CN108480476A - A kind of connector continuous mould of recliner - Google Patents
A kind of connector continuous mould of recliner Download PDFInfo
- Publication number
- CN108480476A CN108480476A CN201810703653.4A CN201810703653A CN108480476A CN 108480476 A CN108480476 A CN 108480476A CN 201810703653 A CN201810703653 A CN 201810703653A CN 108480476 A CN108480476 A CN 108480476A
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- China
- Prior art keywords
- embedded
- blank
- cover half
- die holder
- dynamic model
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D37/00—Tools as parts of machines covered by this subclass
- B21D37/08—Dies with different parts for several steps in a process
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21C—MANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
- B21C51/00—Measuring, gauging, indicating, counting, or marking devices specially adapted for use in the production or manipulation of material in accordance with subclasses B21B - B21F
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D28/00—Shaping by press-cutting; Perforating
- B21D28/02—Punching blanks or articles with or without obtaining scrap; Notching
- B21D28/14—Dies
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D28/00—Shaping by press-cutting; Perforating
- B21D28/24—Perforating, i.e. punching holes
- B21D28/34—Perforating tools; Die holders
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D45/00—Ejecting or stripping-off devices arranged in machines or tools dealt with in this subclass
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Perforating, Stamping-Out Or Severing By Means Other Than Cutting (AREA)
- Press Drives And Press Lines (AREA)
Abstract
The invention discloses a kind of connector continuous moulds of recliner, are related to seat production equipment field.The mold includes upper die holder, lower die holder, the upper surface of lower die holder is provided with cover half, the lower face of upper die holder is provided with dynamic model, the lower face of dynamic model sets gradually the first bite for being useful for cutting connector both sides, the pressing block for punching press lock hole and location hole, the press strip for pressing blank bending and for the boss of press flute, and the upper surface of cover half is disposed with the first cutter groove being embedded in for the first bite, the placing groove being embedded in for pressing block, the embedded components being embedded in for press strip, the forming tank being embedded in for boss.The present invention has the following advantages and effects:It blank is cut successively, is drilled by the way that the progressive die is arranged, the processes such as bending, so that blank can be reduced the labor intensity of worker, improved production efficiency with one-pass molding.
Description
Technical field
The present invention relates to seat production equipment field, more particularly to the connector continuous mould of a kind of recliner.
Background technology
Recliner is that one kind is installed on tables and chairs, realizes the device of tables and chairs angular adjustment, the device is generally by desktop or chair
The part such as the gusset piece of the back of the body, the gusset piece of table leg or seat, connector forms, and wherein connector is mainly used for connecting a pair of of connection
Plate.
As shown in figure 5, a kind of connector of existing seat angle adjustor includes the master for a pair of of the arc for being integrally formed setting
Plate 8, the side plate 9 that a pair of mainboard is connected in one are provided through two pairs of lock holes on one of them described mainboard 8
81, on side plate 9 indentation be provided with a pair of of groove 91, the bottom wall of the groove 91 is provided through location hole 92.
The connector of traditional tables and chairs recliner needs repeatedly to move blank and uses multiple devices and mould in processing
Tool cuts blank, drilled, the processes such as bending, increases the labor intensity of worker, has much room for improvement.
Invention content
The object of the present invention is to provide a kind of connector continuous moulds of recliner, and having reduces labor intensity
Effect.
The present invention above-mentioned technical purpose technical scheme is that:A kind of connector use of recliner
The upper surface of continuous mould, including upper die holder, lower die holder, the lower die holder is provided with cover half, and the lower face of the upper die holder is set
It is equipped with dynamic model, the lower face of the dynamic model sets gradually and is useful for the first bite of cutting connector both sides, locked for punching press
Determine hole and location hole pressing block, for press blank bending press strip and for the boss of press flute, the cover half
Upper surface be disposed with the first cutter groove for first bite insertion, placing groove be embedded in for the pressing block, confession
The embedded components of the press strip insertion, the forming tank being embedded in for the boss, the embedded components include a pair of embedded item, a pair of
The indent for press strip insertion is provided between the embedded item, the upper surface of the cover half is provided with two rows and is used for transmission hair
The transmission assembly of blank movement.
By using above-mentioned technical proposal, when the above-mentioned mold of application processes connector, first by upper die holder and lower die holder
Installation is to after press machine, then that realizes dynamic model and cover half divide mould, then utilizes transmission assembly by blank at the uniform velocity incoming dynamic
Between mould and cover half, finally realize that dynamic model and the continuous of cover half mold and divide mould.When machining blanks part, blank is transported first
It moves to first and cuts cutter position, dynamic model drives the first bite by connector both sides excision forming at this time;Then dynamic model and cover half
Divide mould, blank moves to pressing block position at this time, drives pressing block by lock hole and location hole punch forming using dynamic model;So
Dynamic model and cover half divide mould again afterwards, and blank moves to press strip position at this time, drive press strip to be embedded in two embedded items using dynamic model
Between indent in blank is subjected to bending;Then dynamic model and cover half divide mould, and dynamic model is recycled to drive boss insert molding slot
It is interior that the processing and manufacturing of connector is completed into groove compression moulding, and then blank is cut successively by the progressive die, is bored
The processes such as hole, bending, so that blank can be reduced the labor intensity of worker, improved production efficiency with one-pass molding.
The further setting of the present invention is:The transmission assembly includes two rows of slidings being arranged along the blank direction of motion
The upper surface of block, the cover half is provided with two rows of sliding grooves embedded for sliding shoe sliding, the sliding shoe and the cunning
Resetting spring is provided between dynamic slot slot bottom, two rows of sliding shoes are located at the side water close to each other outside the sliding groove
The flat sliding slot being provided with for blank insertion, the lower face of the dynamic model are provided with the installation for sliding shoe insertion
Slot.
The both ends of blank are respectively embedded into sliding slot when transmitting blank by using above-mentioned technical proposal, are utilized
Sliding slot and sliding shoe realize the limit of blank, so that blank can move when incoming all along rectilinear direction,
And then blank shaking is avoided to cause to cut or error occur when punching.When the die is closed, dynamic model moves downward, and sliding shoe is inserted at this time
Mounting hole is connect, after sliding shoe pushes against mounting hole roof, dynamic model presses sliding shoe and moves downward, and sliding shoe drives blank downward
Resetting spring compression is moved and presses, until when the lower face of blank contradicts dynamic model upper surface, dynamic model is completed to mold with cover half.
The further setting of the present invention is:A row is provided between two rows of sliding shoes for contradicting blank lower face
Adjusting block, the upper surface of the dynamic model is provided with for the embedded regulating tank of adjusting block sliding, the adjusting block with it is described
It is provided with adjustment spring between regulating tank slot bottom.
By using above-mentioned technical proposal, when blank is passed into, adjusting block contacts at the lower face of blank, works as conjunction
When mould, dynamic model moves downward, and dynamic model presses blank drive adjusting block and moves downward at this time, and adjusting block presses adjustment spring pressure
Contracting, until when the lower face of blank contradicts cover half upper surface, dynamic model is completed to mold with cover half;When dividing mould, dynamic model is detached from fixed
Mould, adjustment spring pushes adjusting block to move upwards and eject blank upwards at this time, so that blank can be with when being driven
More smooth, avoiding the occurrence of Caton phenomenon influences mold normal work.
The further setting of the present invention is:The cover half is provided with loading bay close to the side of first bite, institute
The upper surface for stating loading bay is provided with feed well, the upper surface flush of the bottom wall of the feed well and the cover half, it is described into
The horizontally disposed blend stop for being useful for contradicting blank upper surface of the two opposite side walls of hopper.
By using above-mentioned technical proposal, when charging, blank is embedded in feed well and makes the both sides of blank
The two opposite side walls of feed well are contacted at, while blend stop being made to contact at the upper surface of blank, and then realize blank movement
Limit in the process so that blank can more be stablized when being driven, and blank shaking is avoided to cause to cut or occur when punching
Error.
The further setting of the present invention is:The lower face of the press strip is provided with mounting hole, and sliding is embedding in the mounting hole
Entering has probe, and returning spring is provided between the probe and the mounting hole roof, and the bottom wall of the indent is provided with for institute
State through-hole of the probe across grafting after location hole.
By using above-mentioned technical proposal, when press strip moves downward, pressing block drives probe to move downward together, if visiting
Needle is plugged in through-hole after being fed through the location hole of blank, and probe does not change at this time, illustrates blank in rotation process
It does not shake or deviates, dynamic model moves downward realization molding at this time.If probe presses in spring-compressed and embedded mounting hole, say
Bright probe contacts at blank without being fed through location hole, illustrates that blank does not shake or deviates in rotation process,
By probe feedack power supply is cut off at this time, after the position suitable of the blank of worker's adjustment at this time, continues to mold
, and then detecting instrument is served as using probe, avoids occurring sliding in blank transmission process or when shift phenomenon causes to connect
There is error during fabrication in fitting, improves the machining accuracy of mold.
The further setting of the present invention is:The lower face of the dynamic model, which is located at the position of the boss, is provided with a pair of of use
In the second bite of cutting connector both ends leftover pieces, the upper surface of the cover half is provided with to be embedded in for second bite
The second cutter groove.
By using above-mentioned technical proposal, while application boss press flute, dynamic model drives the insertion of the second bite
In second cutter groove, and then the leftover pieces at blank both ends are cut off using the second cutter, blank is processed into molding at this time
Connector completes the processing and manufacturing of connector, has advanced optimized entire mold, while further reduced the labour of worker
Intensity improves production efficiency.
The further setting of the present invention is:The cover half side wall is provided with the cleaning slot for being communicated in second cutter groove, institute
It states in cleaning slot and slidably connects pallet, one end side wall that the pallet is located at outside the cover half is provided with knob.
By using above-mentioned technical proposal, when blank is cut, the leftover pieces under cutting are fallen along the second cutter groove
In pallet in cleaning slot, when the leftover pieces in pallet pile with, pull knob that pallet is driven to move out, until by pallet
After being taken out out of cleaning slot, leftover pieces are outwelled, then reinsert pallet in cleaning slot, so that leftover pieces
Reset procedure is more convenient.
The further setting of the present invention is:The cover half is set between the side and the lower die holder of second cutter groove
It sets and is tiltedly installed with stock guide, the stock guide is less than the other end, the both sides of the stock guide close to one end of the lower die holder
It is both provided with baffle.
By using above-mentioned technical proposal, allow molding workpiece along guide by the way that stock guide and baffle is arranged
Plate is slowly and the landing that orients is to collecting region so that the molded part after collection neat can be stacked, but also the later stage
Can be more convenient when workers carry, reduce labor intensity when workers carry.
The further setting of the present invention is:The surrounding of the upper surface of the lower die holder is both provided with guide rod, the upper mold
The lower face of seat is provided with the guide pipe for the guide rod grafting, and the outer wall of the guide rod is arranged with for contradicting described lead
To the thrust spring of pipe lower face.
By using above-mentioned technical proposal, when dynamic model and cover half divide mould or molding, guide rod grafting guide pipe and edge
The sliding of guiding inside pipe wall, and then using the direction of motion of guide rod and guide pipe limitation dynamic model and cover half, avoids the two
Between shake cause cut or punch when there is error;And when guide rod grafting guide pipe, guide pipe presses thrust bullet
Spring compresses, and when being gradually disengaged between the two, thrust spring flicks and pushes guide pipe that upper die holder and dynamic model is driven to transport upwards
It is dynamic, so that it is more smooth when dividing mould, further avoid Caton phenomenon occur.
In conclusion the invention has the advantages that:
1. being cut, being drilled to blank successively by the way that the progressive die is arranged, the processes such as bending, so that blank can be with one
Secondary molding reduces the labor intensity of worker, improves production efficiency;
2. by the way that the limit in loading bay and sliding shoe and sliding slot realization blank motion process is arranged so that blank is incoming
Process can be moved all along orientation direction, avoided blank shaking from causing to cut or error occur when punching, improved mould
The machining accuracy of tool;
3. pushing blank to move upwards by the way that adjustment spring and adjusting block is arranged so that blank can be more suitable when being driven
Freely, avoiding the course of work from Caton phenomenon occur influences mold normal work;
4. serving as detecting instrument and detecting sliding or offset whether occur in blank transmission process by the way that probe is arranged, connection is eliminated
The error being susceptible in part manufacturing process further improves the machining accuracy of mold;
5. clearing up slot by setting and pallet being collected leftover pieces so that the reset procedure of leftover pieces is more convenient fast
It is prompt.
Description of the drawings
Fig. 1 is the structural schematic diagram of embodiment;
Fig. 2 is the structural schematic diagram of the cover half of embodiment;
Fig. 3 is the structural schematic diagram of the dynamic model of embodiment;
Fig. 4 is the partial enlarged view at the A in Fig. 3;
Fig. 5 is the structural schematic diagram of connector.
Reference numeral:1, upper die holder;11, guide pipe;2, lower die holder;21, guide rod;22, thrust spring;3, cover half;31、
Stock guide;311, baffle;32, sliding groove;33, the first cutter groove;34, placing groove;35, embedded components;351, embedded item;352, it presses
Slot;353, through-hole;36, forming tank;37, the second cutter groove;38, adjusting block;39, regulating tank;391, adjustment spring;4, dynamic model;41、
Mounting groove;42, the first bite;43, pressing block;44, press strip;441, mounting hole;442, probe;443, returning spring;45, convex
Platform;46, the second bite;5, loading bay;51, feed well;52, blend stop;6, transmission assembly;61, sliding shoe;62, resetting spring;
63, sliding slot;7, slot is cleared up;71, pallet;72, it shakes hands;8, mainboard;81, lock hole;9, side plate;91, groove;92, location hole.
Specific implementation mode
Below in conjunction with attached drawing, invention is further described in detail.
A kind of connector continuous mould of recliner, as shown in Figure 1, including upper die holder 1, lower die holder 2, lower die holder 2
Upper surface is provided with cover half 3, and the lower face of upper die holder 1 is provided with dynamic model 4, and the surrounding of the upper surface of lower die holder 2, which is both provided with, to be led
To bar 21, the lower face of upper die holder 1 is provided with the guide pipe 11 for 21 grafting of guide rod, and the outer wall of guide rod 21, which is arranged with, to be used for
Contradict the thrust spring 22 of 11 lower face of guide pipe.
As shown in Figure 1 and Figure 2, the side of cover half 3 is provided with loading bay 5, and the upper surface of loading bay 5 is provided with feed well 51,
The bottom wall of feed well 51 and the upper surface flush of cover half 3, the two opposite side walls of feed well 51 are horizontally disposed to be useful for contradicting
The blend stop 52 of blank upper surface.Setting is tiltedly installed with stock guide 31, stock guide between the other side and lower die holder 2 of cover half 3
31 both sides are both provided with baffle 311, and stock guide 31 is less than the other end close to one end of lower die holder 2.
When the above-mentioned mold of application processes connector, first by after upper die holder 1 and the installation to press machine of lower die holder 2, drive
Press machine drives upper die holder 1 and dynamic model 4 to move upwards, and then that realizes dynamic model 4 and cover half 3 divides mould, then by blank
In the feed well 51 of embedded loading bay 5 and so that the both sides of blank contact at the side wall of feed well 51 and blend stop 52 contacts at
Behind blank upper surface, using transmission device by blank by between the incoming dynamic model 4 at the uniform velocity of loading bay 5 and cover half 3, this reality
The transmission device for applying example includes a pair of of transmission belt(It is not shown in figure), and blank is located between a pair of of transmission belt.
It in blank at the uniform velocity transmission process, drives upper die holder 1 and dynamic model 4 to move downward using press machine, realizes dynamic
The molding of mould 4 and cover half 3, while 21 grafting guide pipe 11 of guide rod and guide pipe 11 press the compression of thrust spring 22, into
And after blank is pressed into connector, connector slides along stock guide 31 to collecting region, you can completes the processing of connector.
As shown in Figure 2 and Figure 3, the upper surface of cover half 3 is provided with two rows of transmission assemblies 6 for being used for transmission blank movement, passes
Defeated component 6 includes two rows of sliding shoes 61 along the setting of the blank direction of motion, and the upper surface of cover half 3 is provided with two rows for sliding shoe
61 slide embedded sliding groove 32, and resetting spring 62, two rows of sliding shoes 61 are provided between 32 slot bottom of sliding shoe 61 and sliding groove
Side close to each other outside sliding groove 32, which is horizontally disposed with, the sliding slot 63 being embedded in for blank, the lower face of dynamic model 4
It is provided with the mounting groove 41 being embedded in for sliding shoe 61.
As shown in Figure 2 and Figure 3, the lower face of dynamic model 4 sets gradually the first bite for being useful for cutting connector both sides
42, it is used for punching press lock hole 81(Referring to Fig. 5)With location hole 92(Referring to Fig. 5)Pressing block 43, for press blank bending
Press strip 44 and be used for press flute 91(Referring to Fig. 5)Boss 45, the upper surface of cover half 3 is disposed with for the first cutting
Knife 42 be embedded in the first cutter groove 33, for pressing block 43 be embedded in placing groove 34, for press strip 44 be embedded in embedded components 35, for boss
The forming tank 36 of 45 insertions, embedded components 35 include a pair of embedded item 351, are provided with for press strip 44 between a pair of embedded item 351
Embedded indent 352.
As shown in Figure 2 and Figure 3, the lower face of dynamic model 4, which is located at the position of boss 45, is provided with a pair for cutting connector
Second bite 46 of both ends leftover pieces, the upper surface of cover half 3 are provided with the second cutter groove 37 being embedded in for the second bite 46.
When transmitting blank, the both ends of blank are respectively embedded into sliding slot 63, utilize sliding slot 63 and sliding shoe 61
It realizes the limit of blank, so that blank can move when incoming all along rectilinear direction, and then avoids blank
Shaking causes to cut or error occurs when punching.When the die is closed, dynamic model 4 moves downward, at this time 61 grafting mounting hole of sliding shoe
441, after sliding shoe 61 pushes against 441 roof of mounting hole, dynamic model 4 presses sliding shoe 61 and moves downward, and sliding shoe 61 drives blank
Part moves downward and presses the compression of resetting spring 62, until when the lower face of blank contradicts 4 upper surface of dynamic model, dynamic model 4 with it is fixed
Mould 3 completes molding.
When machining blanks part, blank moves to 42 position of the first bite first, and dynamic model 4 drives the first cutting at this time
Knife 42 is by connector both sides excision forming;Then dynamic model 4 and cover half 3 divide mould, and blank moves to 43 position of pressing block at this time, profit
Drive pressing block 43 by 92 punch forming of lock hole 81 and location hole with dynamic model 4;Then dynamic model 4 and cover half 3 divide mould again, at this time
Blank moves to 44 position of press strip, will in the indent 352 between driving press strip 44 to be embedded in two embedded items 351 using dynamic model 4
Blank carries out bending;Then dynamic model 4 and cover half 3 divide mould, and dynamic model 4 is recycled to drive groove in 45 insert molding slot 36 of boss
91 compression mouldings, while cutting off the leftover pieces at blank both ends in the second bite 46 the second cutter groove 37 of insertion, at this time blank
Part is processed into molding connector, that is, completes the processing and manufacturing of connector.
As shown in Figure 2, Figure 4 shows, the lower face of press strip 44 is provided with mounting hole 441, is slid in mounting hole 441 and is embedded with probe
442, returning spring 443 is provided between 441 roof of probe 442 and mounting hole, and the bottom wall of indent 352 is provided with for probe 442
Across location hole 92(Referring to Fig. 5)The through-hole 353 of grafting afterwards.
When press strip 44 moves downward, pressing block 43 drives probe 442 to move downward together, if probe 442 is fed through hair
It is plugged in through-hole 353 after the location hole 92 of blank, probe 442 does not change at this time, illustrates that blank does not have in rotation process
It shakes or deviates, dynamic model 4 moves downward realization molding at this time.
If probe 442 presses in spring-compressed and embedded mounting hole 441, illustrate probe 442 contact at blank without
It is fed through location hole 92, illustrates the letter that blank does not shake or deviates in rotation process, is fed back at this time by probe 442
Breath makes power supply be cut off, and after the position suitable of the blank of worker's adjustment at this time, continues molding, and then utilize probe 442
Detecting instrument is served as, avoids occurring sliding in blank transmission process or when shift phenomenon causes connector to miss during fabrication
Difference improves the machining accuracy of mold.
As shown in Fig. 2, being provided with adjusting block 38 of the row for contradicting blank lower face between two rows of sliding shoes 61, move
The upper surface of mould 4 is provided with and slides embedded regulating tank 39 for adjusting block 38, is arranged between 39 slot bottom of adjusting block 38 and regulating tank
There is adjustment spring 391.
When blank is passed into, adjusting block 38 contacts at the lower face of blank, when the die is closed, dynamic model 4(Referring to Fig. 3)
It moving downward, dynamic model 4 presses blank drive adjusting block 38 and moves downward at this time, and adjusting block 38 presses the compression of adjustment spring 391,
Until when the lower face of blank contradicts 3 upper surface of cover half, dynamic model 4 is completed to mold with cover half 3;When dividing mould, dynamic model 4 is detached from fixed
Mould 3, adjustment spring 391 pushes adjusting block 38 to move upwards and eject blank upwards at this time, so that blank is driven
When can be more smooth, avoid the occurrence of Caton phenomenon influence mold normal work.
As shown in Fig. 2, 3 side wall of cover half is provided with the cleaning slot 7 for being communicated in the second cutter groove 37, clears up in slot 7 and be slidably connected
There are pallet 71, one end side wall that pallet 71 is located at outside cover half 3 to be provided with knob 72.
When blank is cut, the leftover pieces under cutting fall to the pallet 71 in cleaning slot 7 along the second cutter groove 37
It is interior, when the leftover pieces in pallet 71 pile with, pull knob 72 drive pallets 71 move out, until by pallet 71 from cleaning slot
After being taken out in 7, leftover pieces are outwelled, then reinsert pallet 71 in cleaning slot 7.
Operation principle:When the above-mentioned mold of application processes connector, first upper die holder 1 and lower die holder 2 are installed to punching press
After machine, then that realizes dynamic model 4 and cover half 3 divide mould, last real then by between blank incoming dynamic model 4 at the uniform velocity and cover half 3
Existing dynamic model 4 and the continuous of cover half 3 mold and divide mould, and then utilize the first bite 42 by connector both sides excision forming;Profit
With pressing block 43 by 92 punch forming of lock hole 81 and location hole;It is embedded in the indent between two embedded items 351 using press strip 44
Blank is subjected to bending in 352;It is cut by 91 compression moulding of groove, while using second using in 45 insert molding slot 36 of boss
The leftover pieces at blank both ends are cut off in second cutter groove of the insertion of sharpener 46 37, that is, complete the processing and manufacturing of connector.
Specific embodiment is only explanation of the invention, is not limitation of the present invention, those skilled in the art
The modification that not creative contribution can be made to the present embodiment as needed after reading this specification, but as long as in this hair
It is all protected by Patent Law in bright right.
Claims (9)
1. a kind of connector continuous mould of recliner, including upper die holder (1), lower die holder (2), the lower die holder (2) it is upper
End face is provided with cover half (3), and the lower face of the upper die holder (1) is provided with dynamic model (4), it is characterised in that:The dynamic model (4)
Lower face, which is set gradually, to be useful for the first bite (42) of cutting connector both sides, is used for punching press lock hole (81) and location hole
(92) pressing block (43), the press strip (44) for pressing blank bending and the boss (45) for being used for press flute (91),
The upper surface of the cover half (3) is disposed with for embedded the first cutter groove (33) of first bite (42), for the punching
The embedded placing groove (34) of briquetting (43) is embedded in for the embedded embedded components (35) of the press strip (44), for the boss (45)
Forming tank (36), the embedded components (35) include a pair of embedded item (351), are arranged between a pair of embedded item (351)
Have for the embedded indent (352) of the press strip (44), the upper surface of the cover half (3) is provided with two rows and is used for transmission blank fortune
Dynamic transmission assembly (6).
2. a kind of connector continuous mould of recliner according to claim 1, it is characterised in that:The transmission assembly
(6) include two rows of sliding shoes (61) being arranged along the blank direction of motion, the upper surface of the cover half (3) is provided with two rows for institute
The embedded sliding groove (32) of sliding shoe (61) sliding is stated, is provided between the sliding shoe (61) and the sliding groove (32) slot bottom
Resetting spring (62), it is horizontally disposed that two rows of sliding shoes (61) are located at the external side close to each other of the sliding groove (32)
There are the sliding slot (63) for blank insertion, the lower face of the dynamic model (4) to be provided with for the sliding shoe (61) insertion
Mounting groove (41).
3. a kind of connector continuous mould of recliner according to claim 2, it is characterised in that:Two rows of slidings
Adjusting block (38) of the row for contradicting blank lower face, the upper surface setting of the dynamic model (4) are provided between block (61)
Have and slide embedded regulating tank (39) for the adjusting block (38), between the adjusting block (38) and the regulating tank (39) slot bottom
It is provided with adjustment spring (391).
4. a kind of connector continuous mould of recliner according to claim 3, it is characterised in that:The cover half (3)
The side of first bite (42) is provided with loading bay (5), the upper surface of the loading bay (5) is provided with feed well
(51), the upper surface flush of the bottom wall and the cover half (3) of the feed well (51), the two opposite sides of the feed well (51)
The horizontally disposed blend stop (52) for being useful for contradicting blank upper surface of wall.
5. a kind of connector continuous mould of recliner according to claim 4, it is characterised in that:The press strip (44)
Lower face be provided with mounting hole (441), in the mounting hole (441) sliding be embedded with probe (442), the probe (442)
Returning spring (443) is provided between the mounting hole (441) roof, the bottom wall of the indent (352) is provided with described in confession
Probe (442) passes through the through-hole (353) of location hole (92) grafting afterwards.
6. a kind of connector continuous mould of recliner according to claim 1, it is characterised in that:The dynamic model (4)
Lower face be located at and be provided with a pair of the second cutting for cutting connector both ends leftover pieces at the position of the boss (45)
The upper surface of knife (46), the cover half (3) is provided with for embedded the second cutter groove (37) of second bite (46).
7. a kind of connector continuous mould of recliner according to claim 6, it is characterised in that:The cover half (3)
Side wall is provided with the cleaning slot (7) for being communicated in second cutter groove (37), and pallet is slidably connected in the cleaning slot (7)
(71), one end side wall that the pallet (71) is located at outside the cover half (3) is provided with knob (72).
8. a kind of connector continuous mould of recliner according to claim 7, it is characterised in that:The cover half (3)
Setting is tiltedly installed with stock guide (31) between the side and the lower die holder (2) of second cutter groove (37), described to lead
Flitch (31) is less than the other end close to one end of the lower die holder (2), and the both sides of the stock guide (31) are both provided with baffle
(311)。
9. a kind of connector continuous mould of recliner according to claim 1, it is characterised in that:The lower die holder
(2) surrounding of upper surface is both provided with guide rod (21), and the lower face of the upper die holder (1) is provided with for the guide rod
(21) outer wall of the guide pipe (11) of grafting, the guide rod (21) is arranged with for contradicting the guide pipe (11) lower face
Thrust spring (22).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810703653.4A CN108480476B (en) | 2018-06-30 | 2018-06-30 | Continuous die for connecting piece of seat angle adjuster |
Applications Claiming Priority (1)
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Cited By (1)
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CN114210829A (en) * | 2021-12-16 | 2022-03-22 | 东莞市巨晟电器有限公司 | Stamping die applied to motor shell production and machining method |
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