CN217020824U - Turning device of forming ring die - Google Patents

Abstract

The utility model relates to a turning device of a forming ring mould, wherein positioning holes are respectively arranged at two sides of the forming ring mould, and the turning device comprises a rope, a U-shaped ring hanger and a translation table capable of moving transversely and longitudinally on a horizontal plane; a cylinder and at least one fixed pulley are fixedly arranged on the translation table; the rope is wound around the fixed pulley, one end of the rope is connected to the piston rod of the air cylinder, and the ring hanger is connected to the other end of the rope and is in a hanging state; the circle hanger comprises a beam, a fixed suspension arm and a movable suspension arm, wherein the middle part of the beam is connected with a rope; the fixed suspension arm is vertically fixed at one end of the cross beam, the movable suspension arm is hinged at the other end of the cross beam, and the movable suspension arm and the cross beam are locked in a mutually vertical state by a locking mechanism; and positioning pins matched with the positioning holes of the forming ring die are arranged on the opposite side surfaces of the lower ends of the movable suspension arm and the fixed suspension arm respectively. The advantages are that: the scheme has the advantages of simple structure, convenient maintenance, reliable equipment operation and low cost. Saving labor force and increasing labor efficiency.

Description

Turning device of forming ring die

Technical Field

The utility model relates to the field of ceramic product production, in particular to a turnover device of a forming ring mold.

Background

In the traditional closestool production process, the closestool blank forming mode comprises common grouting forming and high-pressure grouting forming. And (3) high-pressure slip casting, namely injecting the slurry into a mold, wherein the surface of the inner cavity of the mold is made of a permeable material, then discharging water in the inner cavity of the mold by using high pressure, and discharging redundant slurry after the blank is shaped to form the blank with a certain wall thickness.

Because the closestool structure is complicated, need divide a plurality of parts slip casting respectively and take shape. After grouting is finished, the whole closestool is formed by adopting a bonding mode, wherein the step of ring bonding is included.

At present, the process of adhering the ring mainly adopts manual operation and manual overturning, and the traditional working mode has the following problems:

1. the molded blank is soft and easy to deform in the moving process, and the closestool is easy to crack due to improper bonding, so that the requirement on operators is high, and the safety is not high during the carrying and overturning.

2. The operator needs to spend great strength and the working strength is high.

3. Requiring more space to be occupied.

Therefore, there is a need to improve the existing production process to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a turnover device of a forming ring die, which aims at overcoming the structural defects in the prior art. And moving the product to a specified position through a crane. By the scheme, labor force is saved, and labor efficiency is improved; and the fixed occupation space of mould is few, increases handling process factor of safety.

In order to achieve the purpose of the utility model, the turnover device of the forming ring die provided by the embodiment of the utility model is realized by the following technical scheme:

the utility model provides a turning device of one-tenth mold ring, one-tenth mold ring both sides are equipped with locating hole, its characterized in that respectively: the overturning device comprises a rope, a U-shaped ring hanger and a translation table which can move transversely and longitudinally on a horizontal plane; the translation table is fixedly provided with an air cylinder and at least one fixed pulley; the rope is wound around the fixed pulley, one end of the rope is connected to a piston rod of the air cylinder, and the ring hanger is connected to the other end of the rope and is in a hanging state; the circle hanger comprises a cross beam, a fixed suspension arm and a movable suspension arm, wherein the middle part of the cross beam is connected with the rope; the fixed suspension arm is vertically fixed at one end of the cross beam, the movable suspension arm is hinged at the other end of the cross beam, and the movable suspension arm and the cross beam are locked by a locking mechanism in a mutually vertical state; and positioning pins matched with the positioning holes of the forming ring die are arranged on the opposite side surfaces of the lower ends of the movable suspension arm and the fixed suspension arm respectively.

The turnover device also comprises a transverse moving hanger rail, a first longitudinal moving hanger rail and a second longitudinal moving hanger rail which are parallel to each other and fixed below the portal frame; the first end of the transverse moving hanger rail is movably suspended below the first longitudinal moving hanger rail through a first hanger rod and is vertical to the first longitudinal moving hanger rail, and the second end of the transverse moving hanger rail is movably suspended below the second longitudinal moving hanger rail through a second hanger rod; the translation platform is movably suspended below the transverse moving hanging rail.

The first longitudinally-moving hanging rail is a square rail; the upper end of the first suspender is provided with a bracket which is arranged around the square rail, and the bracket is rotatably provided with a plurality of upper rollers, a plurality of side rollers and a plurality of lower rollers; the upper rollers are placed on the upper portion of the square rail, the side rollers are respectively located on two sides of the square rail, and the lower rollers are located below the square rail; the second longitudinal moving hanger rail is a C-shaped guide rail, the second hanger rod is composed of an upper rod and a lower rod which are hinged with each other, the upper end of the upper rod is provided with a roller embedded into a groove of the C-shaped guide rail, the lower end of the lower rod is connected with the transverse moving hanger rail, and the rotating axis of the lower rod relative to the upper rod is perpendicular to the length direction of the transverse moving hanger rail.

The transverse moving hanger rail is a C-shaped guide rail, and the translation table is fixedly connected with the roller in the transverse moving hanger rail groove.

The number of the fixed pulleys is two, each group is 2, the number of the ropes is two, and each rope bypasses one group of fixed pulleys; and a cross arm is fixed at the end part of a piston rod of the cylinder, and the end part of the rope is fixedly connected with one end of the cross arm.

The turnover device also comprises a forming ring die display line and an adhesion object die display line which are parallel to each other; a plurality of bonding object molds are arranged in a row on the bonding object mold array line, and bonding parts of bonding objects on the bonding object molds are arranged upwards; a plurality of forming ring molds are displayed on the forming ring mold array line, and bonding parts of the forming ring molds on the forming ring molds are arranged upwards; the translation stage is arranged above the molding ring die arrangement line and the bonding object die arrangement line, can move between the molding ring die arrangement line and the bonding object die arrangement line and moves along the length direction of the molding ring die arrangement line and the bonding object die arrangement line.

When a piston rod of the air cylinder extends to the limit position, the positioning pin of the ring hanger is lower than the forming ring die on the forming ring die display line and the bonding object die on the bonding object die display line.

The first end and the second end of the transverse moving hanger rail are respectively provided with a stopping part, and when the translation table is stopped by the stopping parts, the translation table is just positioned right above a forming ring mould on the forming ring mould display line or right above a bonding object mould on the bonding object mould display line.

Compared with the prior art, the utility model has the advantages that: an adjustable clamp is designed by utilizing a positioning hole on the die, a steel wire rope is connected with a cylinder piston rod through a pulley device, and a product is moved to a specified position through a crane. The scheme has the advantages of simple structure, convenient maintenance, reliable equipment operation and low cost, saves labor force and increases labor efficiency; and the fixed occupation space of mould is few, increases handling process factor of safety.

Drawings

The above features and advantages of the present invention will become more apparent and readily appreciated from the following description of the exemplary embodiments thereof taken in conjunction with the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of a turning device of a forming ring die according to an embodiment of the utility model;

FIG. 2 is a front view of a translation stage according to an embodiment of the present invention;

FIG. 3 is a top view of a translation stage according to an embodiment of the present invention;

FIG. 4 is a side view of a ring hanger according to an embodiment of the present invention;

FIG. 5 is a front view of a second longitudinally movable hanger rail according to the embodiment of the present invention;

FIG. 6 is a side view of a second longitudinally moving hanger rail according to an embodiment of the present invention;

fig. 7 is a front view of a first longitudinally movable hanger rail according to an embodiment of the present invention.

Detailed Description

The utility model is described in further detail below with reference to the attached drawing figures to facilitate understanding by those skilled in the art:

referring to fig. 1 to 7, the present invention provides a device for turning a forming ring mold, in which positioning holes are respectively formed at both sides of the forming ring mold. The application environment of the turnover device comprises:

adhesive object die display line

A plurality of bonding object molds are arranged in a row on the bonding object mold array line, and bonding parts of bonding objects on the bonding object molds are arranged upwards;

forming ring die display line

A plurality of forming ring molds are displayed on the forming ring mold array line, and the bonding parts of the forming ring molds on the forming ring molds are arranged upwards. The molding ring mold array line and the bonding object mold array line are arranged in parallel with each other.

The turning device comprises a rope 1, a circle of hangers 2, and a translation stage 3.

The translation stage 3 is movable in the lateral and longitudinal directions on a horizontal plane, and the translation stage 3 is provided above the molding ring die layout line and the bonding object die layout line, is movable between the molding ring die layout line and the bonding object die layout line, and is movable in the direction of the length of the molding ring die layout line and the bonding object die layout line.

In order to realize the movement of the translation table 3 in two dimensions, the turnover device further comprises a transverse moving hanger rail 4, a first longitudinal moving hanger rail 5 and a second longitudinal moving hanger rail 6 which are parallel to each other and fixed below the portal frame 7. The first end of the transverse moving hanger rail 4 is movably suspended below the first longitudinal moving hanger rail 5 through a first hanger rod 51 and is vertical to the first longitudinal moving hanger rail 5, and the second end of the transverse moving hanger rail 4 is movably suspended below the second longitudinal moving hanger rail 6 through a second hanger rod 61; the translation table 3 is movably suspended below the transverse suspension rail 4. In a preferred embodiment:

the first vertical moving hanger rail 5 is a square rail, the upper end of the first hanger rod 51 is provided with a support 511 arranged around the square rail 5, and the support 511 is rotatably provided with a plurality of upper rollers 512, a plurality of side rollers 513 and a plurality of lower rollers 514. Wherein the upper roller 512 is placed on the upper portion of the square rail as the main supporting stress point. The side rollers 513 clamp both sides of the square rail, and the lower roller 514 is disposed below the square rail to ensure that the first boom 51 smoothly slides on the first longitudinally moving rail 5 without derailing.

The second vertical moving hanger 6 is a C-shaped guide rail, the second suspension rod 61 is composed of an upper rod 611 and a lower rod 612 which are hinged to each other, the upper end of the upper rod 611 is provided with a roller 613 which is embedded in a C-shaped guide rail groove, the lower end of the lower rod 612 is connected with the horizontal moving hanger 4, and the lower rod 612 is arranged perpendicular to the length direction of the horizontal moving hanger 4 relative to the rotation axis of the upper rod 611.

The transverse hanging rail 4 is a C-shaped guide rail, and the translation platform 3 is fixedly connected with a plurality of roller 41 groups in the groove of the transverse hanging rail 4.

The translation stage 3 is fixedly provided with a cylinder 31 and at least one fixed pulley 32. In the preferred embodiment, there are two sets of fixed pulleys 32, two fixed pulleys 32 in each set, and a compression wheel 33 is provided on one side of each fixed pulley 32 to restrain rope 1. The number of the ropes 1 is two, and a cross arm is fixed at the tail end of a piston rod of the air cylinder 31. Each rope 1 is passed around a set of fixed pulleys 32, one end of which is connected to a cross arm on the piston rod of the cylinder 31 and the other end of which is connected to the coil hanger 2, so that the coil hanger 2 is in a suspended state and moves up and down as the piston rod of the cylinder 31 extends and contracts.

In addition, a button for controlling the expansion and contraction of the air cylinder 31 is provided on the translation table 3 for the operation of the operator. The translation stage 3 is further provided with a push-pull handle 34 for an operator to operate the translation stage 3 to move.

The circle hanger 2 is U-shaped and comprises a beam 21 with the middle part connected with the rope 1, a fixed suspension arm 22 and a movable suspension arm 23 which are positioned below the beam 21. The fixed boom 22 is vertically fixed at one end of the beam 21, the movable boom 23 is hinged at the other end of the beam 21, and has a locking mechanism 24 for locking the movable boom 23 and the beam 21 in a mutually perpendicular state, the locking mechanism 24 has a handle 241 for an operator to operate. The movable suspension arm 23 and the fixed suspension arm 22 are respectively provided with a positioning pin 231 and a positioning pin 221 which are matched with the positioning holes on the forming ring die on the opposite side surfaces of the lower ends.

It is to be noted that when the piston rod of the air cylinder 31 is extended to the extreme position, the positioning pins of the ring hanger 2 need to be disposed lower than the forming ring die on the forming ring die layout line and the bonding object die on the bonding object die layout line.

The first end and the second end of the traverse rail 4 are provided with stoppers 41, respectively, and when the traverse table 3 is stopped by the stoppers 41, it is positioned just above a mold for a bonding or just above a mold for a bonding on a matrix array for a mold for a bonding. The stopper 41 is a cushion rubber plate lined on the outer side of the steel baffle.

From this, when using circle gallows 2 to overturn the circle mould, operation pneumatic switch opens in order to control cylinder 31 to ensure that cylinder 31 is at the pressurize state, if the external air supply decompression appears in turning device in handling, the mould that is carried can not fall. After the ring hanger 2 is inserted into the ring mold, the handle 241 on the ring hanger 2 is pulled, the pneumatic switch is turned off, the cylinder 31 is turned on, the piston rod is shortened, the rope 1 is pulled, the ring mold is pulled to be lifted, and after the ring mold is turned to a designated position, the ring hanger 2 is loosened, the pneumatic switch is turned on, the cylinder 31 is turned off, and the piston rod is extended.

Compared with the prior art, the utility model has the advantages that: an adjustable fixture is designed by utilizing a positioning hole on the mold, and then a steel wire rope is connected with a cylinder piston rod through a pulley device, and a product is moved to a designated position through a crane. The scheme has the advantages of simple structure, convenient maintenance, reliable equipment operation and low cost, and not only saves labor force, but also increases labor efficiency; and the mould is fixed, the occupied space is small, and the safety factor of the carrying process is increased.

While the utility model has been described in detail and with reference to the preferred embodiments, it will be understood by those skilled in the art that the above embodiments are only one of the preferred embodiments of the present invention, and not intended to limit the utility model to any particular embodiment, and all embodiments can be embodied within the scope of the present invention.

Claims (8)

1. The utility model provides a turning device of one-tenth clamping ring mould, one-tenth clamping ring mould both sides are equipped with locating hole, its characterized in that respectively: the overturning device comprises a rope, a U-shaped ring hanger and a translation table which can move transversely and longitudinally on a horizontal plane; the translation table is fixedly provided with an air cylinder and at least one fixed pulley; the rope is wound around the fixed pulley, one end of the rope is connected to a piston rod of the air cylinder, and the ring hanger is connected to the other end of the rope and is in a hanging state; the circle hanger comprises a cross beam, a fixed suspension arm and a movable suspension arm, wherein the middle part of the cross beam is connected with the rope; the fixed suspension arm is vertically fixed at one end of the cross beam, the movable suspension arm is hinged at the other end of the cross beam, and the movable suspension arm and the cross beam are locked in a mutually vertical state by a locking mechanism; and positioning pins matched with the positioning holes of the forming ring die are arranged on the opposite side surfaces of the lower ends of the movable suspension arm and the fixed suspension arm respectively.

2. A bead mold turn-over apparatus as claimed in claim 1, wherein: the turnover device also comprises a transverse moving hanging rail, a first longitudinal moving hanging rail and a second longitudinal moving hanging rail which are parallel to each other and fixed below the portal frame; the first end of the transverse moving hanger rail is movably suspended below the first longitudinal moving hanger rail through a first hanger rod and is vertical to the first longitudinal moving hanger rail, and the second end of the transverse moving hanger rail is movably suspended below the second longitudinal moving hanger rail through a second hanger rod; the translation platform is movably suspended below the transverse moving hanging rail.

3. A ring mold turnover device as set forth in claim 2, wherein: the first longitudinally-moving hanging rail is a square rail; the upper end of the first suspender is provided with a bracket which is arranged around the square rail, and the bracket is rotatably provided with a plurality of upper rollers, a plurality of side rollers and a plurality of lower rollers; the upper rollers are placed on the upper portion of the square rail, the side rollers are respectively located on two sides of the square rail, and the lower rollers are located below the square rail; the second longitudinal moving hanger rail is a C-shaped guide rail, the second hanger rod is composed of an upper rod and a lower rod which are hinged with each other, the upper end of the upper rod is provided with a roller embedded into a groove of the C-shaped guide rail, the lower end of the lower rod is connected with the transverse moving hanger rail, and the rotating axis of the lower rod relative to the upper rod is perpendicular to the length direction of the transverse moving hanger rail.

4. A bead mold turn-over apparatus as claimed in claim 3, wherein: the transverse moving hanger rail is a C-shaped guide rail, and the translation table is fixedly connected with the roller in the transverse moving hanger rail groove.

5. A ring mold turnover device as defined in claim 1 wherein: the number of the fixed pulleys is two, each group is 2, the number of the ropes is two, and each rope bypasses one group of fixed pulleys; and a cross arm is fixed at the end part of a piston rod of the cylinder, and the end part of the rope is fixedly connected with one end of the cross arm.

6. A device for turning over a forming ring mould according to claim 4, characterised in that: the turnover device also comprises a forming ring die arrangement line and an adhesion object die arrangement line which are parallel to each other; a plurality of bonding object molds are arranged in a row on the bonding object mold array line, and bonding parts of bonding objects on the bonding object molds are arranged upwards; a plurality of forming ring molds are displayed on the forming ring mold array line, and bonding parts of the forming ring molds on the forming ring molds are arranged upwards; the translation stage is arranged above the molding ring die arrangement line and the bonding object die arrangement line, can move between the molding ring die arrangement line and the bonding object die arrangement line and moves along the length direction of the molding ring die arrangement line and the bonding object die arrangement line.

7. A bead mold turn-over apparatus as claimed in claim 5, wherein: when a piston rod of the air cylinder extends to the limit position, the positioning pin of the ring hanger is lower than the forming ring die on the forming ring die display line and the bonding object die on the bonding object die display line.

8. A bead mold turn-over apparatus as claimed in claim 6, wherein: the first end and the second end of the transverse moving hanger rail are respectively provided with a stopping part, and when the translation table is stopped by the stopping parts, the translation table is just positioned right above a forming ring mould on the forming ring mould display line or right above a bonding object mould on the bonding object mould display line.

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