CN114932617B - Split type die table combined die and operation method thereof - Google Patents

Abstract

The invention discloses a split type die table combined die and an operation method thereof, wherein the combined installation and the split operation of a die table and a die can be realized through the matched use of the die table, a bolt hole, a die connector, a reserved hole, a positioning steel pipe, a die main body and a locking component, so that the split type die table combined die has good construction flexibility, the construction stability of the split type die table combined die can be ensured on the basis, and the construction efficiency is positively influenced; moreover, through the cooperation use between socket hole, pile up neatly locating rack and regulation and control mechanism, the location auxiliary member that sets up, when carrying out finished product drawing of patterns work, can carry out disposable drawing of patterns and drawing of patterns work one by one according to actual construction demand, easy operation, construction convenience, improvement finished product quality, provide convenience for the staff, and then improve whole construction economic benefits.

Description

Split type die table combined die and operation method thereof

Technical Field

The invention relates to the technical field of building equipment, in particular to a split type die table combined die and an operation method thereof.

Background

At present, the concrete prefabricated part is used as a novel process in the field of railway, municipal and other building industries, and is widely applied to building standardization, complete set of part products and industrial production.

The method saves materials, reduces construction cost, improves the limit of site construction operation conditions, reduces labor intensity of people, is beneficial to ensuring the quality of components, and promotes industrial structure adjustment and building industrial production.

In the prior art, in prefabricating corresponding component work, adopt assembly line mode to make generally for improve preparation work efficiency, in production and processing, on the one hand, mould and moulding bench are usually integral setting, can not carry out corresponding regulation and control and change to the mould according to construction preparation demand, and use flexibility is lower, moreover, in carrying out the drawing of patterns work, generally all take out the drawing of patterns one by one with the finished product that makes, and it can not be according to actual demand to the drawing of patterns adjustment, can not select the drawing of patterns mode according to actual conditions promptly, bring inconvenience for the staff, reduce its drawing of patterns work efficiency, influence whole efficiency of construction, and then reduce production and processing economic benefits.

Therefore, the present invention provides a split-type mold assembly and an operation method thereof for solving the above-mentioned problems.

Disclosure of Invention

The present invention is directed to a split-type mold assembly and an operating method thereof, which solve the above-mentioned problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: a split type die assembly mold comprises

The mould table is characterized in that bolt holes are symmetrically formed in two sides of the mould table at equal intervals, socket holes are symmetrically formed in two ends of the mould table, stacking locating frames are fixedly arranged at four corners of the upper end face of the mould table, an angle-shaped limiting plate is fixedly arranged at the upper end of the stacking locating frames, and an elastic pad is fixedly arranged on the inner side of the angle-shaped limiting plate;

the die connecting body is symmetrically provided with preformed holes in a penetrating mode, positioning steel pipes are inserted in the preformed holes in a splicing mode, and the die connecting body is connected with a die main body;

the locking assembly locks the positioning steel pipe and comprises a fixed disc, an arc-shaped locking clamp splice, a transmission bar, an anti-skid auxiliary lug, a first reset spring, a transmission chute, a locking ring and a handle;

the regulating mechanism is arranged in the die connecting body and comprises a connecting insertion shaft, a cylinder, an arc pushing chute, a supporting plate, a second reset spring, a cylinder and a regulating handle;

the positioning auxiliary piece is used for positioning the adjusting mechanism and comprises a movable plate, a third reset spring, a positioning clamping pin and a circular positioning clamping groove.

Preferably, the fixed disk equidistance sets up the lateral wall at the mould platform, and sets up in the avris position of bolt hole, runs through in the fixed disk and is provided with the round hole, symmetrical activity is provided with the arc locking clamp splice in the fixed disk, the fixed drive strip that is provided with of one end of arc locking clamp splice, the inside wall equidistance of the other end arcwall face is fixed to be provided with anti-skidding auxiliary bump, and the arc locking clamp splice is being connected end integrated into one piece symmetry with the drive strip and is provided with first reset spring, and first reset spring other end is fixed to be set up in the fixed disk, the one end of drive strip extends to in the transmission chute, the transmission chute equidistance sets up in the locking ring inside wall, locking ring threaded connection sets up on the fixed disk, and fixed being provided with the handle on the locking ring.

Preferably, the fixed disk and the bolt hole are arranged at the same positions and the same number of groups, and the diameters of the round holes on the fixed disk and the bolt hole are equal, and the center lines of the round holes and the bolt hole are on the same straight line.

Preferably, the anti-skid auxiliary protrusions are obliquely arranged on the inner side wall of the arc-shaped locking clamping block, the oblique directions of the anti-skid auxiliary protrusions are along the central line direction corresponding to the arc angle of the arc-shaped locking clamping block, two groups of anti-skid auxiliary protrusions are arranged, and the oblique directions of the two groups of anti-skid auxiliary protrusions are opposite.

Preferably, the connecting plug shaft is movably inserted in the die connecting body, a cylinder is fixedly arranged on the connecting plug shaft at equal intervals, the cylinder is movably arranged in the die connecting body, an arc pushing chute is arranged on the side wall of the cylinder, the supporting plate is movably arranged in the die connecting body at equal intervals, one end of the supporting plate extends to the arc pushing chute, the other end of the supporting plate extends to the outer side of the die connecting body and is fixedly arranged at the bottom end of the die main body, convex plates are symmetrically arranged on two sides of the supporting plate in an integrated manner, a second reset spring is integrally arranged on one side of the convex plates, the other end of the second reset spring is fixedly arranged in the die connecting body, one end of the connecting plug shaft extends to the outer side wall of the die connecting body, a cylinder is fixedly arranged at the end, and a regulating handle is fixedly arranged on two sides of the cylinder.

Preferably, the arc pushing chute is corresponding to the setting position of the supporting plate, the setting groups are the same, and the width of the notch of the arc pushing chute is equal to the length of the section of the end part of the supporting plate.

Preferably, the support plates correspond to the cylindrical setting positions, the number of the setting groups is the same, and two groups are arranged in total.

Preferably, the movable plate is movably arranged in the regulating handle at one side of the column body, one end of the movable plate is integrally and symmetrically provided with a third reset spring, the other end of the movable plate is fixedly provided with a positioning bayonet lock, the other end of the third reset spring is fixedly arranged in the regulating handle, and the circular positioning bayonet grooves are arranged on the side wall of the die table at equal intervals in an arc shape.

Preferably, the circular positioning clamping groove corresponds to the positioning clamping pin in setting position, is equal in diameter setting, and is in fit clamping connection with the positioning clamping pin.

A method of operating a split die bench set mold, the method comprising the steps of:

s1: firstly, combining a die table with a die, namely assembling according to actual production requirements, placing a die connecting body at a corresponding position of the die table, then enabling a positioning steel pipe to pass through a round hole in a fixed disc, enabling the positioning steel pipe to pass through a reserved hole in the die connecting body, and then entering into a round hole in a fixed disc at a corresponding position of the other side of the die table, namely locking the positioning steel pipe through a locking assembly;

s2: and then according to the actual construction requirement, the position of the die main body can be regulated and controlled through the regulating and controlling mechanism, so as to meet the production requirement, and the die main body can be subjected to multiple selections for later-stage finished product demoulding, namely one-by-one demoulding or one-time demoulding, after component pouring is completed, the die table is stacked in multiple layers through the socket holes by the lifting device of the production line, namely the die table is provided with a buffer protection effect through the stacking locating frame, the angle limiting plate and the elastic pad, and then the die table can be rotated through the socket holes by using the turnover mechanism during demoulding, so that the die table is driven to be combined with the die tool for one-time turnover demoulding.

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

according to the technical scheme provided by the invention, through the matched use of the die table, the bolt hole, the die connector, the reserved hole, the positioning steel pipe, the die main body and the locking component, the combined installation and separation work of the die table and the die can be realized, the construction flexibility is good, the construction stability can be ensured on the basis, and the positive influence on the improvement of the construction efficiency is further realized; moreover, through the cooperation use between socket hole, pile up neatly locating rack and regulation and control mechanism, the location auxiliary member that sets up, when carrying out finished product drawing of patterns work, can carry out disposable drawing of patterns and drawing of patterns work one by one according to actual construction demand, easy operation, construction convenience, improvement finished product quality, provide convenience for the staff, and then improve whole construction economic benefits.

Drawings

FIG. 1 is a schematic view of the left side of a connection of a die assembly die of the die assembly of the present invention;

FIG. 2 is an enlarged schematic view of a portion of the structural joint of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of the right side of the connection of the die assembly die structure of the die assembly of the present invention;

FIG. 4 is an enlarged schematic view of a portion of the structural joint of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of a mold connector and mold body structure connection according to the present invention;

FIG. 6 is a schematic view of a locking assembly structure of the present invention;

FIG. 7 is a partial cross-sectional view of the attachment of the inner structure of the retaining disk in the locking assembly of the present invention;

FIG. 8 is an enlarged schematic view of a portion of the structural joint of FIG. 7 in accordance with the present invention;

FIG. 9 is a schematic view of the structural connection of the arcuate locking clamp block and the drive belt of the present invention;

FIG. 10 is a bottom view, partially in section, of the internal structure of the mold connector of the present invention;

FIG. 11 is an enlarged partial schematic view of the structural joint of FIG. 10 in accordance with the present invention;

FIG. 12 is a top view, partially in section, of the internal structure of a mold interconnect of the present invention;

fig. 13 is an enlarged partial schematic view of the structural connection of fig. 12 in accordance with the present invention.

In the figure: the die table 1, the bolt hole 2, the socket hole 3, the stacking locating rack 4, the angle limiting plate 5, the elastic pad 6, the die connecting body 7, the reserved hole 8, the locating steel pipe 9, the die main body 10, the locking component 11, the fixing disc 1101, the arc locking clamping block 1102, the transmission strip 1103, the anti-slip auxiliary bump 1104, the first reset spring 1105, the transmission chute 1106, the locking ring 1107, the handle 1108, the regulating mechanism 12, the connecting plug 1201, the cylinder 1202, the arc pushing chute 1203, the supporting plate 1204, the second reset spring 1205, the cylinder 1206, the regulating handle 1207, the locating auxiliary 13, the movable plate 1301, the third reset spring 1302, the locating bayonet 1303 and the circular locating bayonet 1304.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. Embodiments of the present invention are intended to be within the scope of the present invention as defined by the appended claims.

Referring to fig. 1 to 13, the present invention provides a technical solution: the invention relates to a split type die table combined die, which comprises

The mould table 1, the both sides equidistance symmetry of mould table 1 is provided with bolt hole 2, and the both ends symmetry of mould table 1 is provided with socket 3, and four corner positions of mould table 1 up end are fixed and are provided with pile up neatly locating rack 4, and pile up neatly locating rack 4's upper end is fixed and is provided with angle limiting plate 5, and angle limiting plate 5 inboard is fixed and is provided with elastic pad 6;

the die connecting body 7 is symmetrically provided with preformed holes 8 in a penetrating way, positioning steel pipes 9 are inserted in the preformed holes 8, and the die connecting body 7 is connected with a die main body 10;

the locking assembly 11 locks the positioning steel tube 9, and the locking assembly 11 comprises a fixed disc 1101, an arc-shaped locking clamp block 1102, a transmission bar 1103, an anti-slip auxiliary projection 1104, a first reset spring 1105, a transmission chute 1106, a locking ring 1107 and a handle 1108;

the regulating mechanism 12, the regulating mechanism 12 is arranged in the die connecting body 7, and the regulating mechanism 12 comprises a connecting plug shaft 1201, a cylinder 1202, an arc pushing chute 1203, a support plate 1204, a second reset spring 1205, a cylinder 1206 and a regulating handle 1207;

the positioning auxiliary member 13, the positioning auxiliary member 13 positions the adjusting mechanism 12, and the positioning auxiliary member 13 comprises a movable plate 1301, a third return spring 1302, a positioning clamp pin 1303 and a circular positioning clamp groove 1304.

The fixed disk 1101 is equidistantly arranged on the outer side wall of the die table 1 and is arranged at the side position of the bolt hole 2, a round hole is formed in the fixed disk 1101 in a penetrating mode, an arc-shaped locking clamping block 1102 is symmetrically and movably arranged in the fixed disk 1101, a transmission bar 1103 is fixedly arranged at one end of the arc-shaped locking clamping block 1102, an anti-slip auxiliary projection 1104 is fixedly arranged on the inner side wall of the arc-shaped surface of the other end of the arc-shaped locking clamping block, a first reset spring 1105 is symmetrically arranged at the end, connected with the transmission bar 1103, of the arc-shaped locking clamping block 1102, the other end of the first reset spring 1105 is fixedly arranged in the fixed disk 1101, one end of the transmission bar 1103 extends into a transmission chute 1106, the transmission chute 1106 is equidistantly arranged in the inner side wall of a locking ring 1107, the locking ring 1107 is in threaded connection with the fixed disk 1101, and a handle 1108 is fixedly arranged on the locking ring 1107.

The fixed disk 1101 and the bolt holes 2 are arranged in the same number of groups in the corresponding positions, and the diameters of the round holes on the fixed disk 1101 and the bolt holes 2 are equal, so that the center lines of the round holes and the bolt holes are on the same straight line; the anti-slip auxiliary protrusions 1104 are arranged obliquely on the inner side wall of the arc-shaped locking clamp block 1102, the oblique direction of the anti-slip auxiliary protrusions 1104 is along the central line direction corresponding to the arc angle of the arc-shaped locking clamp block 1102, two groups of anti-slip auxiliary protrusions 1104 are arranged, and the oblique directions of the two groups of anti-slip auxiliary protrusions are opposite.

The connecting plug shaft 1201 is movably inserted and arranged in the die connecting body 7, the connecting plug shaft 1201 is fixedly provided with cylinders 1202 at equal intervals, the cylinders 1202 are movably arranged in the die connecting body 7, the side walls of the cylinders 1202 are provided with arc pushing chute 1203, the supporting plates 1204 are movably arranged in the die connecting body 7 at equal intervals, one ends of the supporting plates 1204 extend to the arc pushing chute 1203, the other ends extend to the outer side of the die connecting body 7 and are fixedly arranged at the bottom end of the die main body 10, two sides of the supporting plates 1204 are symmetrically provided with convex plates in an integrated manner, one side of each convex plate is integrally provided with a second reset spring 1205, the other ends of the second reset springs 1205 are fixedly arranged in the die connecting body 7, one ends of the connecting plug shafts 1201 extend to the outer side wall of the die connecting body 7, the end portions of the supporting plates are fixedly provided with cylinders 1206, and two sides of the supporting plates 1206 are symmetrically and fixedly provided with regulating handles 1207.

The arc pushing chute 1203 corresponds to the arrangement position of the support plate 1204, the arrangement number is the same, and the width of the notch of the arc pushing chute 1203 is equal to the section length of the end part of the support plate 1204; the support plate 1204 has two sets corresponding to the positions of the columns 1202 and the same number of sets.

The movable plate 1301 is movably arranged in a regulating handle 1207 at one side of the column 1206, one end of the movable plate 1301 is integrally and symmetrically provided with a third reset spring 1302, the other end of the movable plate is fixedly provided with a positioning clamp pin 1303, the other end of the third reset spring 1302 is fixedly arranged in the regulating handle 1207, and circular positioning clamp grooves 1304 are arranged on the side wall of the die table 1 at equal intervals in an arc shape; the circular positioning clamping groove 1304 corresponds to the positioning clamping pin 1303 in arrangement position, has the same diameter, and is in fit clamping connection with the circular positioning clamping groove.

The actual operation process comprises the following steps:

firstly, the die table 1 and a die are combined, namely, the die connecting body 7 is placed at the corresponding position of the die table 1 according to actual production requirements, then the positioning steel pipe 9 passes through a circular hole on the fixed disc 1101, the positioning steel pipe 9 passes through a reserved hole 8 in the die connecting body 7 and then enters a circular hole on the fixed disc 1101 at the corresponding position on the other side of the die table 1, namely, the positioning steel pipe 9 is locked through a locking assembly 11, namely, a handle 1108 drives a locking ring 1107 to rotate and screw, a transmission chute 1106 on the inner side wall of the locking ring 1107 extrudes a transmission strip 1103, the transmission strip 1103 pushes an arc-shaped locking clamp block 1102 to clamp and lock the side wall of the positioning steel pipe 9, an anti-skid auxiliary bump 1104 arranged on the inner side wall of the arc-shaped locking clamp block 1102 is obliquely arranged, the oblique directions of the anti-skid auxiliary bump 1104 are in two groups along the central line direction corresponding to the arc angle of the arc-shaped locking clamp block 1102, the oblique directions of the two groups are opposite, the two groups are equivalent to the effect of barb locking, the position deviation and even position sliding of the positioning steel pipe 9 can be well avoided, and the stability of the position fixing of the die connecting body 7 is ensured;

according to the actual construction requirement, the position of the mold main body 10 can be regulated and controlled through the regulating and controlling mechanism 12 so as to meet the production requirement, namely, the regulating and controlling handle 1207 is regulated and controlled through the Cheng Ju body, the regulating and controlling handle 1207 is held by two hands, one hand is used for holding and pressing the movable plate 1301, the positioning clamp pin 1303 is driven to be separated from the circular positioning clamp groove 1304, the locking state of the regulating and controlling handle 1207 is further relieved, the regulating and controlling handle 1207 is used for driving the connecting plug shaft 1201 to rotate, the arc-shaped pushing chute 1203 on the column 1206 is further driven to squeeze the supporting plate 1204, the lifting and controlling of the mold main body 10 are realized, the arc-shaped pushing chute 1203 is reversely rotated to release the extrusion of the supporting plate 1204 under the action of self gravity and the pull back of the second reset spring 1205, namely, the regulating and controlling work of the mold main body 10 is finished through the combined action of the arc-shaped pushing chute 1203 and the pull back of the second reset spring 1205, the holding and pressing of the movable plate 1301 is stopped after the regulating and controlling clamp pin 1301 is finished, the movable plate 1301 is driven to rotate under the action of the third reset spring 1203, the action of the arc-shaped pushing chute 1203 is enabled to return to the corresponding position of the circular clamp spring 1205, and the stable position of the mold main body 1204 is ensured, and the stable position of the mold main body is ensured, and the stable position is ensured under the action of the corresponding positioning and the positioning of the positioning clamp position of the clamp button 1205;

the die bench 1 is stacked in multiple layers through the socket 3 by the lifting device of the production line after the pouring of the components is completed, namely, the die bench 1 is stacked through the stacking locating frame 4, the angle limiting plate 5 and the elastic pad 6, and the die bench 1 is also provided with a buffer protection effect in the process, and then the die bench 1 can be rotated through the socket 3 by the turnover mechanism during the demolding operation, so that the die bench assembling die is finally driven to perform one-time turnover demolding.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A split type die bench assembling die is characterized in that: comprising

The mould table (1), the both sides equidistance symmetry of mould table (1) is provided with bolt hole (2), and the both ends symmetry of mould table (1) is provided with socket (3), and four corner positions of mould table (1) up end are fixed and are provided with pile up neatly locating rack (4), pile up neatly locating rack (4)'s upper end is fixed to be provided with angle limiting plate (5), and angle limiting plate (5) inboard is fixed to be provided with elastic pad (6);

the die comprises a die connecting body (7), wherein preformed holes (8) are symmetrically formed in the die connecting body (7) in a penetrating mode, positioning steel pipes (9) are inserted into the preformed holes (8), and a die main body (10) is connected to the die connecting body (7);

the locking assembly (11) locks the positioning steel tube (9), and the locking assembly (11) comprises a fixed disc (1101), an arc-shaped locking clamping block (1102), a transmission strip (1103), an anti-slip auxiliary projection (1104), a first reset spring (1105), a transmission chute (1106), a locking ring (1107) and a handle (1108); the fixed disc (1101) is equidistantly arranged on the outer side wall of the die table (1) and is arranged at the side position of the bolt hole (2), round holes are formed in the fixed disc (1101) in a penetrating mode, arc-shaped locking clamping blocks (1102) are symmetrically and movably arranged in the fixed disc (1101), a transmission bar (1103) is fixedly arranged at one end of each arc-shaped locking clamping block (1102), anti-slip auxiliary protruding blocks (1104) are fixedly arranged on the inner side wall of the other end of each arc-shaped surface at equal intervals, first reset springs (1105) are symmetrically arranged at the end, connected with the transmission bar (1103), of each arc-shaped locking clamping block (1102), the other end of each first reset spring (1105) is fixedly arranged in the fixed disc (1101), one end of each transmission bar (1103) extends into each transmission chute (1106), the transmission chute (1106) is equidistantly arranged in the inner side wall of each locking ring (1107), each locking ring (1107) is in threaded connection with a handle (1108) arranged on the fixed disc (1101); the anti-skid auxiliary protrusions (1104) are obliquely arranged on the inner side wall of the arc-shaped locking clamping block (1102), the oblique directions of the anti-skid auxiliary protrusions are along the central line direction corresponding to the arc angle of the arc-shaped locking clamping block (1102), the anti-skid auxiliary protrusions (1104) are provided with two groups, and the oblique directions of the two groups are opposite;

the regulating mechanism (12) is arranged in the die connecting body (7), and the regulating mechanism (12) comprises a connecting plug shaft (1201), a cylinder (1202), an arc pushing chute (1203), a supporting plate (1204), a second reset spring (1205), a cylinder (1206) and a regulating handle (1207); the connecting plug shaft (1201) is movably inserted in the die connecting body (7), a cylinder (1202) is fixedly arranged on the connecting plug shaft (1201) at equal intervals, the cylinder (1202) is movably arranged in the die connecting body (7), an arc pushing chute (1203) is arranged on the side wall of the cylinder (1202), the supporting plate (1204) is movably arranged in the die connecting body (7) at equal intervals, one end of the supporting plate (1204) extends into the arc pushing chute (1203), the other end of the supporting plate extends to the outer side of the die connecting body (7) and is fixedly arranged at the bottom end of the die main body (10), convex plates are symmetrically arranged on two sides of the supporting plate (1204) in an integrated mode, a second reset spring (1205) is integrally formed on one side of the convex plates, the other end of the second reset spring (1205) is fixedly arranged in the die connecting body (7), one end of the connecting plug shaft (1201) extends to the outer side wall of the die connecting body (7), a cylinder (1206) is fixedly arranged at the end of the connecting plug shaft, and regulating handles (1207) are symmetrically and fixedly arranged on two sides of the cylinder (1206);

the positioning auxiliary piece (13), the positioning auxiliary piece (13) is used for positioning the control mechanism (12), and the positioning auxiliary piece (13) comprises a movable plate (1301), a third reset spring (1302), a positioning clamping pin (1303) and a circular positioning clamping groove (1304); the movable plate (1301) is movably arranged in a regulating handle (1207) at one side of the column body (1206), one end of the movable plate (1301) is integrally and symmetrically provided with a third reset spring (1302), the other end of the movable plate is fixedly provided with a positioning bayonet lock (1303), the other end of the third reset spring (1302) is fixedly arranged in the regulating handle (1207), and the circular positioning bayonet grooves (1304) are arranged on the side wall of the die table (1) at equal intervals in an arc shape.

2. A split die set assembly die as defined in claim 1, wherein: the fixed disk (1101) and the bolt holes (2) are corresponding in setting position and same in setting group number, and the diameters of the round holes on the fixed disk (1101) and the bolt holes (2) are equal, and the center lines of the round holes and the bolt holes are on the same straight line.

3. A split die set assembly die as defined in claim 1, wherein: the arc pushing chute (1203) corresponds to the setting position of the support plate (1204) and has the same setting group number, and the width of the notch of the arc pushing chute (1203) is equal to the section length of the end part of the support plate (1204).

4. A split die set assembly die as defined in claim 1, wherein: the support plates (1204) are corresponding to the arrangement positions of the cylinders (1202) and have the same number of arrangement groups, and two groups are arranged in total.

5. A split die set assembly die as defined in claim 1, wherein: the circular positioning clamping groove (1304) corresponds to the positioning clamping pin (1303) in setting position, has the same diameter, and is in adaptive clamping connection with the circular positioning clamping groove.

6. A method of operating a split die set according to any one of claims 1 to 5, comprising the steps of:

s1: firstly, a die table (1) and a die are combined, namely, the die table is assembled according to actual production requirements, a die connecting body (7) is placed at a corresponding position of the die table (1), then a positioning steel pipe (9) passes through a round hole in a fixed disc (1101), the positioning steel pipe (9) passes through a reserved hole (8) in the die connecting body (7), and then enters a round hole in the fixed disc (1101) at a corresponding position on the other side of the die table (1), namely, the positioning steel pipe (9) is locked through a locking assembly (11);

s2: then according to actual construction demand, can regulate and control the position of mould main part (10) through regulation and control mechanism (12) that set up, and can carry out multiple choice to the finished product drawing of patterns of later stage, go on drawing of patterns one by one or once only drawing of patterns work, afterwards the back is pour to the component, elevating gear of production line stacks mould platform (1) through socket (3) in the multilayer, pile up through pile up neatly locating rack (4) that set up promptly, angle limiting plate (5) and elastic pad (6) and place, and in this process has a buffering guard action to mould platform (1), later when carrying out drawing of patterns work, utilize socket (3) to rotate mould platform (1) through tilting mechanism, and then drive mould platform assembly mould and carry out disposable upset drawing of patterns.