CN211613983U - Multi-material punching and laminating forming die - Google Patents

Abstract

The utility model discloses a many materials are towards type and fashioned mould of laminating, the mould seat of honour includes: go up the die panel and go up the die core board, go up the die panel and locate the upper end of die core board and be connected with the position sleeve through switching on, it can do along guide pin bushing and position sleeve and slide from top to bottom to go up the die panel, it will need the material of laminating on it simultaneously to go up the elasticity piece that the die panel filled up from this between the die core board at last die panel and to form the silo to go up the die panel to be provided with between the die core board to go up the die panel, just can realize in the single blanking production in work piece blanking shaping and laminate the material on it simultaneously on a finished product work piece, need not to laminate with the same each abnormal shape of two or more than two materials or material after cutting separately behind the single material stamping forming, the efficiency of work has been improved, processing is in one.

Description

Multi-material punching and laminating forming die

Technical Field

The utility model belongs to the technical field of stamping die and specifically relates to a mould of many materials towards type and laminating shaping is related to.

Background

In the existing workpiece blanking forming, if a finished product needs to be formed by multiple materials in different shapes and needs to be attached, a single material is needed to be punched and formed, then two or more materials or materials with the same material and different shapes are respectively die-cut or the materials after cutting are attached, the capacity is low, and the working efficiency of a machine table is reduced in labor-consuming time.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

A multi-material punching and fitting mold comprises: mould seat of honour, mould medium plate and mould lower, mould lower both sides are provided with the vertical guide pillar that upwards extends, and mould seat of honour both sides are provided with the guide pin bushing, and the guide pillar inserts the guide pin bushing inside direction that carries out the compound die and divide the mould, mould lower both sides still are provided with vertical ascending reference column, and mould seat of honour both sides are provided with the position sleeve, and the reference column passes the mould medium plate and inserts the processing location of adding man-hour in the position sleeve, the mould seat of honour includes: the upper die panel is arranged at the upper end of the upper die core plate and is connected with the positioning sleeve through conduction, the upper die panel can slide up and down along the guide sleeve and the positioning sleeve, and an elastic block for cushioning the upper die panel is arranged between the upper die core plate and the upper die panel, so that a trough is formed between the upper die panel and the upper die core plate;

the lower end face of the upper die panel is fixedly provided with a second material pressing block and a first material pressing block, the second material pressing block and the first material pressing block vertically extend downwards to pass through the upper die core plate, when the upper die panel is separated from the upper die core plate to the maximum distance, the lower end of the second material pressing block and the lower end of the first material pressing block are in the same horizontal plane with the lower end of the upper die core plate, the upper die core plate is also provided with an avoidance groove which obliquely extends upwards to pass through the upper die core plate, the avoidance groove is communicated with a material channel, the lower end of the upper die core plate is provided with a first material belt, the lower end face of the first material belt is an adhesive layer, the first material belt passes through the avoidance groove via the lower end of the first material pressing block to enter the material channel and extend outwards from the material channel to the die, the inlet position of the avoidance groove is provided with a first roller which is rotatably installed on the lower end face of, the first roller and the second roller are used for guiding the first material belt into the avoidance groove and guiding the first material belt out of the avoidance groove;

the lower end face of the upper die panel is also fixedly provided with a punch vertically arranged downwards, and the punch penetrates through the upper die core plate;

two avoidance holes for the second pressing block and the first pressing block to pass through are formed in the die middle plate, and full-broken-hole auxiliary holes for the punch to pass through are formed in the die middle plate;

a second material belt is arranged between the upper die seat and the middle die plate;

a first material die-cutting knife for cutting a first material belt and a second material die-cutting knife for cutting a second material belt are arranged between the upper die seat and the middle die plate, and the first material die-cutting knife and the first material pressing block are positioned on the same axis while the second material die-cutting knife and the second material pressing block are positioned on the same axis;

a third material belt is arranged between the middle plate of the die and the lower seat of the die;

a third material die-cutting knife for cutting a third material belt is arranged between the middle plate of the die and the lower seat of the die, and a knife groove of the third material die-cutting knife covers the two avoidance holes and the full broken hole auxiliary holes;

the lower die seat is provided with a full-fracture punched hole which is coaxial with the full-fracture auxiliary hole;

the positioning column is nested with a spring, and the spring is positioned between the middle plate of the die and the lower seat of the die.

Compared with the prior art, the beneficial effects of the utility model are that: the material that will need to laminate on it simultaneously just can be realized laminating in single blanking production on a finished product work piece in work piece blanking shaping, need not to laminate with two or more than two materials or the same each different shape of material respectively cross cutting or the material after cutting after the single material stamping forming again, has improved the efficiency of work, and processing is in place in one step, and the cutter position can have more different demands to carry out different changes simultaneously, can adapt to different materials and cut.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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 described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

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

Fig. 2 is a schematic structural diagram of a second embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a third embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a first embodiment of the middle press block according to the present invention.

Fig. 5 is a schematic structural diagram of a second embodiment of the middle press block according to the present invention.

Fig. 6 is a schematic structural diagram of a third embodiment of the middle pressing block of the present invention.

Fig. 7 is a schematic structural diagram of a fourth embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a fifth embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a sixth embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, in an embodiment of the present invention, a multi-material stamping and laminating mold, wherein the mold can be an etching mold, an engraving mold, a QDC mold, a wood plate mold, a plastic plate mold, includes: mould seat of honour 1, mould medium plate 2 and mould lower 3, 3 both sides of mould lower are provided with the vertical guide pillar 26 that upwards extends, and 1 both sides of mould seat of honour are provided with guide pin bushing 24, and guide pillar 26 inserts the inside direction of carrying out the compound die and dividing the mould of guide pin bushing 24, 3 both sides of mould lower still are provided with vertical ascending reference column 27, and 1 both sides of mould seat of honour are provided with position sleeve 25, and reference column 27 passes mould medium plate 2 and inserts the processing location of adding man-hour in the position sleeve 25, mould seat of honour 1 includes: the upper die panel 22 and the upper die core plate 23, the upper die panel 22 is arranged at the upper end of the upper die core plate 23 and is connected with the positioning sleeve 25 through conduction, the upper die panel 22 can slide up and down along the guide sleeve 24 and the positioning sleeve 25, and the elastic block 11 for cushioning the upper die panel 22 is arranged between the upper die core plates 23, so that a trough is formed between the upper die panel 22 and the upper die core plate 23;

the lower end surface of the upper die panel 22 is fixedly provided with a second material pressing block 9 and a first material pressing block 10, the second material pressing block 9 and the first material pressing block 10 vertically extend downwards to pass through the upper die core plate 23, when the upper die panel 22 and the upper die core plate 23 are separated to the maximum distance, the lower ends of the second material pressing block 9 and the first material pressing block 10 and the lower end surface of the upper die core plate 23 are in the same horizontal plane, the upper die core plate 23 is further provided with an avoiding groove 7 which obliquely extends upwards through the upper die core plate 23, the avoiding groove 7 is communicated with the material channel 21, the lower end of the upper die core plate 23 is provided with a first material belt 18, the lower end surface of the first material belt 18 is an adhesive layer, the first material belt 18 enters the material channel 21 through the avoiding groove 7 via the lower end of the first material pressing block 10 and extends outwards from the material channel 21 to the die, wherein the inlet position of the avoiding groove 7 is provided with a first roller 8 rotatably installed on the lower end surface of, the surface of the second roller 5 is made of a release film material, so that the adhesion with an adhesive layer of the first material belt 18 is avoided, the first roller 8 and the second roller 5 are used for guiding the first material belt 18 into the avoiding groove 7 and guiding the first material belt out of the avoiding groove 7, and meanwhile, one end of the first material belt 18 can be dragged by the first roller 8 and the second roller 5, so that the condition that the first material belt 18 is adhered to a mold is avoided;

the lower end surface of the upper die panel 22 is also fixedly provided with a punch 6 vertically arranged downwards, and the punch 6 penetrates through the upper die core plate 23;

two avoidance holes 28 for the second pressing block 9 and the first pressing block 10 to pass through are formed in the die middle plate 2, and a full-broken hole auxiliary hole 17 for the punch 6 to pass through is formed in the die middle plate 2;

a second material belt 19 is arranged between the die upper seat 1 and the die middle plate 2;

a first material die-cutting knife 13 for cutting a first material belt 18 and a second material die-cutting knife 15 for cutting a second material belt 19 are arranged between the die upper seat 1 and the die middle plate 2, the first material die-cutting knife 13 and the first material pressing block 10 are positioned on the same axis, and the second material die-cutting knife 15 and the second material pressing block 9 are positioned on the same axis;

a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3;

a third material die-cutting knife 14 for cutting a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3, and a knife groove of the third material die-cutting knife 14 covers the two avoidance holes 28 and the full broken hole auxiliary hole 17;

the die lower seat 3 is provided with a full-broken punched hole 16 which is coaxial with the full-broken auxiliary hole 17, and the punch 6 can directly fall into the full-broken punched hole 16 during punching to complete hole site forming;

the positioning column 27 is nested with a spring 12, and the spring 12 is positioned between the middle plate 2 and the lower die seat 3.

The upper end face and the lower end face of the mold middle plate 2 are respectively provided with a massive safety block 4, so that the collision of the mold middle plate 2, the mold upper seat 1 and the mold lower seat 3 with the cutting edge of the die-cutting rule is avoided.

The lower end surfaces of the first material pressing block 10 and the second material pressing block 9 are in the shape of an inclined plane inclined towards a single side, or are in the shape of a cone protruding towards the middle part or are in the shape of a circular protrusion, and each different arrangement can meet different use requirements.

The utility model discloses a theory of operation is: the first material belt 18, the second material belt 19 and the third material belt 20 are placed at corresponding positions in advance, how to perform stamping and die assembly on a die is performed, when the die is assembled, an upper die base 1 of the die is compressed downwards, the second material belt 19 and the first material belt 18 are cut through a second material die cutter 15 and a first material die cutter 13 respectively, then the upper die base 1 of the die is pressed downwards to push a middle plate 2 of the die to be pressed downwards, so that a third material die cutter 14 cuts the third material belt 20, when the upper die base 1 of the die, the middle plate 2 of the die and a lower die base 3 of the die are assembled and molded, a machine works to enable an upper die panel 22 to be compressed downwards, so that a first material pressing block 10, a second material pressing block 9 and a punch 6 extend downwards at the same time, the first material belt 18 and the second material belt 19 are cut and fall off by the first material belt 10 and the second material belt 9 and are attached to a punch 20, and the first material belt 10 and the second material belt 19 fall off the punch are inserted into, the third material belt 20 falls off the material sheet while being inserted, and punching and cutting are carried out.

The first embodiment is as follows:

as shown in fig. 1: a multi-material punching and fitting mold comprises: mould seat of honour 1, mould medium plate 2 and mould lower 3, 3 both sides of mould lower are provided with the vertical guide pillar 26 that upwards extends, and 1 both sides of mould seat of honour are provided with guide pin bushing 24, and guide pillar 26 inserts the inside direction of carrying out the compound die and dividing the mould of guide pin bushing 24, 3 both sides of mould lower still are provided with vertical ascending reference column 27, and 1 both sides of mould seat of honour are provided with position sleeve 25, and reference column 27 passes mould medium plate 2 and inserts the processing location of adding man-hour in the position sleeve 25, mould seat of honour 1 includes: the upper die panel 22 and the upper die core plate 23, the upper die panel 22 is arranged at the upper end of the upper die core plate 23 and is connected with the positioning sleeve 25 through conduction, the upper die panel 22 can slide up and down along the guide sleeve 24 and the positioning sleeve 25, and the elastic block 11 for cushioning the upper die panel 22 is arranged between the upper die core plates 23, so that a trough is formed between the upper die panel 22 and the upper die core plate 23;

the lower end surface of the upper die panel 22 is fixedly provided with a second material pressing block 9 and a first material pressing block 10, the second material pressing block 9 and the first material pressing block 10 vertically extend downwards to pass through the upper die core plate 23, when the upper die panel 22 and the upper die core plate 23 are separated to the maximum distance, the lower ends of the second material pressing block 9 and the first material pressing block 10 and the lower end surface of the upper die core plate 23 are in the same horizontal plane, the upper die core plate 23 is also provided with an avoiding groove 7 which obliquely extends upwards to penetrate through the upper die core plate 23, the avoiding groove 7 is communicated with the material channel 21, the lower end of the upper die core plate 23 is provided with a first material belt 18, the first material belt 18 passes through the lower end of the first material pressing block 10 and enters the material channel 21 through the avoiding groove 7, the first material belt extends outwards from the material channel 21, wherein the inlet position of the avoiding groove 7 is provided with a first roller 8 rotatably installed on the lower end surface, the surface of the second roller 5 is made of release film material, and the first roller 8 and the second roller 5 are used for guiding the first material belt 18 into the avoidance groove 7 and guiding the first material belt out of the avoidance groove 7;

the lower end surface of the upper die panel 22 is also fixedly provided with a punch 6 vertically arranged downwards, and the punch 6 penetrates through the upper die core plate 23;

two avoidance holes 28 for the second pressing block 9 and the first pressing block 10 to pass through are formed in the die middle plate 2, and a full-broken hole auxiliary hole 17 for the punch 6 to pass through is formed in the die middle plate 2;

a second material belt 19 is arranged between the die upper seat 1 and the die middle plate 2;

a first material die-cutting knife 13 for cutting a first material belt 18 and a second material die-cutting knife 15 for cutting a second material belt 19 are arranged between the die upper seat 1 and the die middle plate 2, the first material die-cutting knife 13 and the first material pressing block 10 are positioned on the same axis, and the second material die-cutting knife 15 and the second material pressing block 9 are positioned on the same axis;

a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3;

a third material die-cutting knife 14 for cutting a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3, and a knife groove of the third material die-cutting knife 14 covers the two avoidance holes 28 and the full broken hole auxiliary hole 17;

the lower die seat 3 is provided with a full-broken punched hole 16 which is coaxial with the full-broken auxiliary hole 17;

the positioning column 27 is nested with a spring 12, and the spring 12 is positioned between the middle plate 2 and the lower die seat 3.

And massive safety blocks 4 are arranged on the upper end face and the lower end face of the middle plate 2 of the die.

The second material die-cutting knife 15 and the first material die-cutting knife 13 are both arranged on the upper end surface of the middle plate 2 of the die, and the knife edges of the second material die-cutting knife 15 and the first material die-cutting knife 13 are upward; the third material die-cutting knife 14 is installed on the lower end face of the middle plate 2 of the die, and the knife edge of the third material die-cutting knife 14 faces downwards.

Example two:

as shown in fig. 2: a multi-material punching and fitting mold comprises: mould seat of honour 1, mould medium plate 2 and mould lower 3, 3 both sides of mould lower are provided with the vertical guide pillar 26 that upwards extends, and 1 both sides of mould seat of honour are provided with guide pin bushing 24, and guide pillar 26 inserts the inside direction of carrying out the compound die and dividing the mould of guide pin bushing 24, 3 both sides of mould lower still are provided with vertical ascending reference column 27, and 1 both sides of mould seat of honour are provided with position sleeve 25, and reference column 27 passes mould medium plate 2 and inserts the processing location of adding man-hour in the position sleeve 25, mould seat of honour 1 includes: the upper die panel 22 and the upper die core plate 23, the upper die panel 22 is arranged at the upper end of the upper die core plate 23 and is connected with the positioning sleeve 25 through conduction, the upper die panel 22 can slide up and down along the guide sleeve 24 and the positioning sleeve 25, and the elastic block 11 for cushioning the upper die panel 22 is arranged between the upper die core plates 23, so that a trough is formed between the upper die panel 22 and the upper die core plate 23;

the lower end surface of the upper die panel 22 is fixedly provided with a second material pressing block 9 and a first material pressing block 10, the second material pressing block 9 and the first material pressing block 10 vertically extend downwards to pass through the upper die core plate 23, when the upper die panel 22 and the upper die core plate 23 are separated to the maximum distance, the lower ends of the second material pressing block 9 and the first material pressing block 10 and the lower end surface of the upper die core plate 23 are in the same horizontal plane, the upper die core plate 23 is also provided with an avoiding groove 7 which obliquely extends upwards to penetrate through the upper die core plate 23, the avoiding groove 7 is communicated with the material channel 21, the lower end of the upper die core plate 23 is provided with a first material belt 18, the first material belt 18 passes through the lower end of the first material pressing block 10 and enters the material channel 21 through the avoiding groove 7, the first material belt extends outwards from the material channel 21, wherein the inlet position of the avoiding groove 7 is provided with a first roller 8 rotatably installed on the lower end surface, the surface of the second roller 5 is made of release film material, and the first roller 8 and the second roller 5 are used for guiding the first material belt 18 into the avoidance groove 7 and guiding the first material belt out of the avoidance groove 7;

the lower end surface of the upper die panel 22 is also fixedly provided with a punch 6 vertically arranged downwards, and the punch 6 penetrates through the upper die core plate 23;

two avoidance holes 28 for the second pressing block 9 and the first pressing block 10 to pass through are formed in the die middle plate 2, and a full-broken hole auxiliary hole 17 for the punch 6 to pass through is formed in the die middle plate 2;

a second material belt 19 is arranged between the die upper seat 1 and the die middle plate 2;

a first material die-cutting knife 13 for cutting a first material belt 18 and a second material die-cutting knife 15 for cutting a second material belt 19 are arranged between the die upper seat 1 and the die middle plate 2, the first material die-cutting knife 13 and the first material pressing block 10 are positioned on the same axis, and the second material die-cutting knife 15 and the second material pressing block 9 are positioned on the same axis;

a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3;

a third material die-cutting knife 14 for cutting a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3, and a knife groove of the third material die-cutting knife 14 covers the two avoidance holes 28 and the full broken hole auxiliary hole 17;

the lower die seat 3 is provided with a full-broken punched hole 16 which is coaxial with the full-broken auxiliary hole 17;

the positioning column 27 is nested with a spring 12, and the spring 12 is positioned between the middle plate 2 and the lower die seat 3.

The second material die-cutting knife 15 is arranged on the lower end surface of the upper die core plate 23, and the knife edge of the second material die-cutting knife 15 faces downwards; the first material die-cutting knife 13 is installed on the upper end face of the middle plate 2 of the die, the knife edge of the first material die-cutting knife 13 faces upwards, the third material die-cutting knife 14 is installed on the upper end face of the lower die seat 3 of the die, and the knife edge of the third material die-cutting knife 14 faces upwards.

Example three:

as shown in fig. 3: a multi-material punching and fitting mold comprises: mould seat of honour 1, mould medium plate 2 and mould lower 3, 3 both sides of mould lower are provided with the vertical guide pillar 26 that upwards extends, and 1 both sides of mould seat of honour are provided with guide pin bushing 24, and guide pillar 26 inserts the inside direction of carrying out the compound die and dividing the mould of guide pin bushing 24, 3 both sides of mould lower still are provided with vertical ascending reference column 27, and 1 both sides of mould seat of honour are provided with position sleeve 25, and reference column 27 passes mould medium plate 2 and inserts the processing location of adding man-hour in the position sleeve 25, mould seat of honour 1 includes: the upper die panel 22 and the upper die core plate 23, the upper die panel 22 is arranged at the upper end of the upper die core plate 23 and is connected with the positioning sleeve 25 through conduction, the upper die panel 22 can slide up and down along the guide sleeve 24 and the positioning sleeve 25, and the elastic block 11 for cushioning the upper die panel 22 is arranged between the upper die core plates 23, so that a trough is formed between the upper die panel 22 and the upper die core plate 23;

the lower end surface of the upper die panel 22 is fixedly provided with a second material pressing block 9 and a first material pressing block 10, the second material pressing block 9 and the first material pressing block 10 vertically extend downwards to pass through the upper die core plate 23, when the upper die panel 22 and the upper die core plate 23 are separated to the maximum distance, the lower ends of the second material pressing block 9 and the first material pressing block 10 and the lower end surface of the upper die core plate 23 are in the same horizontal plane, the upper die core plate 23 is also provided with an avoiding groove 7 which obliquely extends upwards to penetrate through the upper die core plate 23, the avoiding groove 7 is communicated with the material channel 21, the lower end of the upper die core plate 23 is provided with a first material belt 18, the first material belt 18 passes through the lower end of the first material pressing block 10 and enters the material channel 21 through the avoiding groove 7, the first material belt extends outwards from the material channel 21, wherein the inlet position of the avoiding groove 7 is provided with a first roller 8 rotatably installed on the lower end surface, the surface of the second roller 5 is made of release film material, and the first roller 8 and the second roller 5 are used for guiding the first material belt 18 into the avoidance groove 7 and guiding the first material belt out of the avoidance groove 7;

the lower end surface of the upper die panel 22 is also fixedly provided with a punch 6 vertically arranged downwards, and the punch 6 penetrates through the upper die core plate 23;

two avoidance holes 28 for the second pressing block 9 and the first pressing block 10 to pass through are formed in the die middle plate 2, and a full-broken hole auxiliary hole 17 for the punch 6 to pass through is formed in the die middle plate 2;

a second material belt 19 is arranged between the die upper seat 1 and the die middle plate 2;

a first material die-cutting knife 13 for cutting a first material belt 18 and a second material die-cutting knife 15 for cutting a second material belt 19 are arranged between the die upper seat 1 and the die middle plate 2, the first material die-cutting knife 13 and the first material pressing block 10 are positioned on the same axis, and the second material die-cutting knife 15 and the second material pressing block 9 are positioned on the same axis;

a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3;

a third material die-cutting knife 14 for cutting a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3, and a knife groove of the third material die-cutting knife 14 covers the two avoidance holes 28 and the full broken hole auxiliary hole 17;

the lower die seat 3 is provided with a full-broken punched hole 16 which is coaxial with the full-broken auxiliary hole 17;

the positioning column 27 is nested with a spring 12, and the spring 12 is positioned between the middle plate 2 and the lower die seat 3.

The second material die-cutting knife 15 and the first material die-cutting knife 13 are both arranged on the lower end surface of the upper die core plate 23, and the knife edges of the second material die-cutting knife 15 and the first material die-cutting knife 13 are upward; the third material die-cutting knife 14 is installed on the lower end face of the middle plate 2 of the die, and the knife edge of the third material die-cutting knife 14 faces downwards.

Example four:

as shown in fig. 1 and 7: a multi-material punching and fitting mold comprises: mould seat of honour 1, mould medium plate 2 and mould lower 3, 3 both sides of mould lower are provided with the vertical guide pillar 26 that upwards extends, and 1 both sides of mould seat of honour are provided with guide pin bushing 24, and guide pillar 26 inserts the inside direction of carrying out the compound die and dividing the mould of guide pin bushing 24, 3 both sides of mould lower still are provided with vertical ascending reference column 27, and 1 both sides of mould seat of honour are provided with position sleeve 25, and reference column 27 passes mould medium plate 2 and inserts the processing location of adding man-hour in the position sleeve 25, mould seat of honour 1 includes: the upper die panel 22 and the upper die core plate 23, the upper die panel 22 is arranged at the upper end of the upper die core plate 23 and is connected with the positioning sleeve 25 through conduction, the upper die panel 22 can slide up and down along the guide sleeve 24 and the positioning sleeve 25, and the elastic block 11 for cushioning the upper die panel 22 is arranged between the upper die core plates 23, so that a trough is formed between the upper die panel 22 and the upper die core plate 23;

the lower end surface of the upper die panel 22 is fixedly provided with a second material pressing block 9 and a first material pressing block 10, the second material pressing block 9 and the first material pressing block 10 vertically extend downwards to pass through the upper die core plate 23, when the upper die panel 22 and the upper die core plate 23 are separated to the maximum distance, the lower ends of the second material pressing block 9 and the first material pressing block 10 and the lower end surface of the upper die core plate 23 are in the same horizontal plane, the upper die core plate 23 is also provided with an avoiding groove 7 which obliquely extends upwards to penetrate through the upper die core plate 23, the avoiding groove 7 is communicated with the material channel 21, the lower end of the upper die core plate 23 is provided with a first material belt 18, the first material belt 18 passes through the lower end of the first material pressing block 10 and enters the material channel 21 through the avoiding groove 7, the first material belt extends outwards from the material channel 21, wherein the inlet position of the avoiding groove 7 is provided with a first roller 8 rotatably installed on the lower end surface, the surface of the second roller 5 is made of release film material, and the first roller 8 and the second roller 5 are used for guiding the first material belt 18 into the avoidance groove 7 and guiding the first material belt out of the avoidance groove 7;

the lower end surface of the upper die panel 22 is also fixedly provided with a punch 6 vertically arranged downwards, and the punch 6 penetrates through the upper die core plate 23;

two avoidance holes 28 for the second pressing block 9 and the first pressing block 10 to pass through are formed in the die middle plate 2, and a full-broken hole auxiliary hole 17 for the punch 6 to pass through is formed in the die middle plate 2;

a second material belt 19 is arranged between the die upper seat 1 and the die middle plate 2;

a first material die-cutting knife 13 for cutting a first material belt 18 and a second material die-cutting knife 15 for cutting a second material belt 19 are arranged between the die upper seat 1 and the die middle plate 2, the first material die-cutting knife 13 and the first material pressing block 10 are positioned on the same axis, and the second material die-cutting knife 15 and the second material pressing block 9 are positioned on the same axis;

a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3;

a third material die-cutting knife 14 for cutting a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3, and a knife groove of the third material die-cutting knife 14 covers the two avoidance holes 28 and the full broken hole auxiliary hole 17;

the lower die seat 3 is provided with a full-broken punched hole 16 which is coaxial with the full-broken auxiliary hole 17;

the positioning column 27 is nested with a spring 12, and the spring 12 is positioned between the middle plate 2 and the lower die seat 3.

And massive safety blocks 4 are arranged on the upper end face and the lower end face of the middle plate 2 of the die.

The second material die-cutting knife 15 and the first material die-cutting knife 13 are both arranged on the upper end surface of the middle plate 2 of the die, and the knife edges of the second material die-cutting knife 15 and the first material die-cutting knife 13 are upward; the third material die-cutting knife 14 is installed on the lower end face of the middle plate 2 of the die, and the knife edge of the third material die-cutting knife 14 faces downwards.

All be provided with the screw thread through-hole on the four corners of first material die-cutting knife 13 and second material die-cutting knife 15, set up on the mould medium plate 2 and be used for placing the screw thread incision 30 of first material die-cutting knife 13 and second material die-cutting knife 15, be provided with screw hole 29 on the four corners of screw thread incision 30, the screw thread through-hole on first material die-cutting knife 13 and the second material die-cutting knife 15 corresponds screw hole 29 on the screw thread incision 30 respectively, and first material die-cutting knife 13 passes through screw thread with second material die-cutting knife 15 and fixes in screw thread incision 30.

Example five:

as shown in fig. 1 and 8: a multi-material punching and fitting mold comprises: mould seat of honour 1, mould medium plate 2 and mould lower 3, 3 both sides of mould lower are provided with the vertical guide pillar 26 that upwards extends, and 1 both sides of mould seat of honour are provided with guide pin bushing 24, and guide pillar 26 inserts the inside direction of carrying out the compound die and dividing the mould of guide pin bushing 24, 3 both sides of mould lower still are provided with vertical ascending reference column 27, and 1 both sides of mould seat of honour are provided with position sleeve 25, and reference column 27 passes mould medium plate 2 and inserts the processing location of adding man-hour in the position sleeve 25, mould seat of honour 1 includes: the upper die panel 22 and the upper die core plate 23, the upper die panel 22 is arranged at the upper end of the upper die core plate 23 and is connected with the positioning sleeve 25 through conduction, the upper die panel 22 can slide up and down along the guide sleeve 24 and the positioning sleeve 25, and the elastic block 11 for cushioning the upper die panel 22 is arranged between the upper die core plates 23, so that a trough is formed between the upper die panel 22 and the upper die core plate 23;

the lower end surface of the upper die panel 22 is fixedly provided with a second material pressing block 9 and a first material pressing block 10, the second material pressing block 9 and the first material pressing block 10 vertically extend downwards to pass through the upper die core plate 23, when the upper die panel 22 and the upper die core plate 23 are separated to the maximum distance, the lower ends of the second material pressing block 9 and the first material pressing block 10 and the lower end surface of the upper die core plate 23 are in the same horizontal plane, the upper die core plate 23 is also provided with an avoiding groove 7 which obliquely extends upwards to penetrate through the upper die core plate 23, the avoiding groove 7 is communicated with the material channel 21, the lower end of the upper die core plate 23 is provided with a first material belt 18, the first material belt 18 passes through the lower end of the first material pressing block 10 and enters the material channel 21 through the avoiding groove 7, the first material belt extends outwards from the material channel 21, wherein the inlet position of the avoiding groove 7 is provided with a first roller 8 rotatably installed on the lower end surface, the surface of the second roller 5 is made of release film material, and the first roller 8 and the second roller 5 are used for guiding the first material belt 18 into the avoidance groove 7 and guiding the first material belt out of the avoidance groove 7;

the lower end surface of the upper die panel 22 is also fixedly provided with a punch 6 vertically arranged downwards, and the punch 6 penetrates through the upper die core plate 23;

two avoidance holes 28 for the second pressing block 9 and the first pressing block 10 to pass through are formed in the die middle plate 2, and a full-broken hole auxiliary hole 17 for the punch 6 to pass through is formed in the die middle plate 2;

a second material belt 19 is arranged between the die upper seat 1 and the die middle plate 2;

a first material die-cutting knife 13 for cutting a first material belt 18 and a second material die-cutting knife 15 for cutting a second material belt 19 are arranged between the die upper seat 1 and the die middle plate 2, the first material die-cutting knife 13 and the first material pressing block 10 are positioned on the same axis, and the second material die-cutting knife 15 and the second material pressing block 9 are positioned on the same axis;

a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3;

a third material die-cutting knife 14 for cutting a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3, and a knife groove of the third material die-cutting knife 14 covers the two avoidance holes 28 and the full broken hole auxiliary hole 17;

the lower die seat 3 is provided with a full-broken punched hole 16 which is coaxial with the full-broken auxiliary hole 17;

the positioning column 27 is nested with a spring 12, and the spring 12 is positioned between the middle plate 2 and the lower die seat 3.

And massive safety blocks 4 are arranged on the upper end face and the lower end face of the middle plate 2 of the die.

The second material die-cutting knife 15 and the first material die-cutting knife 13 are both arranged on the upper end surface of the middle plate 2 of the die, and the knife edges of the second material die-cutting knife 15 and the first material die-cutting knife 13 are upward; the third material die-cutting knife 14 is installed on the lower end face of the middle plate 2 of the die, and the knife edge of the third material die-cutting knife 14 faces downwards.

Two cutter clamping grooves 31 for placing a first material die-cutting cutter 13 and a second material die-cutting cutter 15 are formed in the die middle plate 2, the first material die-cutting cutter 13 and the second material die-cutting cutter are placed in the cutter clamping grooves 31 and 15, and the first material die-cutting cutter 13 and the second material die-cutting cutter 15 are tightly matched with the cutter clamping grooves 31.

Example six:

as shown in fig. 1 and 9: a multi-material punching and fitting mold comprises: mould seat of honour 1, mould medium plate 2 and mould lower 3, 3 both sides of mould lower are provided with the vertical guide pillar 26 that upwards extends, and 1 both sides of mould seat of honour are provided with guide pin bushing 24, and guide pillar 26 inserts the inside direction of carrying out the compound die and dividing the mould of guide pin bushing 24, 3 both sides of mould lower still are provided with vertical ascending reference column 27, and 1 both sides of mould seat of honour are provided with position sleeve 25, and reference column 27 passes mould medium plate 2 and inserts the processing location of adding man-hour in the position sleeve 25, mould seat of honour 1 includes: the upper die panel 22 and the upper die core plate 23, the upper die panel 22 is arranged at the upper end of the upper die core plate 23 and is connected with the positioning sleeve 25 through conduction, the upper die panel 22 can slide up and down along the guide sleeve 24 and the positioning sleeve 25, and the elastic block 11 for cushioning the upper die panel 22 is arranged between the upper die core plates 23, so that a trough is formed between the upper die panel 22 and the upper die core plate 23;

the lower end surface of the upper die panel 22 is fixedly provided with a second material pressing block 9 and a first material pressing block 10, the second material pressing block 9 and the first material pressing block 10 vertically extend downwards to pass through the upper die core plate 23, when the upper die panel 22 and the upper die core plate 23 are separated to the maximum distance, the lower ends of the second material pressing block 9 and the first material pressing block 10 and the lower end surface of the upper die core plate 23 are in the same horizontal plane, the upper die core plate 23 is also provided with an avoiding groove 7 which obliquely extends upwards to penetrate through the upper die core plate 23, the avoiding groove 7 is communicated with the material channel 21, the lower end of the upper die core plate 23 is provided with a first material belt 18, the first material belt 18 passes through the lower end of the first material pressing block 10 and enters the material channel 21 through the avoiding groove 7, the first material belt extends outwards from the material channel 21, wherein the inlet position of the avoiding groove 7 is provided with a first roller 8 rotatably installed on the lower end surface, the surface of the second roller 5 is made of release film material, and the first roller 8 and the second roller 5 are used for guiding the first material belt 18 into the avoidance groove 7 and guiding the first material belt out of the avoidance groove 7;

the lower end surface of the upper die panel 22 is also fixedly provided with a punch 6 vertically arranged downwards, and the punch 6 penetrates through the upper die core plate 23;

two avoidance holes 28 for the second pressing block 9 and the first pressing block 10 to pass through are formed in the die middle plate 2, and a full-broken hole auxiliary hole 17 for the punch 6 to pass through is formed in the die middle plate 2;

a second material belt 19 is arranged between the die upper seat 1 and the die middle plate 2;

a first material die-cutting knife 13 for cutting a first material belt 18 and a second material die-cutting knife 15 for cutting a second material belt 19 are arranged between the die upper seat 1 and the die middle plate 2, the first material die-cutting knife 13 and the first material pressing block 10 are positioned on the same axis, and the second material die-cutting knife 15 and the second material pressing block 9 are positioned on the same axis;

a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3;

a third material die-cutting knife 14 for cutting a third material belt 20 is arranged between the middle plate 2 and the lower die seat 3, and a knife groove of the third material die-cutting knife 14 covers the two avoidance holes 28 and the full broken hole auxiliary hole 17;

the lower die seat 3 is provided with a full-broken punched hole 16 which is coaxial with the full-broken auxiliary hole 17;

the positioning column 27 is nested with a spring 12, and the spring 12 is positioned between the middle plate 2 and the lower die seat 3.

And massive safety blocks 4 are arranged on the upper end face and the lower end face of the middle plate 2 of the die.

The second material die-cutting knife 15 and the first material die-cutting knife 13 are both arranged on the upper end surface of the middle plate 2 of the die, and the knife edges of the second material die-cutting knife 15 and the first material die-cutting knife 13 are upward; the third material die-cutting knife 14 is installed on the lower end face of the middle plate 2 of the die, and the knife edge of the third material die-cutting knife 14 faces downwards.

The first material die-cutting knife 13 and the second material die-cutting knife 15 are integrally formed with the middle plate 2 of the die.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (9)

1. A multi-material punching and fitting mold comprises: mould seat of honour, mould medium plate and mould lower, mould lower both sides are provided with the vertical guide pillar that upwards extends, and mould seat of honour both sides are provided with the guide pin bushing, and the guide pillar inserts the guide pin bushing inside and carries out the direction of compound die branch mould, mould lower both sides still are provided with vertical ascending reference column, and mould seat of honour both sides are provided with the position sleeve, and the reference column passes the mould medium plate and inserts the processing location of adding man-hour in the position sleeve, its characterized in that, the mould seat of honour includes: the upper die panel is arranged at the upper end of the upper die core plate and is connected with the positioning sleeve through conduction, the upper die panel can slide up and down along the guide sleeve and the positioning sleeve, and an elastic block for cushioning the upper die panel is arranged between the upper die core plate and the upper die panel, so that a trough is formed between the upper die panel and the upper die core plate;

the lower end face of the upper die panel is fixedly provided with a second material pressing block and a first material pressing block, the second material pressing block and the first material pressing block vertically extend downwards to pass through the upper die core plate, when the upper die panel is separated from the upper die core plate to the maximum distance, the lower end of the second material pressing block and the lower end of the first material pressing block are in the same horizontal plane with the lower end of the upper die core plate, the upper die core plate is also provided with an avoidance groove which obliquely extends upwards to pass through the upper die core plate, the avoidance groove is communicated with a material channel, the lower end of the upper die core plate is provided with a first material belt, the lower end face of the first material belt is an adhesive layer, the first material belt passes through the avoidance groove via the lower end of the first material pressing block to enter the material channel and extend outwards from the material channel to the die, the inlet position of the avoidance groove is provided with a first roller which is rotatably installed on the lower end face of, the first roller and the second roller are used for guiding the first material belt into the avoidance groove and guiding the first material belt out of the avoidance groove;

the lower end face of the upper die panel is also fixedly provided with a punch vertically arranged downwards, and the punch penetrates through the upper die core plate;

two avoidance holes for the second pressing block and the first pressing block to pass through are formed in the die middle plate, and full-broken-hole auxiliary holes for the punch to pass through are formed in the die middle plate;

a second material belt is arranged between the upper die seat and the middle die plate;

a first material die-cutting knife for cutting a first material belt and a second material die-cutting knife for cutting a second material belt are arranged between the upper die seat and the middle die plate, and the first material die-cutting knife and the first material pressing block are positioned on the same axis while the second material die-cutting knife and the second material pressing block are positioned on the same axis;

a third material belt is arranged between the middle plate of the die and the lower seat of the die;

a third material die-cutting knife for cutting a third material belt is arranged between the middle plate of the die and the lower seat of the die, and a knife groove of the third material die-cutting knife covers the two avoidance holes and the full broken hole auxiliary holes;

the lower die seat is provided with a full-fracture punched hole which is coaxial with the full-fracture auxiliary hole;

the positioning column is nested with a spring, and the spring is positioned between the middle plate of the die and the lower seat of the die.

2. The multi-material punching and laminating die of claim 1, wherein the second material cutting die and the first material cutting die are both arranged on the upper end surface of the middle plate of the die, and the edges of the second material cutting die and the first material cutting die are upward; the third material die-cutting knife is arranged on the lower end face of the middle plate of the die, and the knife edge of the third material die-cutting knife faces downwards.

3. The multi-material punching and attaching mold according to claim 1, wherein the second material cutting knife is mounted on the lower end surface of the upper mold core plate, and the knife edge of the second material cutting knife faces downwards; the first material die-cutting knife is installed on the upper end face of the middle plate of the die, the knife edge of the first material die-cutting knife faces upwards, the third material die-cutting knife is installed on the upper end face of the lower die seat, and the knife edge of the third material die-cutting knife faces upwards.

4. The multi-material punching and laminating die of claim 1, wherein the second material cutting die and the first material cutting die are both arranged on the lower end surface of the upper die core plate, and the edges of the second material cutting die and the first material cutting die are upward; the third material die-cutting knife is arranged on the lower end face of the middle plate of the die, and the knife edge of the third material die-cutting knife faces downwards.

5. A multi-material stamping and laminating die as claimed in claim 1, wherein block-shaped safety blocks are provided on both upper and lower end faces of the middle plate in the die.

6. The multi-material punching and laminating die of claim 1, wherein the lower end surfaces of the first pressing block and the second pressing block are in the shape of an inclined plane inclined towards a single side, or the lower end surfaces are in the shape of a cone protruding towards the middle, or the lower end surfaces are in the shape of a circular protrusion.

7. The multi-material punching and laminating die of claim 2, wherein the first die-cutting blade and the second die-cutting blade are provided with threaded through holes at four corners, the middle plate of the die is provided with threaded cutter grooves for placing the first die-cutting blade and the second die-cutting blade, the threaded cutter grooves are provided with threaded holes at four corners, the threaded through holes of the first die-cutting blade and the second die-cutting blade correspond to the threaded holes of the threaded cutter grooves, and the first die-cutting blade and the second die-cutting blade are fixed in the threaded cutter grooves by screws.

8. A multi-material stamping and forming die as claimed in claim 2, wherein the die middle plate is provided with two clamping grooves for placing the first and second material cutting dies, the first and second material cutting dies are placed in the clamping grooves, and the first and second material cutting dies are tightly fitted with the clamping grooves.

9. A multi-material stamping and conforming mold according to claim 2 wherein the first and second die cutters are integrally formed with the mold mid-plate.

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