.

The ceramic rolling is in the same direction as taking off the device and is including taking off press constructs, loose joint inserted sheet, decide the embryo mould, assist the accuse mechanism, in the same direction as taking off chassis mechanism, take off press constructs with deciding embryo mould swing joint and be in the same place, assist accuse mechanism fixed mounting in deciding embryo mould back, in the same direction as taking off chassis mechanism and installing inside deciding the embryo mould through the mode of embedding, the loose joint inserted sheet is connected with taking off press constructs, assist accuse mechanism and main control board and weld mutually.

Preferably, the forward-disengaging bottom disc mechanism comprises a disc lock insertion cone, a middle disc ball, a bottom disc, a rotating disc and a middle shaft fixed connecting shaft, the disc lock insertion cone is installed at the top end of the bottom disc in an embedding mode, the middle disc ball is fixedly connected with the bottom disc, the rotating disc and the bottom disc are parallel to each other, the top end of the middle shaft fixed connecting shaft is installed at the axis position of the rotating disc in an embedding mode, and the rotating disc can independently rotate through the bottom disc and the middle shaft fixed connecting shaft under the condition that the bottom disc is fixed, so that a soil blank can be conveniently in a dynamic forming state when being rolled, the blank is more carefully formed, and the finish machining time is reduced.

Preferably, the auxiliary control mechanism comprises a fixed disc, a hook piece, a slot sleeve, a staggered elastic pressing strip, a flexible piece and a shaft wheel, the fixed disc and the slot sleeve are of an integrated structure, the top end of the flexible piece is attached to the inside of the fixed disc, the shaft wheel is arranged at the bottom of the fixed disc, the top end of the staggered elastic pressing strip is fixedly connected with the slot sleeve, the hook piece and the slot sleeve are of an integrated structure, when the staggered elastic pressing strip is under upper pressure, extending belts on the left side and the right side can be highly folded towards two side ends by using angle strips of the extending belts, so that the extending belts descend, and the hook piece can be in a locking state of forward and backward control through a back buckle after the connecting handle is inserted.

Preferably, the pressure-releasing mechanism comprises an inner belt, a press buckle, a hinge shaft, a living embryo film and a pin joint mechanism, the inner belt is installed inside the living embryo film in an embedded mode, the living embryo film is movably connected with the fixed embryo mold through the hinge shaft, the pin joint mechanism is fixedly installed on the right side of the living embryo film, the press buckle is fixedly connected with the inner belt, the inner belt can freely move inside the fixed embryo mold under the control of the living embryo film, the pressure on the inner belt is continuously increased through the drawing of the press buckle after the living embryo film is opened, the inner belt can continuously compress towards the inside of the fixed embryo mold, and the extrusion force is continuously increased along with the increase of the opening angle of the two embryo films.

Preferably, the disc lock insertion cone comprises a bottom accommodating groove, a double cone, a fixed locking bar and a convex rib block, the bottom accommodating groove is formed in the bottom of the double cone and is of an integrated structure with the bottom accommodating groove, the fixed locking bar is welded with the double cone, and the convex rib block is fixedly connected with the fixed locking bar.

Preferably, the pin joint mechanism comprises a roller, a rolling shaft, an elastic handle, an arc support and a pulling plate, the roller is fixedly connected with the elastic handle through the rolling shaft, the arc support is welded with the pulling plate, and the top end of the pulling plate is connected with the middle section of the elastic handle.

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

The invention can continuously drive the blank to rotate along with the bottom plate removing mechanism during rolling so as to adjust the thickness of the blank, can reduce the roughness of the inner and outer surfaces of the ceramic blank which is initially pressed, can directly remove the pressing mechanism to form a one-way open external expansion area when demoulding is carried out after the rolling, can make the auxiliary control mechanism move downwards for a certain distance, and can make the bottom plate removing mechanism which is restrained in one way actively release under the traction of the conveyor belt, thereby being capable of making the demoulding process of the ceramic blank after the moulding direct and simple, reducing the steps of the blank in the demoulding process, enhancing the toughness of the blank and simultaneously maintaining the moulding integrity of the blank to the maximum extent.

Drawings

FIG. 1 is a schematic structural view of a ceramic rolling and sequential-stripping forming production line of the present invention.

FIG. 2 is a schematic view of a front cross-sectional structure of a ceramic rolling and stripping device of the ceramic rolling and stripping forming production line of the present invention.

Fig. 3 is a detailed structural diagram of the inside of the forward chassis mechanism.

Fig. 4 is a detailed structural diagram of the interior of the auxiliary control mechanism.

Fig. 5 is a schematic diagram of the internal structure of the pressure release mechanism.

Fig. 6 is a detailed structural diagram of the inside of the disc lock spigot cone.

Fig. 7 is a detailed internal structural view of the pinning mechanism.

In the figure: rolling disc-1, rolling motor-2, rolling joint-3, master control machine table-4, ceramic rolling smooth-removing device-5, conveying motor-6, blank conveyor-7, support frame-8, repairing and washing machine-9, removing-pressing mechanism-51, loose-joint inserting sheet-52, blank-fixing mould-53, auxiliary control mechanism-54, smooth-removing bottom disc mechanism-55, disc lock inserting cone-q 51, middle disc ball-q 52, bottom disc-q 53, rotary disc-q 54, middle shaft fixed connecting shaft-q 55, fixed disc-541, hook sheet-542, slot sleeve-543, staggered elastic pressing strip-544, flexible sheet-545, shaft wheel-546, inner belt-511, press buckle-512, hinge shaft-513, loose blank film-514, pin-connecting mechanism-515, bottom receiving groove-q 511, pin-q-511, pin-soft sheet-545, and the like, A double cone-q 512, a locking bar-q 513, a convex rib block-q 514, a roller-5151, a roller-5152, a spring handle-5153, an arc support-5154 and a pulling plate-5155.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

As shown in figures 1 to 7:

the invention provides a ceramic rolling and clockwise-demoulding forming production line which structurally comprises a rolling disc 1, a rolling motor 2, a rolling joint 3, a main control machine table 4, a ceramic rolling and clockwise-demoulding device 5, a conveying motor 6, a blank conveyor 7, a supporting frame 8 and a repairing and washing machine 9, wherein the rolling disc 1 is movably connected with the rolling motor 2, the top end of the rolling joint 3 is installed inside the rolling disc 1 in an embedding mode, the main control machine table 4 is welded with the rolling motor 2, the ceramic rolling and clockwise-demoulding device 5 is fixedly installed on the positive end face of the main control machine table 4, the bottom end of the blank conveyor 7 is welded with the supporting frame 8, the bottom end of the repairing and washing machine 9 is fixedly installed at the upper end of the blank conveyor 7, the conveying motor 6 is arranged at the bottom of the blank conveyor 7, and the ceramic rolling and clockwise-demoulding device 5 comprises a demoulding mechanism 51, a loose-joint insertion piece 52, The auxiliary control mechanism 54 and the sequential bottom disk taking-off mechanism 55 are movably connected, the taking-off mechanism 51 is movably connected with the blank fixing mold 53, the auxiliary control mechanism 54 is fixedly installed on the back of the blank fixing mold 53, the sequential bottom disk taking-off mechanism 55 is installed inside the blank fixing mold 53 in an embedding mode, the loose joint inserting piece 52 is connected with the taking-off mechanism 51, and the auxiliary control mechanism 54 is welded with the main control machine table 4.

The clockwise-disengaging chassis mechanism 55 comprises a disk lock-insertion cone q51, a middle disk ball q52, a chassis q53, a rotary disk q54 and a middle shaft fixed connecting shaft q55, wherein the disk lock-insertion cone q51 is installed at the top end of the chassis q53 in an embedding mode, the middle disk ball q52 is fixedly connected with the chassis q53, the rotary disk q54 is parallel to the chassis q53, the top end of the middle shaft fixed connecting shaft q55 is installed at the axial position of the rotary disk q54 in an embedding mode, the rotary disk q54 can independently rotate through the chassis q53 and the middle shaft fixed connecting shaft q55 under the condition that the chassis q53 is fixed, so that the soil blank can be in a dynamic forming state during rolling, the blank is more finely formed, and the finish machining time is further reduced.

The auxiliary control mechanism 54 includes a fixed disk 541, a hook piece 542, a slot sleeve 543, a staggered elastic pressing strip 544, a flexible piece 545 and a shaft wheel 546, the fixed disk 541 and the slot sleeve 543 are integrated, the top end of the flexible piece 545 is attached inside the fixed disk 541, the shaft wheel 546 is arranged at the bottom of the fixed disk 541, the top end of the staggered elastic pressing strip 544 is fixedly connected with the slot sleeve 543, the hook piece 542 and the slot sleeve 543 are integrated, when the staggered elastic pressing strip 544 is subjected to an upper pressure, the extending belts at the left and right sides can be highly folded towards the two side ends by the angle strips thereof so as to descend, and the hook piece 542 can be in a locking state of forward and backward control through a back buckle after the connecting handle is inserted.

The inner belt 511 is installed inside the living embryo film 514 in an embedded mode, the living embryo film 514 is movably connected with the fixed embryo die 53 through the hinge 513, the pin connection mechanism 515 is fixedly installed on the right side of the living embryo film 514, the press buckle 512 is fixedly connected with the inner belt 511, the inner belt 511 can freely move inside the fixed embryo die 53 under the control of the living embryo film 514, after the living embryo film 514 is opened, the pressure borne by the inner belt 511 is continuously increased through the drawing of the press buckle 512, and then the inner belt 511 can continuously compress towards the inside of the fixed embryo die 53, and the extrusion force is continuously increased along with the increase of the opening angle of the two embryo films.

The disc lock insertion cone q51 comprises a bottom containing groove q511, a double cone q512, a fixed locking bar q513 and a rib block q514, wherein the bottom containing groove q511 is arranged at the bottom of the double cone q512 and is of an integrated structure with the double cone q512, the fixed locking bar q513 is welded with the double cone q512, the rib block q514 is fixedly connected with the fixed locking bar q513, the double cone q512 can directly and visually block the side surface of the decompression mechanism 51, so that a blank can be completely sealed after being annularly pressed by a blank film, and the blank can be conveyed away in the contact process of a conveyor belt due to the fact that the degrees of freedom constrained by the double cone q512 are in three directions which are not contradictory when the blank is demolded.

The pin joint mechanism 515 comprises a roller 5151, a roller 5152, an elastic handle 5153, an arc support 5154 and a pulling plate 5155, wherein the roller 5151 is fixedly connected with the elastic handle 5153 through the roller 5152, the arc support 5154 is welded with the pulling plate 5155, the top end of the pulling plate 5155 is connected with the middle section of the elastic handle 5153, the roller 5151 can be used as a middle rotating wheel, when the arc support 5154 is reset and buckled, the roller 5151 can be inserted between the rotating disc q54 and the arbor wheel 546, and the rotating disc q54 can rotate through switching to provide point rotation kinetic energy for the rotating disc.

Because the pin joint mechanism 515 is fixedly connected to one side of the living embryonic membrane 514, the pin joint mechanism 515 can be pulled out while the living embryonic membrane is unscrewed, and in the process of fastening the living embryonic membrane, the pin joint mechanism 515 can be gradually embedded into the bottom of the auxiliary control mechanism 54, and the continuous control reset matching does not need redundant operation, so that the time of multi-step operation can be saved by one step.

The specific use mode and function of the embodiment are as follows:

in the invention, before preparation, a ceramic rolling cis-disengaging device 5 is fixedly connected on a main control machine table 4, a cis-disengaging chassis mechanism 55 is transversely inserted into the bottom of the inner surface of a blank fixing mold 53, then a disengaging mechanism 51 is buckled, pug is placed into the ceramic rolling cis-disengaging device 5, a charging step is completed, in the process of fixedly connecting the back of the ceramic rolling cis-disengaging device 5, a hook piece 542 is reversely buckled along with the increase of the embedding depth of two matching rods on the side surface of a loose joint insertion piece 52, so that a plurality of degrees of freedom are simultaneously limited instantly, thereby completing connection and fixation, in the process of inserting and embedding the hook piece 542 into the blank fixing mold 53, the hook piece 542 is locked by reverse embedding of a disk lock insertion cone q51, and then loosening along with a pressing buckle 512 is completed, an inner belt 511 in a loose blank film 514 can be gradually released, thereby assisting the blank film 514 to carry out counterclockwise rotary buckle by taking a hinge shaft 513 as an axis, when the inner belt 511 is pulled to a normal state, the fixed blank mold 53 and the movable blank film 514 are closed, the bottoms of the inner surfaces of the fixed blank mold 53 and the movable blank mold 514 are jointed with the outer annular surface of the forward-pulling chassis mechanism 55, the pin joint mechanism 515 is inserted into the bottom of the arbor wheel 546, the deformation of the elastic handle 5153 and the passive pulling of the pulling plate 5155 form the assistance of the withdrawal stress, the roller 5152 can be in a state of jointing with the surface of the roller, the back of the rotating disc q54 at the other end of the roller 5152 is jointed, the rotating disc q54 can rotate together through the rotation of the arbor wheel 546 during the rolling preparation, further, when the rolling joint 3 is provided with a pressing piece matched with the ceramic rolling forward-pulling device 5 for pressing, the blank can be rotated through the forward-pulling chassis mechanism 55, the blank film can adjust the thickness of the blank inside during the rolling forming, and the formed toughness can be enhanced through the rotational pulling, after forming, the living embryo film 514 is broken off and the inner belt 511 is pressed by the buckle pulling and pressing buckle 512, the stress point of the tail end of the compressed inner belt 511 is at the middle point under the flexible sheet 545, the left side and the right side of the staggered elastic pressing strip 544 are tilted towards the middle, so that a section of moving space is provided for the slot sleeve 543, the pressing is released downwards, the fixed embryo film 53 is lowered together, and the bottom of the chassis q53 is contacted with the conveyor belt, so that the fixed embryo film is led out together as the chassis.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a pottery roll extrusion is in same direction as taking off shaping production line, its structure includes that rolling disc (1), rolling motor (2), rolling joint (3), main control board (4), pottery roll extrusion are in same direction as taking off device (5), conveying motor (6), blank conveyer (7), support frame (8), repaiies and washes machine (9), its characterized in that:

the ceramic rolling and stripping device comprises a rolling disc (1), a rolling motor (2), a rolling joint (3), a main control machine table (4), a ceramic rolling and stripping device (5), a blank conveyor (7), a support frame (8), a repairing and washing machine (9), a conveying motor (6) and a rolling connector, wherein the rolling disc (1) is movably connected with the rolling motor (2), the top end of the rolling joint (3) is installed inside the rolling disc (1) in an embedded mode, the main control machine table (4) is welded with the rolling motor (2), the ceramic rolling and stripping device (5) is fixedly installed on the front end face of the main control machine table (4), the bottom end of the blank conveyor (7) is welded;

the ceramic rolling and sequential-demoulding device (5) comprises a demoulding mechanism (51), a loose joint inserting sheet (52), a blank fixing die (53), an auxiliary control mechanism (54) and a sequential-demoulding bottom disc mechanism (55), wherein the demoulding mechanism (51) is movably connected with the blank fixing die (53), the auxiliary control mechanism (54) is fixedly installed at the back of the blank fixing die (53), the sequential-demoulding bottom disc mechanism (55) is installed inside the blank fixing die (53) in an embedding mode, the loose joint inserting sheet (52) is connected with the demoulding mechanism (51), and the auxiliary control mechanism (54) is welded with the main control machine table (4);

the forward-disengaging bottom disc mechanism (55) comprises a disc lock insertion cone (q51), a middle disc ball (q52), a bottom disc (q53), a rotating disc (q54) and a middle shaft fixed connecting shaft (q55), wherein the disc lock insertion cone (q51) is installed at the top end of the bottom disc (q53) in an embedding mode, the middle disc ball (q52) is fixedly connected with the bottom disc (q53), the rotating disc (q54) is parallel to the bottom disc (q53), and the top end of the middle shaft fixed connecting shaft (q55) is installed at the axis position of the rotating disc (q54) in an embedding mode;

it includes admittedly to assist accuse mechanism (54) and coils (541), colludes piece (542), slot cover (543), crisscross bullet layering (544), gentle piece (545), arbor wheel (546), gu coil (541) and slot cover (543) structure as an organic whole, gentle piece (545) top laminating is inside solid coil (541), gu coil (541) bottom is equipped with arbor wheel (546), crisscross bullet layering (544) top is in the same place with slot cover (543) fixed connection, collude piece (542) and slot cover (543) structure as an organic whole.

2. The ceramic rolling cis-demoulding forming production line as claimed in claim 1, wherein: the pressure-releasing mechanism (51) comprises an inner belt (511), a pressure buckle (512), a hinge shaft (513), a living embryo film (514) and a pin joint mechanism (515), the inner belt (511) is installed inside the living embryo film (514) in an embedded mode, the living embryo film (514) is movably connected with a fixed embryo film (53) through the hinge shaft (513), the pin joint mechanism (515) is fixedly installed on the right side of the living embryo film (514), and the pressure buckle (512) is fixedly connected with the inner belt (511).

3. The ceramic rolling cis-demoulding forming production line as claimed in claim 1, wherein: dish lock spigot cone (q51) is including end receiving groove (q511), bipyramid (q512), solid locking bar (q513), bead piece (q514), end receiving groove (q511) locate bipyramid (q512) bottom and rather than structure as an organic whole, gu locking bar (q513) welds mutually with bipyramid (q512), bead piece (q514) and solid locking bar (q513) fixed connection together.

4. The ceramic rolling cis-demoulding forming production line as claimed in claim 2, wherein: the pin joint mechanism (515) comprises a roller (5151), a roller (5152), an elastic handle (5153), an arc support (5154) and a pulling plate (5155), wherein the roller (5151) is fixedly connected with the elastic handle (5153) through the roller (5152), the arc support (5154) is welded with the pulling plate (5155), and the top end of the pulling plate (5155) is connected with the middle section of the elastic handle (5153).