CN106424373A - Stamping die for automatic feeding in die - Google Patents

Abstract

The invention relates to a stamping die for automatic feeding in the die. By arranging a feeding mechanism capable of reciprocating leftwards and rightwards and a positioning mechanism for positioning a material strip in a lower die assembly, the feeding mechanism is made to move leftwards and be inserted and connected with a next positioning hole in the left direction of the material strip due to the downward stamping effect of a slider inserting punch, and the feeding mechanism can drive the material strip to move rightwards due to the upward drawing-out acting force of the slider inserting punch; the feeding mechanism stops feeding when the positioning mechanism and positioning holes in the material strip are inserted and connected; and the repeated punching action of the slider inserting punch in the up-down direction can complete the automatic feeding action on the material strip. The stamping die for automatic feeding in the die is ingenious in design, stable in structure and capable of automatically completing the feeding action, it is not needed to transfer the feeding mechanism, the die erecting time is shortened, and the cost of an enterprise is saved to a great extent.

Description

The diel of self-feeding in a kind of mould

Technical field

The present invention relates to metal stamping die technical field, the diel of self-feeding in more particularly, to a kind of mould.

Background technology

Conventional diel is generally by upper and lower template, the material strip between bolster and punch table at present The feeder composition of configuration itself, feeder drives material strip to move to realize feeding, this feeder complex operation, and manufacture, The cost install, debugged and keep in repair is all very high.

Content of the invention

It is an object of the invention to provide in a kind of mould self-feeding diel.

The present invention solves the technical scheme that adopted of above-mentioned technical problem：The diel of self-feeding in a kind of mould, It includes lower mold assemblies and upper die component, is provided with a pressing plate and a material strip between described lower mold assemblies and upper die component, described Material strip is arranged between described lower mold assemblies and pressing plate, described material strip is formed with multiple location holes, described upper die component sets It is equipped with a slide block and inserts punching, described slide block is inserted punching and is arranged in vertical, can move back and forth along the vertical direction；In described lower mold assemblies It is formed with an inner chamber, described interior intracavity is provided with：Elastic telescopic can be done in the horizontal direction move simultaneously inside described lower mold assemblies Promote the feed mechanism of described material strip fixed-distance moving in the horizontal direction；For the detent mechanism that described material strip is fixed；With And it is arranged on the block between described feed mechanism and detent mechanism.

In a preferred embodiment, described detent mechanism and described block are fixed in described lower mold assemblies, described slide block Slotting punching downwardly described material strip punching press being inserted between described feed mechanism and block, can order about described during punching press Feed mechanism is separated with described material strip and dorsad described block motion；Described slide block is inserted to rush at and is moved and leave described feeder Between structure and detent mechanism, detached during described feed mechanism drive described material strip to move towards described block direction.

In a preferred embodiment, described feed mechanism includes：Slide block, Flat wire spring, the first locating piece and the first round wires Spring；Described Flat wire spring is arranged in a crossed manner with described first wire spring；Be formed with described slide block one be used for fixing described flat Wire spring and the mounting groove of the first wire spring, described first wire spring is arranged in described mounting groove along the longitudinal direction, its Top is connected with the tail end of described first locating piece, and its bottom is connected with the bottom land of described mounting groove, described first locating piece First chamfering is formed with the end on top, described first chamfering is formed in the direction of advance of described material strip, described first falls The positioning in the hole that angle can be inserted into described material strip is used for it is positioned, and under normality, the top of described first locating piece exceeds described peace The top of tankage extremely described lower mold assemblies；Described Flat wire spring horizontally set, its one end is arranged on described installation in transverse direction Groove is interior, the other end is connected with the side wall of described inner chamber；Promote described slide block to order about the side wall towards inner chamber for the described Flat wire spring Direction produces compressive deformation, described first wire spring can be driven simultaneously to move in the same direction, conversely, described first wire spring returns In situ.

In a preferred embodiment, described detent mechanism includes：Fixed block, the second locating piece and the second wire spring；Institute State the top that fixed block is vertically set on described lower mold assemblies, it is internally formed cavity, described second locating piece and the second round wires Spring connect setting described fixed block cavity in, described second wire spring vertical direction setting, its top with described The top of the cavity of fixed block is connected, its tail end is connected with the tail end of described second locating piece, the top of described second locating piece End on be formed with the second chamfering, described second chamfering is formed in the direction of advance of described material strip, and described second chamfering can The positioning in the hole inserting described material strip is used for it is positioned, and under normality, the top of described second locating piece passes through described lower module The upper surface of part.

In a preferred embodiment, described upper die component from top to bottom sequentially includes upper bolster, upper padding plate, train wheel bridge, the back of the body Plate and stripper, described slide block is inserted punching and is run through the described upper padding plate of connection, train wheel bridge, backboard and stripper, and described slide block inserts punching Top is connected with described upper padding plate, and bottom is stretched out from the lower section of described stripper；Described lower mold assemblies sequentially include from the bottom to top Die shoe, lower bolster and lower template, described inner chamber is formed in described lower template, described feed mechanism, block and detent mechanism Can enter at the opening above described inner chamber respectively and be assemblied in interior intracavity.

In mould of the present invention, the diel of self-feeding has the beneficial effects that：Can left and right by setting in lower mold assemblies Reciprocating feed mechanism and the detent mechanism that material strip is positioned, are inserted the punching press effect under rushing at, promote using slide block So that feed mechanism is moved to the left and plug with next location hole of material strip left direction, recycle slide block to insert what punching was drawn upwardly out Active force, feed mechanism can drive material strip to move right, to detent mechanism and material strip upper Positioning holes plug when, feed mechanism stops Only feeding, slide block insert punching along the vertical direction repeatedly punching press action can complete the self-feeding action to material strip.In the mould of the present invention The diel of self-feeding, designs ingenious, Stability Analysis of Structures, can be automatically performed feeding action, need not transfer feed mechanism, saves Frame mould time, significantly save the cost of enterprise.

Brief description

Fig. 1 is the perspective view under the die opening state of diel of self-feeding in an embodiment middle mold.

Fig. 2 is the enlarged diagram of part A in Fig. 1.

Fig. 3 is the enlarged diagram of E part in Fig. 1.

Fig. 4 is the perspective view under the matched moulds state of the diel of self-feeding in an embodiment middle mold.

Fig. 5 is the enlarged diagram of part B in Fig. 4.

Fig. 6 is the enlarged diagram of C portion in Fig. 4.

Fig. 7 is that the material strip of the diel of self-feeding in an embodiment middle mold moves schematic diagram.

Specific embodiment

Diel work below in conjunction with self-feeding in the specific embodiment and accompanying drawing mould to the present invention is detailed further Thin description.

Refer to Fig. 1, the diel of self-feeding in a kind of mould, it includes lower mold assemblies 10 and upper die component 20, under It is provided with a pressing plate 40 and a material strip 80, material strip 80 is arranged on lower mold assemblies 20 and pressing plate between membrane module 10 and upper die component 20 Between 40, material strip 80 is formed with multiple location holes 81.

For ease of illustrating the theory of mechanics of this programme, in this case, so that, shown in accompanying drawing, direction all has been illustrated as up and down In standard, and this case, the moving direction of material strip 80 is from left to right.

One slide block is provided with upper die component 20 and inserts punching 30, slide block insert punching 30 be arranged in vertical, can be along the vertical direction Move back and forth；It is formed with an inner chamber 131 in lower mold assemblies 10, in inner chamber 131, be provided with feed mechanism 50, detent mechanism 60 and gear Block 70, feed mechanism 50 can do elastic telescopic in the horizontal direction inside lower mold assemblies 10 and move and promote material strip 80 along level side To fixed-distance moving, detent mechanism 60 is used for being fixed to prevent material strip 80 during punching press from shifting to material strip 80, block 70 are arranged between feed mechanism 50 and detent mechanism 60.

Detent mechanism 60 and block 70 are fixed in lower mold assemblies 20, and slide block inserts punching 30 downwardly material strip 80 punching press inserting Enter to feed mechanism 50 between feed mechanism 50 and block 70, can be ordered about during punching press and separate with material strip 80 and dorsad block 70 motions；Slide block is inserted punching and 30 is moved upwards and leave between feed mechanism 50 and detent mechanism 60, detached during feeder Structure 50 drives material strip 80 to move towards block 70 direction.

Refer to Fig. 2, feed mechanism 50 includes：Slide block 51, Flat wire spring 54, the first locating piece 52 and the first wire spring 53；Flat wire spring 54 is arranged in a crossed manner with the first wire spring 53；It is formed with one in slide block 51 to be used for fixing Flat wire spring 54 and The mounting groove 55 of one wire spring 53, the first wire spring 53 is arranged in mounting groove 55 along the longitudinal direction, its top and first The tail end of locating piece 52 is connected, and its bottom is connected with the bottom land of mounting groove 55, and the end on top of the first locating piece 52 is formed There is the first chamfering 521, the first chamfering 521 is formed in the direction of advance of material strip 80, and the first chamfering 521 can be inserted into determining of material strip 80 For positioning to it in position hole 81, under normality, the top of the first locating piece 52 exceeds mounting groove 55 to the top of lower mold assemblies 20； Flat wire spring 54 horizontally set, its one end is arranged in mounting groove 55 in transverse direction, the side wall phase of the other end and inner chamber 131 Even；Promote slide block 51 with order about Flat wire spring 54 towards inner chamber 131 sidewall direction produce compressive deformation, first can be driven simultaneously Wire spring 53 moves in the same direction, conversely, the first wire spring 53 returns in situ.

Refer to Fig. 3, detent mechanism 60 includes：Fixed block 61, the second locating piece 62 and the second wire spring 63；Fixed block 61 tops being vertically set on lower mold assemblies 20, it is internally formed cavity, and the second locating piece 62 and the second wire spring 63 connect Be arranged on fixed block 61 cavity in, the second wire spring 63 vertical direction is arranged, the cavity of its top and fixed block 61 Top is connected, its tail end is connected with the tail end of the second locating piece 62, and the end on top of the second locating piece 62 is formed with second Chamfering 621, the second chamfering 621 is formed in the direction of advance of material strip 80, and the second chamfering 621 can be inserted into the location hole 81 of material strip 80 Interior for positioning to it, under normality, the top of the second locating piece 62 passes through the upper surface of lower mold assemblies 20.

Upper die component 20 from top to bottom sequentially includes upper bolster 25, upper padding plate 24, train wheel bridge 23, backboard 22 and stripper 21, slide block is inserted punching 30 and is run through connection upper padding plate 24, train wheel bridge 23, backboard 22 and stripper 21, slide block insert the top of punching 30 with upper Backing plate 24 connects, and bottom is stretched out from the lower section of stripper 21；Lower mold assemblies 10 sequentially include die shoe 11, lower bolster from the bottom to top 12 and lower template 13, inner chamber 131 is formed in lower template 13, and feed mechanism 50, block 70 and detent mechanism 60 can be respectively from interior Enter at the opening of chamber 131 top and be assemblied in inner chamber 131.

Please referring also to Fig. 4 to Fig. 7, during the diel closure punching press of this programme, first, detent mechanism 60 is by material strip 80 It is fixed and prevents from moving around, then, slide block inserts punching 30 beginning, and downwardly material strip 80 punching press is inserted into feed mechanism 50 And block 70 between, during insertion, feed mechanism 50 is moved to the left, and slide block 51 is moved to the left and so that Flat wire spring 54 is produced Compression, now, the first locating piece 52 pushes the first wire spring 53 and leaves the positioning in material strip 80 to its first chamfering 521 Hole 81, then the first locating piece 52 be moved to the left along the lower face of material strip 80, when mobile to next location hole 81 when, in the first circle Under the elastic reaction of wire spring 53, the first chamfering 521 is inserted in this location hole 81, and now, the end that slide block inserts punching 30 is completely slotting Enter between feed mechanism 50 and block 70, in this punching course, the position of material strip 80 is not moved, and feed mechanism 50 It is moved to the left in the next location hole 81 of material strip 80 and fixing.

When the diel of this programme separates, slide block insert punching 30 be moved upward to leave feed mechanism 50 and block 70 it Between, during leaving, feed mechanism 50 produces active force to the right under the elastic reaction of Flat wire spring 54, now, positioning The second locating piece 62 in mechanism 60 produces retraction upwards under the elastic reaction of the second wire spring 63, and then makes second to fall The location hole in material strip 80 is left at angle 621, so that detent mechanism 60 departs from the positioning action to material strip 80, then, material strip 80 Produce in the presence of feed mechanism 50 to the right active force and move, when in the second chamfering 621 on detent mechanism 60 with material strip 80 When next location hole on left direction plugs, feed mechanism 50 then stops the feeding action to material strip, thus completing automatically Feeding.

Above-mentioned mould closure and separation process, are repeated, can complete the fixed-distance moving feeding to material strip.

To sum up, in the mould of the present invention self-feeding diel, by setting in lower mold assemblies can left and right be reciprocal transports Dynamic feed mechanism and the detent mechanism that material strip is positioned, are inserted the punching press effect under rushing at, promote feeding using slide block Mechanism is moved to the left and is plugged with next location hole of material strip left direction, recycles slide block to insert the effect that punching is drawn upwardly out Power, feed mechanism can drive material strip to move right, to detent mechanism and material strip upper Positioning holes plug when, feed mechanism stops sending Material, slide block insert punching along the vertical direction repeatedly punching press action can complete the self-feeding action to material strip.In the mould of the present invention automatically The diel of feeding, designs ingenious, Stability Analysis of Structures, can be automatically performed feeding action, need not transfer feed mechanism, save frame The mould time, significantly save the cost of enterprise.

Although the description of this invention is carried out with reference to embodiments above, those skilled in the art Member can carry out many replacement, modifications and variations, be obvious according to above-mentioned content.Therefore, all such replacements, Improve and change is included in the spirit and scope of appended claims.

Claims (5)

1. in a kind of mould self-feeding diel, it includes lower mold assemblies（10）And upper die component（20）, described lower module Part（10）And upper die component（20）Between be provided with a pressing plate（40）With a material strip（80）, described material strip（80）Be arranged on described under Membrane module（20）And pressing plate（40）Between, described material strip（80）On be formed with multiple location holes（81）It is characterised in that on described Membrane module（20）On be provided with one slide block insert punching（30）, the slotting punching of described slide block（30）Be arranged in vertical, can be along the vertical direction Move back and forth；Described lower mold assemblies（10）Inside it is formed with an inner chamber（131）, described inner chamber（131）Inside it is provided with：

Can be in the horizontal direction in described lower mold assemblies（10）Inside is done elastic telescopic and is moved and promote described material strip（80）Along level The feed mechanism of direction fixed-distance moving（50）；

For to described material strip（80）The detent mechanism being fixed（60）；And

It is arranged on described feed mechanism（50）And detent mechanism（60）Between block（70）.

2. in mould according to claim 1 the diel of self-feeding it is characterised in that described detent mechanism（60）With Described block（70）It is fixed on described lower mold assemblies（20）Interior, described slide block inserts punching（30）Downwardly described material strip（80）Punching press And it is inserted into described feed mechanism（50）And block（70）Between, described feed mechanism can be ordered about during punching press（50）With institute State material strip（80）Separation dorsad described block（70）Motion；Described slide block inserts punching（30）Move and leave described feeder upwards Structure（50）And detent mechanism（60）Between, detached during described feed mechanism（50）Drive described material strip（80）Towards described Block（70）Move in direction.

3. in mould according to claim 2 the diel of self-feeding it is characterised in that described feed mechanism（50）Bag Include：Slide block（51）, Flat wire spring（54）, the first locating piece（52）With the first wire spring（53）；Described Flat wire spring（54）With Described first wire spring（53）Arranged in a crossed manner；Described slide block（51）Inside it is formed with one to be used for fixing described Flat wire spring（54）With First wire spring（53）Mounting groove（55）, described first wire spring（53）It is arranged on described mounting groove along the longitudinal direction （55）Interior, its top and described first locating piece（52）Tail end be connected, its bottom and described mounting groove（55）Bottom land be connected, Described first locating piece（52）The end on top on be formed with the first chamfering（521）, described first chamfering（521）It is formed at institute State material strip（80）Direction of advance on, described first chamfering（521）Can be inserted into described material strip（80）Location hole（81）Inside it is used for It is positioned, under normality, described first locating piece（52）Top exceed described mounting groove（55）To described lower mold assemblies（20） Top；Described Flat wire spring（54）Horizontally set, its one end is arranged on described mounting groove in transverse direction（55）The interior, other end With described inner chamber（131）Side wall be connected；Promote described slide block（51）To order about described Flat wire spring（54）Towards inner chamber（131） Sidewall direction produce compressive deformation, described first wire spring can be driven simultaneously（53）Move in the same direction, conversely, described first circle Wire spring（53）Return in situ.

4. in mould according to claim 3 the diel of self-feeding it is characterised in that described detent mechanism（60）Bag Include：Fixed block（61）, the second locating piece（62）With the second wire spring（63）；Described fixed block（61）Be vertically set on described under Membrane module（20）Top, it is internally formed cavity, described second locating piece（62）With the second wire spring（63）Connect setting In described fixed block（61）Cavity in, described second wire spring（63）Vertical direction setting, its top and described fixation Block（61）Cavity top be connected, its tail end and described second locating piece（62）Tail end be connected, described second locating piece （62）The end on top on be formed with the second chamfering（621）, described second chamfering（621）It is formed at described material strip（80）Before Enter on direction, described second chamfering（621）Can be inserted into described material strip（80）Location hole（81）Interior for positioning to it, normality Under, described second locating piece（62）Top pass through described lower mold assemblies（20）Upper surface.

5. in mould according to claim 4 the diel of self-feeding it is characterised in that described upper die component（20）By Upper bolster is sequentially included under up to（25）, upper padding plate（24）, train wheel bridge（23）, backboard（22）And stripper（21）, described slide block Insert punching（30）Run through the described upper padding plate of connection（24）, train wheel bridge（23）, backboard（22）And stripper（21）, the slotting punching of described slide block （30）Top and described upper padding plate（24）Connect, bottom is from described stripper（21）Lower section stretch out；Described lower mold assemblies （10）Sequentially include die shoe from the bottom to top（11）, lower bolster（12）And lower template（13）, described inner chamber（131）It is formed at described Lower template（13）Interior, described feed mechanism（50）, block（70）And detent mechanism（60）Can be respectively from described inner chamber（131）Top Opening at enter and be assemblied in inner chamber（131）Interior.