CN101817054A - Cavity die rotating upsetter and operating method thereof - Google Patents
Cavity die rotating upsetter and operating method thereof Download PDFInfo
- Publication number
- CN101817054A CN101817054A CN 201010124747 CN201010124747A CN101817054A CN 101817054 A CN101817054 A CN 101817054A CN 201010124747 CN201010124747 CN 201010124747 CN 201010124747 A CN201010124747 A CN 201010124747A CN 101817054 A CN101817054 A CN 101817054A
- Authority
- CN
- China
- Prior art keywords
- die
- thimble
- socket
- blank
- spacing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21J—FORGING; HAMMERING; PRESSING METAL; RIVETING; FORGE FURNACES
- B21J9/00—Forging presses
- B21J9/02—Special design or construction
- B21J9/06—Swaging presses; Upsetting presses
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21G—MAKING NEEDLES, PINS OR NAILS OF METAL
- B21G3/00—Making pins, nails, or the like
- B21G3/12—Upsetting; Forming heads
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21J—FORGING; HAMMERING; PRESSING METAL; RIVETING; FORGE FURNACES
- B21J13/00—Details of machines for forging, pressing, or hammering
- B21J13/08—Accessories for handling work or tools
- B21J13/14—Ejecting devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21J—FORGING; HAMMERING; PRESSING METAL; RIVETING; FORGE FURNACES
- B21J9/00—Forging presses
- B21J9/02—Special design or construction
- B21J9/022—Special design or construction multi-stage forging presses
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Forging (AREA)
Abstract
The invention relates to a cavity die rotating upsetter and an operating method thereof. The upsetter comprises a rotatable cavity die holder, cavity dies uniformly distributed in the cavity die holder, a guide post fixed with the cavity die holder, a sliding chute arranged in the guide post, a friction slider installed in the sliding chute, a thimble spacing stopper fixed on the upsetter body and a thimble spacing stopper adjusting mechanism; a workpiece ejectior mechanism is arranged only in a position from which a workpiece is ejected out of the cavity die, and the workpiece ejectior mechanism comprises a ejector rod which can eject a thimble; and a position, which is corresponding to the ejector rod, on the thimble spacing stopper is provided with a clearance hole. The operating method comprises the following steps: in the rotating process of the cavity die holder, the thimble and the cavity die holder rotate synchronously, the thimble keeps stationary relative to the cavity die holder, and the thimble stopper does not move. The invention has the advantages that the workpiece ejectior mechanism only needs to be arranged in the discharging position, and particularly, the thimble does not need to be separated from the cavity die holder in the rotating process of the cavity die holder, thereby facilitating the high-speed upsetting and improving the operating efficiency.
Description
Technical field
The present invention relates to a kind of cavity die rotating upsetter and method of work, particularly relate to a kind of cavity die rotating upsetter and method of work that is used for standard components such as high-speed molding securing member.
Background technology
Existing upsetter, the general and fuselage of die is fixed, the transposition of inter process be by drift move back and forth or feeding clip mechanism such as clamp is clamped to another die with blank from a die and realizes.This upsetter, complex structure is difficult for realizing the high speed upsetting especially.In order to solve the problem of high speed upsetting, the patent No. is in the patent of invention of ZL87105260.1, a kind of multistation die-revolving high-speed upsetter is disclosed, this invention provides the die more than at least three on the revolution die socket, will adorn and the same number of punch die corresponding with the die of die socket on the slide block; The guiding mechanism of regulating product length is made of regulating sleeve, ring washer and adjusting nut, is used for unifying to regulate the length of product; Should invent application space cam mechanism on cold headers simultaneously, and drive cavity die rotating and pretend the intermittent-rotation motion, to realize the transposition between the cold headers multiple operation.The cavity die rotating upsetter of this disclosure of the Invention; comprise the cold nail hitting head machinery of the two drifts HC that its disclosed in the prior art West Germany west Glan company produces; material pushing needle in its die and the die socket all needs to separate die socket prior to die socket and could turn round when die socket turn round, die socket is turned back to desired location and stops afterwards that material pushing needle enters die socket again under the effect of material jacking mechanism.This upsetter in the time of will realizing the high speed upsetting, because material pushing needle needs to separate with die socket when die socket rotates, need provide a material pushing needle resetting-mechanism that material pushing needle is separated with die socket on the one hand, makes the complex structure of upsetter; The length of material pushing needle is long on the other hand, constantly pass in and out die socket, and material pushing needle is damaged easily, is easy to damage as adopt stage clip resetting means, stage clip between material pushing needle and die socket, shortens the service life of upsetter, and it is complicated especially that other resetting structure can become; When particularly needing the high speed upsetting, material pushing needle will enter die socket repeatedly, separates with die socket, and this relative upsetting cycle need take the long time, therefore reduces upsetting efficient greatly.The patent No. is the patent of invention of ZL87105260.1, the resetting-mechanism that does not have material pushing needle, from its disclosed literal and Tu Lai, it can't realize the action that material pushing needle is separated with die socket, can be blocked by material pushing needle during the die socket rotation, therefore can't realize the rotation of die socket, the technical scheme of this patent can't realize, can prove that thus this technical scheme is not obtain actual enforcement.Its rotation of mentioning the cavity die rotating device of the cold nail hitting head machinery of the two drifts HC that West Germany west Glan company produces is to rely on gear and tooth bar realization; when the gears engaged of tooth bar and cavity die rotating device is; the driving slewing equipment rotates; when being out of gear of tooth bar and cavity die rotating device; the cavity die rotating device just stops operating, and is limited in the fixing angle cavity die rotating device motionless by the alignment pin in the detent mechanism again simultaneously.It points out that " under high-speed case, the engagement repeatedly of rack and pinion and the insertion repeatedly of alignment pin and pin-and-hole are withdrawed from generation bump, vibrations and noise; Again because the wearing and tearing of these two kinematic pairs, reduce the precision and the service life of machine " shortcoming; through the applicant's the proof of repeatedly practising; the inserting repeatedly of the engagement repeatedly of rack and pinion and alignment pin and pin-and-hole withdrawed from and hit bump, vibrations and the noise of product generation with producing bump, vibrations and the noise stamping that will liquidate, and can ignore; The wearing and tearing of two kinematic pairs are to the precision of machine with also there is not what influence service life.
Summary of the invention
First purpose of the present invention is to provide a kind of and realizes the high speed upsetting, thimble does not need to separate but the cavity die rotating upsetter that rotates with die with die when die socket rotates.
Second purpose of the present invention be to provide a kind of when die socket rotates thimble do not need to separate but rotate, can realize the method for work of the cavity die rotating upsetter of high speed upsetting with die with die.
A kind of cavity die rotating upsetter, comprise big slide block, be fixed on the die assembly on the big slide block, the big slide block driving mechanism that big slide block is moved back and forth, the die assembly, cut feed collet material mechanism, the workpiece ejecting mechanism makes die turn to the die indexing means of desired location, the die positioner that die is stopped at desired location, material jacking mechanism; The die assembly only comprises the die socket of the rotation of support relatively, circumferentially is evenly distributed on the die more than two or two in the die socket along die; Be provided with and the fixing lead of die socket in the side of die socket away from die assembly, the position of corresponding each thimble is provided with chute on lead; Material jacking mechanism comprises that an end is installed in the die and die thimble one to one, is installed in the friction slip in the chute, with the fixing spacing abutment of thimble of body; Also be provided with the spacing abutment guiding mechanism of thimble of adjusting the distance between spacing abutment of thimble and the die socket; Only be provided with the workpiece ejecting mechanism, but the workpiece ejecting mechanism comprises the knock-pin of top thimble in the die position that workpiece is ejected; The position of corresponding knock-pin is provided with emptiness avoiding hole on the spacing abutment of thimble, and knock-pin is towards the external diameter of the emptiness avoiding hole one end aperture less than emptiness avoiding hole, and friction slip is greater than the aperture of emptiness avoiding hole; Thimble contacts by friction slip with friction slip away from an end of die socket and keeps out; Friction slip contacts with the spacing abutment of thimble and is kept out by the spacing abutment of thimble away from an end of thimble.Because spacing abutment of thimble and body are fixed, knock-pin is towards the external diameter of the emptiness avoiding hole one end aperture less than emptiness avoiding hole, the face that friction slip contacts with the spacing abutment of thimble is greater than the aperture of emptiness avoiding hole, in the process of die socket rotation, the relative die socket with friction slip of thimble is static to be rotated with die socket, and spacing abutment of thimble and body fixed static are motionless.When upsetting, the spacing abutment of thimble is kept out spacing to friction slip, friction slip is kept out spacing to thimble, do not need the thimble in corresponding each die all need design the workpiece ejecting mechanism that moves back and forth, only need the workpiece ejecting mechanism to be set in the discharging position, make upsetter simple in structure, debugging is easily simple, and cost is low; Particularly in the die socket rotary course, thimble does not need to separate with die socket, shortens the movement travel of the thimble of knowing clearly greatly, has guaranteed that thimble ejects the smooth and easy of blank, has improved the operating efficiency and the service life of thimble, is easier to realize quick upsetting.Owing to increased the friction slip structure, in rotary course, the spacing abutment of the relative thimble of friction slip has relative fricting movement, thimble does not have relative motion to friction slip, the frictional force that its contact-making surface produced when therefore the spacing abutment of the relative thimble of die socket rotatablely moved acts on the slide block, and does not act on the thimble, so thimble is not allowed easily broken, the assurance die socket can be realized rotation at a high speed, the service life of having improved thimble.The spacing abutment guiding mechanism of thimble is adjusted the position of thimble in die by the distance of adjusting between spacing abutment of thimble and the die socket, when the workpiece of the upsetting different length that the section diameter of moulding is identical in die, need not change thimble and die, once adjust and just the thimble position in all dies is mixed up, shortcomings such as the present adjustment respectively of each station of multistation upsetter, complex structure, debugging bother, take time and effort have been overcome, improve operating efficiency, reduced equipment cost.
As first kind of improvement, the spacing abutment guiding mechanism of thimble comprises and the fixing adjustment post of the spacing abutment of thimble, pass first adjustment part of adjusting post and second adjustment part, first bolt and two first and adjust nuts, be installed on first bolt and place first adjustment part and second adjustment part between stage clip; First adjustment part and body near die socket are fixed, adjust the post and the first adjustment part matched in clearance, second adjustment part away from die socket is fixed with the adjustment post, one end of first bolt is fixed on first adjustment part, the other end of first bolt pass second adjustment part and with the second adjustment part matched in clearance, adjust nut and be installed on first bolt and place the side of second adjustment part away from first adjustment part.This adjustment structural adjustment thimble is very convenient during with respect to the position of die socket, only needs to adjust two and adjusts the position that nuts just can be adjusted whole thimbles, needs to adjust respectively to compare with the thimble of each station of present multistation upsetter, and it is very convenient to adjust.
As second kind of improvement, the spacing abutment guiding mechanism of thimble only comprise rotatable can not axially movable second bolt, stop collar; On body, be provided with the pilot hole of the spacing abutment of thimble, between the spacing abutment of pilot hole and thimble, be provided with the rotation preventive mechanism that prevents that the spacing abutment of thimble from rotating relative to body, matched in clearance between spacing abutment of thimble and pilot hole; Second bolt is the rotation bare terminal end away from an end of die socket, is provided with positive stop lug boss at second bolt near the rotation bare terminal end, and second bolt is the end of thread near an end of die socket; Stop collar and body are fixed, and are provided with the shoulder hole that cooperates with second bolt and positive stop lug boss in stop collar, and the macropore of shoulder hole is towards die socket one side; The end of thread of second bolt passes the spacing abutment of thimble, the spacing abutment threaded engagement of second bolt and thimble.This adjustment structure is simple in structure, and is convenient when adjusting the position of the relative die socket of thimble.
As the third improvement, the die positioner comprises the first goods of furniture for display rather than for use driving shaft, the driving mechanism of the first goods of furniture for display rather than for use driving shaft, be fixed on first goods of furniture for display rather than for use on the first goods of furniture for display rather than for use driving shaft, with the second fixing goods of furniture for display rather than for use axle of body, only be articulated in second goods of furniture for display rather than for use on the second goods of furniture for display rather than for use axle rotationally, backstay, with the fixing backstay guide pin bushing of body, second back-moving spring; Backstay comprises two small ends, small end towards die socket stretches in the die socket, pass guide pin bushing and on this small end, be provided with the installing hole of second goods of furniture for display rather than for use away from the small end of die socket, second back-moving spring is installed between guide pin bushing and backstay, one end of second goods of furniture for display rather than for use stretches in the installing hole of guide pin bushing, the other end of second goods of furniture for display rather than for use can with the first goods of furniture for display rather than for use butt.When the driving force that die socket need stop and not adding, backstay stretches in the die socket under the effect of second back-moving spring, can overcome effect of inertia and make die socket can rest on desired location accurately and reliably.When die socket need rotate, backstay separated with die socket under the effect of the driving force of driving mechanism.
As the common improvement of scheme one to scheme four, the die indexing means comprises first driving cog that is arranged on the die socket border, is provided with the disk of second driving cog that meshes with first driving cog, the disk driving mechanism of driver plate rotation; The shared disk girth of second driving cog is disk girth and die number ratio.Employing is provided with the die indexing means of operative gear, simple in structure leaning on disk.
As further improvement, outside die socket, be provided with the die holder, be provided with spacing first end cap and second end cap in die case of die socket at the two ends of die socket, first end cap is near die assembly, first end cap is fixed on the die holder, and second end cap is fixed on the die socket and is limited in the die holder; Be provided with the empty avoiding through hole of empty avoiding disk in the position of the corresponding disk of die holder.First end cap and second end cap are only spacing rotationally in the die holder with die socket simple and reliablely.
As the common improvement of scheme one to scheme four, cut feed collet material mechanism, comprise and cut the material bar, the reciprocating material bar driving mechanism of cutting of material bar is cut in driving, be fixed on and cut cutting the material cutter and cutting the feeding clip mechanism that the material cutter cooperates the clamping blank on the material bar, feeding clip mechanism comprises clip feed blade, cut the holding part that material cutter and clip feed blade complement each other to form the clamping blank, make clip feed blade and cut the material cutter and open, put blank and open mechanism at the clip feed blade of desired location; Also be provided with make clip feed blade cut relatively the material cutter reset closed form the holding part of clamping blank, the spacing resetting-mechanism of the feeding clip mechanism of restriction clip feed blade motion in the process that blank is cut off; At feed entrance point, the holding part of clamping blank is along the diameter of the width of cutting the material cutter direction of motion greater than blank; Put cutting material level, clip feed blade is cut the material cutter relatively and is maintained fixed, and the holding part of clamping blank does not change.Cut material level and be changed to from cutting material cutter and clip feed blade and act on blank and blank is produced be deformed to blank and cut off residing position, be i.e. residing position in the process that blank is cut off.In the process that blank is cut off, clip feed blade is cut the material cutter relatively and is maintained fixed fully, and promptly the holding part of clamping blank does not change, like this in the process that blank is cut off, can deflection and rock, therefore make the bottom of the blank of being cut off smooth, be equal to the effect that wholecircle is cut.Because smooth by the blank cut off bottom, when being sent to subsequent processing upsetting moulding, make the dynamic balance that acts on the blank, blank can deflection and rock during moulding, the good and precision height of the Forming Quality of workpiece, defect rate is low; To the big workpiece of need distortion, be difficult for causing blank to be filled in mold cavity sometimes here, be filled in mold cavity sometimes again over there, more help reduction in the numbers of seconds; And the workpiece tail end face that upsetting is come out is smooth.Because in the process that blank is cut off, clip feed blade and cut the material cutter and can realize clamping fully blank, what therefore be fit to long blank cuts the feed collet material.
A kind of method of work of cavity die rotating upsetter, method of work comprises: in the process of die socket rotation, thimble and die socket rotate synchronously, and thimble keeps static with respect to die socket, and the thimble abutment is not moved.
As improvement, also be provided with the spacing abutment guiding mechanism of thimble of adjusting the distance between spacing abutment of thimble and the die socket; Be provided with and the fixing lead of die socket in the side of die socket away from die assembly, the position of corresponding each thimble is provided with chute on lead, friction slip is installed in chute, and thimble contacts with friction slip away from an end of die socket and is kept out spacing by it; Spacing abutment of thimble and body are fixed, and the face that friction slip contacts with the spacing abutment of thimble is greater than the aperture of emptiness avoiding hole, and friction slip contacts with the spacing abutment of thimble and kept out by the spacing abutment of thimble away from an end of thimble;
Method of work comprises: in the process of die socket rotation, thimble and friction slip and die socket rotate synchronously, the spacing abutment of thimble is not moved, thimble, the relative die socket of friction slip keep static, friction slip contacts with the spacing abutment of thimble and produces force of sliding friction, fricton-tight frictional force between thimble and friction slip, between thimble and the spacing abutment of thimble.
As further improvement, the number of die manys two than the number of punch die, comprises the die of die, discharging position of feed entrance point and shaping position and punch die die one to one; Be provided with blank propulsive mechanism in the die that blank is advanced feed entrance point at the corresponding feed entrance point of punch die one side, on the big slide block of punch die one side, be provided with empty avoiding and cut the empty avoiding space of feed collet material mechanism, blank propulsive mechanism, the corresponding discharging position discharging clearance position when being provided with workpiece and being ejected; Only be provided with the workpiece ejecting mechanism in the discharging position;
Method of work comprises:
Die is rotated to the die of shaping position, the die of discharging position by the die of feed entrance point, after rotating to the die of its adjacent position, after promptly rotating the angle of 360 °/die number, stop operating at desired location at die positioner and the recessed die holder of die indexing means acting in conjunction; In the process of die socket rotation, realize in the die workpiece from last operation backward the transmission of an operation and the die of discharging position move to feed entrance point,, the die of feed entrance point moves to shaping position; Die socket stops, the blank propulsive mechanism will be cut feed collet material mechanisms grip in the die of the blank propelling feed entrance point of feed entrance point, workpiece in the corresponding die carries out the upsetting moulding to punch die to die direction motion and to it, and the workpiece ejecting mechanism will eject that in type workpiece ejects in the die of position; After blank propulsive mechanism, punch die and ejecting mechanism are finished corresponding actions and resetted, rotate the angle of 360 °/die number again at the acting in conjunction lower cavity die of die detent mechanism and die indexing means, so circulation.
The invention has the beneficial effects as follows because spacing abutment of thimble and die socket or body are fixed, thimble always rotates with die socket in the process of die socket rotation, therefore only need the workpiece ejecting mechanism to be set in the discharging position, particularly in the die socket rotary course, thimble does not need to separate with die socket, be easier to realize quick upsetting, increase work efficiency.
Description of drawings
Fig. 1 is the schematic perspective view that the cavity die rotating upsetter of the embodiment of the invention 1 removes body, flywheel etc.
Fig. 2 is the schematic perspective view of Fig. 1 from another direction projection.
Fig. 3 is the schematic perspective view that part-structure only is shown of the embodiment of the invention 1.
Fig. 4 is the perspective exploded view that part-structure only is shown of the embodiment of the invention 1.
Fig. 5 is the perspective exploded view of cutting feed collet material mechanism of the embodiment of the invention 1.
Fig. 6 is the schematic perspective view that part-structure only is shown of the embodiment of the invention 2.
The specific embodiment
Embodiment 1
As shown in Figures 1 to 4; a kind of cavity die rotating upsetter; comprise die assembly; the die assembly driving mechanism that the relative die assembly of die assembly is moved back and forth, the die assembly is cut feed collet material mechanism; only be arranged on the workpiece ejecting mechanism of discharging position; make the die indexing means of die rotation set angle, the die positioner that die is stopped at desired location, material jacking mechanism.
The die assembly driving mechanism comprises bent axle 1, is installed in the connecting rod 2 on the bent axle 1, the big slide block 3 that articulates rotationally with connecting rod 2.Die assembly comprises the die shoe 4 that is fixed on the big slide block 3, and three punch dies that evenly are fixed on the die shoe 4 are punch die 5, punch die 72, punch die 73.
The die assembly comprises the die holder 6 that is fixed on the body, be installed in the die case 7 that die holder interior 6 and die holder 6 are fixed, be installed in rotation on the die socket 8 in the die case 7, be fixed on five dies in the die socket 8 along circumferentially evenly distributing of die socket, the angle of the central axis line of the central axis of adjacent die and die socket is 72 °.With die socket 8 spacing first end cap 10 and second end caps 11 in die case 7.Die holder 6 away from a side of punch die also be provided with fixing base 12, the first end caps 10 of body near punch dies, first end cap 10 is fixed on the die holder 6, second end cap 11 is fixed on the die socket 8 and is spacing in die holder 6 by base 12.
The number of die manys two than the number of punch die, comprise the corresponding die 9 of die 76 of a die 77, discharging position of feed entrance point and shaping position and punch die 5, with corresponding three dies 74 of punch die 72, three dies 75 corresponding with punch die 73; Be provided with blank propulsive mechanism in the die that blank is advanced feed entrance point at the die 77 of the corresponding feed entrance point of punch die one side, on the big slide block 3 of punch die one side, be provided with empty avoiding and cut the empty avoiding space of feed collet material mechanism, blank propulsive mechanism, the corresponding discharging position discharging clearance position when being provided with workpiece and being ejected.Empty avoiding space and discharging clearance position comprise the avoiding hollow groove 44 that is arranged on corresponding discharging position and feed entrance point on the slide block 3.The blank propulsive mechanism comprises the pusher cam 52 that is fixed on the bent axle 1, one end can with the roller 54 of pusher cam 52 butts, pusher goods of furniture for display rather than for use 53, be fixed on the gear shaft 55 on the pusher goods of furniture for display rather than for use 53, be fixed on the pusher cylindrical gear 56 on the gear shaft 55, charging ram 57, pusher goods of furniture for display rather than for use back-moving spring 58 is provided with the driving cog 59 with 56 engagements of pusher cylindrical gear on charging ram 57.Pusher goods of furniture for display rather than for use back-moving spring 58 1 ends are connected on the pusher goods of furniture for display rather than for use 53, and an end is connected on the body.Roller 54 is installed in the end of pusher goods of furniture for display rather than for use 53, and gear shaft 55 is fixed on the other end of pusher goods of furniture for display rather than for use 53.
The die positioner comprises the first goods of furniture for display rather than for use driving shaft 13, the driving mechanism of the first goods of furniture for display rather than for use driving shaft 13, be fixed on first goods of furniture for display rather than for use 14 on the first goods of furniture for display rather than for use driving shaft 13, be fixed on the fixed block 15 on first goods of furniture for display rather than for use 14, the push rod 16 on the holder fixed block 15 is with the second fixing goods of furniture for display rather than for use axle (not shown) of body, only be articulated in second goods of furniture for display rather than for use 17 on the second goods of furniture for display rather than for use axle rotationally, backstay 18 is with fixing backstay guide pin bushing 19, the second back-moving springs 20 of body; Backstay 18 comprises two small ends, small end towards die socket 8 stretches in the die socket 8, the installing hole 21 that passes guide pin bushing 19 and on this small end, be provided with away from the small end of die socket 8, second back-moving spring 20 is installed in 18 of guide pin bushing and backstays, one end of second goods of furniture for display rather than for use 17 stretches in the installing hole 21 of backstay 18, the other end of second goods of furniture for display rather than for use 17 can with push rod 16 butts.The driving mechanism of the first goods of furniture for display rather than for use driving shaft 13 comprises first travelling gear 22 that is fixed on the bent axle 1, second travelling gear 23 with 22 engagements of first travelling gear, be fixed on first power transmission shaft 24 (two) on second travelling gear 23, be fixed on first bevel gear 25 on first power transmission shaft 24, second bevel gear 26 with 25 engagements of first bevel gear, be fixed on second power transmission shaft 27 on second bevel gear 26, be fixed on the third hand tap gear 28 on second power transmission shaft 27, the 4th bevel gear 29 with 28 engagements of third hand tap gear, be fixed on the 3rd power transmission shaft 30 on the 4th bevel gear 29, be fixed on first cam 31 on the 3rd power transmission shaft 30.Side at first goods of furniture for display rather than for use 14 is equipped with first roller, 32, the first cams 31 and first roller, 32 butts.
The workpiece ejecting mechanism comprises second cam 33 that is fixed on the 3rd power transmission shaft 30, be fixed on the 3rd goods of furniture for display rather than for use 34 on the first goods of furniture for display rather than for use driving shaft 13, be installed in second roller 35 on the 3rd goods of furniture for display rather than for use 34, be fixed on the push rod 35 on the 3rd goods of furniture for display rather than for use 34, can with the push rod 36 of push rod 35 butts, with body stationary sleeve 37, can with the knock-pin 38 of push rod 36 butts, the thimble 39 of knock-pin 38 butt discharging positions.One end of push rod 36 and knock-pin 38 stretches into respectively in the sleeve 37.Be with back-moving spring on the 3rd push rod 36, back-moving spring 60 places 36 of sleeve 37 and push rods.
Extend away from a side of die at second end cap 11 and to be provided with lead 41, the position of corresponding each thimble 39 is provided with chute 42 on lead 41.
Material jacking mechanism comprises that an end is installed in the die and die thimble 39 one to one, be installed in the friction slip 43 in the chute 42, friction slip 43 carried out the spacing abutment guiding mechanism of thimble of the distance between the spacing abutment 40 of spacing thimble of keeping out, the adjustment spacing abutment 40 of thimble and the die socket 8; Thimble 39 contacts with friction slip 43 away from an end of die socket 8 is kept out spacing by friction slip 43; Friction slip 43 contacts by the spacing abutment 40 of thimble with the spacing abutment 40 of thimble away from an end of thimble 39 and keeps out.The spacing abutment 40 of thimble is installed in the base 12 and with base 12 and fixes.The position of corresponding knock-pin 38 is provided with emptiness avoiding hole 61 on the spacing abutment 40 of thimble, and knock-pin 38 is towards the external diameter of the emptiness avoiding hole 61 1 ends aperture less than emptiness avoiding hole 61, and friction slip 43 is greater than the aperture of emptiness avoiding hole 61.
The die indexing means comprises first driving cog 49 that is arranged on die socket 8 borders, is provided with the disk 51 of second driving cog 50 that meshes with first driving cog 49, the disk driving mechanism of driver plate 51 rotations; Second driving cog, 50 shared disk 51 girths are 1/5 disk girth; Be provided with the empty avoiding through hole (not shown) of empty avoiding disk in the position of die case 7 and die holder 6 corresponding disks.The disk driving mechanism comprises the 5th bevel gear 62 that is fixed on second power transmission shaft 27, the 6th bevel gear 63 with 62 engagements of the 5th bevel gear, be fixed on the 4th power transmission shaft 64 on the 6th bevel gear 63, with the 7th fixing bevel gear 65 of the 4th power transmission shaft 64, the 8th bevel gear 66 with 65 engagements of the 7th bevel gear, be fixed on the 5th power transmission shaft 67 on the 8th bevel gear 66, be fixed on the 9th bevel gear 68 on the 5th power transmission shaft 67, the tenth bevel gear 69 with 68 engagements of the 9th bevel gear, be fixed on the 6th power transmission shaft 70 that the tenth awl tooth 69 is taken turns, disk 51 is fixed on the 6th power transmission shaft 70.
The spacing abutment guiding mechanism of thimble comprises the adjustment post of fixing with the spacing abutment 40 of thimble 38, pass first adjustment part 45 of adjusting post 38 and second adjustment part 46, first bolt 71 and two first and adjust nuts 48, be installed on first bolt 71 and place first adjustment part 45 and the stage clip 47 of 46 of second adjustment parts; First adjustment part 45 near die socket is fixed with body, adjust post 38 and first adjustment part, 45 matched in clearance, second adjustment part 46 away from die socket is fixing with adjustment post 38, one end of first bolt 71 is fixed on first adjustment part 45, the other end of first bolt 71 pass second adjustment part 46 and with second adjustment part, 46 matched in clearance, adjust nut 48 and be installed on first bolt 71 and place the side of second adjustment part 46 away from first adjustment part 45.When the length of workpiece changes, move to the motion of die direction or away from the die direction by rotating the first adjustment nut, 48, the second abutment 46.Second abutment 46 is to the motion of die direction, and the spacing abutment 40 of thimble shortens with the distance of die socket 8, and the distance that thimble 39 is inserted in the die is elongated, and the length of workpiece shortens; Second abutment 46 is to moving away from the die direction, and the spacing abutment 40 of thimble is elongated with the distance of die socket 8, and the distances that thimble 39 is inserted in die and the die socket 8 shorten, and the length of workpiece is elongated.
As shown in Figure 5, cut feed collet material mechanism, comprise and cut material seat 137, can be installed in to cut by pressing plate 138 with slidably reciprocating and cutting material bar 139 in the material seat 137, material bar 139 reciprocating material bar 139 driving mechanisms of cutting are cut in driving, be fixed on and cut material and cutting material cutter 140 on the bar 139, clip feed blade 141 with the feeding clip mechanism of cutting material cutter 140 cooperation clamping blanks, make clip feed blade 141 and cut material cutter 140 and open, put blank and open mechanism, make clip feed blade cut the material cutter 140 closed holding part that forms the clamping blank that resets relatively at the clip feed blade of desired location, the spacing resetting-mechanism of the clip feed blade of restriction clip feed blade motion in the process that blank is cut off; Feeding clip mechanism comprises clip feed blade 141, cuts the holding part that material cutter 140 and clip feed blade 141 complement each other to form the clamping blank, and at feed entrance point, the holding part of clamping blank is along the diameter of the width of cutting material cutter 140 directions of motion greater than blank; Put cutting material level, clip feed blade 141 is cut material cutter 140 relatively and is maintained fixed, and the holding part of clamping blank does not change.
As shown in Figure 5, material folding plate mechanism comprises and cuts the material folding plate Connection Block 78 that material bar 139 is fixed, with the material folding plate 80 of material folding plate Connection Block 78 by cylindrical pivot 79 pivot joints, with the fixing material folding plate guide holder 81 of body, the elasticity reset device that pivot 79 is resetted near clip feed blade 141 1 sides towards material folding plate pivoted hole 82.Be provided with the chute 83 of parallel shears material direction in material folding plate guide holder 81, material folding plate 80 can slidably reciprocate and be installed in rotationally in the chute 83 up and down.The pivoted hole 82 that cooperates with pivot 79 on the material folding plate 80 comprises two semi-circular portion and the straight line portion that is connected two semi-circular portion of end; Be provided with protruding axle 84 in the both sides of material folding plate 80, the two ends of pivot 79 are installed on the material folding plate Connection Block 78 and stretch out material folding plate Connection Block 78, and elasticity reset device is to be connected the protruding axle 84 of material folding plate 80 both sides and the extension spring 85,86 of pivot 79 chien shih material folding plates 80 horizontal resets.
As shown in Figure 5, be provided with holddown groove 87 on a side of material folding plate 80, holddown groove 87 is fixed with clip feed blade holder 88 away from material folding plate Connection Block 78 in holddown groove 87, and clip feed blade 141 is fixed on the clip feed blade holder 88, and is vertical with material folding plate 80.
As shown in Figure 5, the spacing resetting-mechanism of clip feed blade 141 comprises to pressing down material folding plate 80 and making reset ground elastic reset hold down gag and be installed in adjustment part on the material folding plate guide holder 81 of material folding plate 80 downwards.The elastic reset hold down gag comprises the spring base 89 on the geometrical clamp flitch guide holder 81, and the material folding plate that is installed in butt material folding plate 80 in the spring base 89 compresses little axle 90, and butt material folding plate compresses the stage clip 91 of little axle 90; Be installed in the adjustment screw 92 that compresses stage clip 91 on the spring base 89, suit is adjusted the locking nut 93 on the screw 92.Adjustment part is the Z type, comprises horizontal ends 94, horizontal ends 95 and is connected the broken line part (not shown) of two horizontal ends, and the horizontal ends 94 of adjustment part is installed on the material folding plate guide holder 81, but horizontal ends 95 butt clip feed blades 141.At feed entrance point, adjustment part is towards the horizontal ends 95 butt clip feed blades 141 of clip feed blade 141, and clip feed blade 141 does not contact with cutting material cutter 140, and the holding part of clamping blank is along the diameter of the width of cutting material cutter 140 directions of motion greater than blank; Put cutting material level, the holding part of clamping blank equals the diameter of blank along the width of cutting material cutter 140 directions of motion.
As shown in Figure 5, make clip feed blade and cut material cutter 140 and open, put blank and open the head part 136 of mechanism for fixing with big slide block 3 at the clip feed blade of desired location.
As shown in Figure 5, the holding part of clamping blank comprises being located at cuts the U type storage tank 96 of material on the cutter 140, and the holding part of clamping blank is the formed accommodation space of planar section that is arranged on the U type storage tank 96 cut on the material cutter 140 and clip feed blade 141; U type storage tank 96 comprise the semicircle arc groove that cooperates with blank diameter and with the tangent straight line portion of semicircle arc groove, U type groove is along the diameter of the width of cutting material cutter 140 directions of motion less than blank.
As shown in Figure 5, cut and expect that bar 139 driving mechanisms are fixed on the 11 bevel gear 97 on first power transmission shaft 24, the 12 bevel gear 98 with 97 engagements of the 11 bevel gear, be fixed on the 7th power transmission shaft 99 on the 12 bevel gear 98, be fixed on the cam 130 on the 7th power transmission shaft 99, be articulated in the goods of furniture for display rather than for use 132 on the holder of fixing with body 131 rotationally, be installed on goods of furniture for display rather than for use 132 1 ends can with the roller 133 of goods of furniture for display rather than for use 132 apical graftings, be installed in the push rod 134 of goods of furniture for display rather than for use 132 other ends, be installed in material folding plate Connection Block 78 and cut stage clip 135 between the material seat 137, push rod 134 can with material folding plate Connection Block 78 apical graftings.
As shown in Figure 5, the method for work of cutting the feed collet material of cutting feed collet material mechanism of upsetter comprises:
At feed entrance point, clip feed blade 141 is adjusted part and withstands, pivot 79 moves to a side away from clip feed blade 141 with respect to pivoted hole 82, clip feed blade 141 with cut material cutter 140 and leave the distance of setting, the holding part of clamping blank is along the diameter of the width of cutting material cutter 140 directions of motion greater than blank, blank enters in the holding part of clamping blank, when blank enters and between the holding part of clamping blank certain clearance is arranged.
Under the effect of cutting material bar 139 driving mechanisms, cutting feed collet material mechanism moves to from feed entrance point to the first die locality and cuts material level and put, clip feed blade 141 separates with adjustment part, pivot 79 moves to a side of close clip feed blade 141 with respect to pivoted hole 82, clip feed blade 141 moves relative to cutting material cutter 140, the distance that moves equates relative to the distance that pivoted hole 82 moves with pivot 79, the holding part of clamping blank is along cutting the diameter that the width of expecting cutter 140 directions of motion equals blank, and blank is expected that with cutting cutter 140 clamps fully by clip feed blade 141.
Put cutting material level, under the effect of cutting material bar 139 driving mechanisms, cut feed collet material mechanism and continue to the motion of the first die locality, blank is cut off; Put cutting material level, the elastic reset hold down gag is downward pressing clip flitch 80 in the process that blank is cut off, and its elastic force acts on the decomposing force that clip feed blade 141 makes progress greater than blank in the process of being cut off at blank, material folding plate 80 is cut material cutter 140 does not relatively have motion, the clip feed blade 141 that is fixed on the material folding plate 80 is cut the 140 nothing motions of material cutter relatively, and the holding part of clamping blank does not change.
Under the effect of cutting material bar 139 driving mechanisms, cutting blank that feed collet material mechanisms grip cut off puts and moves to the first die position and stop from cutting material level, punch die moves to the die direction, head part 136 top material folding plates 80, head part 136 can overcome the elastic force of elastic reset hold down gag, and material folding plate 80 is rotated relative to drive-connecting shaft, and material folding plate 80 drives clip feed blade fixed thereon 141 and rotates relative to drive-connecting shaft, make clip feed blade 141 cut material cutter 140 relatively and open, workpiece is poured in first die by punch die;
Workpiece is poured by punch die and cuts feed collet material mechanism in first die toward the feed entrance point motion, or punch die back moves after finishing the moulding first time of workpiece, head part 136 separates with material folding plate 80, material folding plate 80 moves downward fast under the elastic force effect of the gravity of material folding plate 80, clip feed blade 141 and elastic reset hold down gag and resets, clip feed blade 141 with cut the holding part that material cutter 140 forms the clamping blanks; Leave material folding plate 80 from head part 136 clip feed blade 141 is cut after material cutter 140 closures relatively to cutting feed collet material mechanism kinematic to the process of feed entrance point, the holding part of clamping blank is along the diameter of the width of cutting material cutter 140 directions of motion less than blank;
After punch die is returned to desired location, under the effect of cutting material bar 139 driving mechanisms, cuts feed collet material mechanism and move to feed entrance point from the first die position; So circulation.
Before blank is cut off and all keeping afterwards always and cut material cutter 140 directions of motion relation of meeting at right angles.
The method of work of upsetter comprises: die is rotated to the die of shaping position, the die of discharging position by the die of feed entrance point, after rotating to the die of its adjacent position, after promptly rotating 72 °, first driving cog 49 that second driving cog 50 on the disk 51 breaks away from the die socket 8, backstay 18 enters under the effect of spring 20 in the die socket 8, and die socket 8 stops operating; In the process of die socket 8 rotation, realize in the die workpiece from last operation backward the transmission of an operation and the die of discharging position move to feed entrance point, the die of feed entrance point moves to shaping position; Die socket 8 stops, charging ram 57 will be put in the die of the blank propelling feed entrance point that is clamped to feed entrance point from cutting material level by cutting material cutter and clip feed blade, workpiece in the corresponding die carries out the upsetting moulding to punch die to die direction motion and to it, and knock-pin 38 will eject that in type workpiece ejects in the die of position; Charging ram 57, punch die and knock-pin 38 finish corresponding actions and reset with backstay 18 under the effect of driving mechanism of the first goods of furniture for display rather than for use driving shaft 13 etc. with after die socket 8 separates, first driving cog, 49 engagements on second driving cog 50 on the disk 51 and the die socket 8, die socket 8 begins to rotate, so circulation.In the process of die socket 8 rotations, thimble 39 and friction slip 43 rotate synchronously with die socket 8, the spacing abutment 40 of thimble is not moved, thimble 39, friction slip 43 relative die sockets 8 keep static, friction slip 43 contacts with the spacing abutment 40 of thimble and produces force of sliding friction, 40 fricton-tight frictional force of the spacing abutment of 43 of thimble 39 and friction slips, thimble 39 and thimble.
As shown in Figure 6, as different from Example 1, the spacing abutment guiding mechanism of thimble comprises second bolt 100, stop collar 102; On body, be provided with the pilot hole (not shown) of the spacing abutment of thimble, on the spacing abutment 103 of thimble, be provided with and prevent that the spacing abutment 103 of thimble is relative to the spline plane 106 that body rotates and the emptiness avoiding hole (not shown) of second bolt 100, in pilot hole, be provided with the plane (not shown) that cooperates with the spline plane, spacing abutment 103 of thimble and pilot hole matched in clearance; Second bolt 100 is rotation clamping hex head end 101 away from an end of die socket 104, is the end of thread at second bolt 100 near the end that rotation clamping hex head end 101 is provided with positive stop lug boss 107, the second bolts 100 close die sockets 104; Stop collar 102 is fixed with body, is provided with the shoulder hole that cooperates with second bolt 100 and positive stop lug boss in stop collar 102, and the macropore 108 of shoulder hole is towards die socket 104 1 sides; The end of thread of second bolt 100 passes the spacing abutment 103 of thimble and extend in the emptiness avoiding hole of lead 105, the limited cover 102 of positive stop lug boss one end of second bolt 100 is kept out spacing, the other end is kept out spacing by body, spacing abutment 103 threaded engagement of the end of thread of second bolt 100 and thimble.When the length of workpiece changes, by rotating the rotation clamping hex head end 101 of second bolt 100,100 on second bolt rotates no axially-movable, the spacing abutment 103 of thimble has only axially-movable not have rotation, so the spacing abutment 103 of thimble is moved to the motion of die socket 104 directions or away from die socket 104 directions.The spacing abutment 103 of thimble is to the motion of die socket 104 directions, and the spacing abutment 103 of thimble shortens with the distance of die socket 104, and the distance that thimble 109 is inserted in die and the die socket 104 is elongated, and the length of workpiece shortens; The spacing abutment 103 of thimble is when moving away from die socket 104 directions, and the spacing abutment 103 of thimble is elongated with the distance of die socket 104, and the distance that thimble is inserted in die and the die socket 104 shortens, and the length of workpiece is elongated.
The number of die and punch die can be identical among the present invention, and die and punch die are corresponding one by one, only needs the upsetter among the embodiment of front is not designed pusher and do not need empty avoiding space or clearance position to get final product on the slide block greatly.
But the cavity die rotating device request for utilization among the present invention number is the cavity die rotating device in 87105260.1.
Claims (10)
1. cavity die rotating upsetter, comprise big slide block, be fixed on the die assembly on the big slide block, the big slide block driving mechanism that big slide block is moved back and forth, the die assembly, cut feed collet material mechanism, the workpiece ejecting mechanism makes die turn to the die indexing means of desired location, the die positioner that die is stopped at desired location, material jacking mechanism; The die assembly only comprises the die socket of the rotation of support relatively, circumferentially is evenly distributed on the die more than two or two in the die socket along die; It is characterized in that: be provided with and the fixing lead of die socket in the side of die socket away from die assembly, the position of corresponding each thimble is provided with chute on lead; Material jacking mechanism comprises that an end is installed in the die and die thimble one to one, is installed in the friction slip in the chute, with the fixing spacing abutment of thimble of body; Also be provided with the spacing abutment guiding mechanism of thimble of adjusting the distance between spacing abutment of thimble and the die socket; Only be provided with described workpiece ejecting mechanism, but the workpiece ejecting mechanism comprises the knock-pin of top thimble in the die position that workpiece is ejected; The position of corresponding knock-pin is provided with emptiness avoiding hole on the spacing abutment of thimble, and knock-pin is towards the external diameter of the emptiness avoiding hole one end aperture less than emptiness avoiding hole, and friction slip is greater than the aperture of emptiness avoiding hole; Thimble contacts by described friction slip with described friction slip away from an end of die socket and keeps out; Described friction slip contacts with the spacing abutment of thimble and is kept out by the spacing abutment of thimble away from an end of thimble.
2. a kind of cavity die rotating upsetter as claimed in claim 1, it is characterized in that: the spacing abutment guiding mechanism of thimble comprises and the fixing adjustment post of the spacing abutment of thimble, pass first adjustment part of adjusting post and second adjustment part, first bolt and two first and adjust nuts, be installed on first bolt and place first adjustment part and second adjustment part between stage clip; First adjustment part and body near die socket are fixed, adjust the post and the first adjustment part matched in clearance, second adjustment part away from die socket is fixed with the adjustment post, one end of first bolt is fixed on first adjustment part, the other end of first bolt pass second adjustment part and with the second adjustment part matched in clearance, adjust nut and be installed on first bolt and place the side of second adjustment part away from first adjustment part.
3. a kind of cavity die rotating upsetter as claimed in claim 1 is characterized in that: the spacing abutment guiding mechanism of thimble only comprise rotatable can not axially movable second bolt, stop collar; On body, be provided with the pilot hole of the spacing abutment of thimble, between the spacing abutment of pilot hole and thimble, be provided with the rotation preventive mechanism that prevents that the spacing abutment of thimble from rotating relative to body, matched in clearance between spacing abutment of thimble and pilot hole; Second bolt is the rotation bare terminal end away from an end of die socket, is provided with positive stop lug boss at second bolt near the rotation bare terminal end, and second bolt is the end of thread near an end of die socket; Stop collar and body are fixed, and are provided with the shoulder hole that cooperates with second bolt and positive stop lug boss in stop collar, and the macropore of shoulder hole is towards die socket one side; The end of thread of second bolt passes the spacing abutment of thimble, the spacing abutment threaded engagement of second bolt and thimble.
4. a kind of cavity die rotating upsetter as claimed in claim 1, it is characterized in that: the die positioner comprises the first goods of furniture for display rather than for use driving shaft, the driving mechanism of the first goods of furniture for display rather than for use driving shaft, be fixed on first goods of furniture for display rather than for use on the first goods of furniture for display rather than for use driving shaft, with the second fixing goods of furniture for display rather than for use axle of body, only be articulated in second goods of furniture for display rather than for use on the second goods of furniture for display rather than for use axle rotationally, backstay, with the fixing backstay guide pin bushing of body, second back-moving spring; Backstay comprises two small ends, small end towards die socket stretches in the die socket, pass guide pin bushing and on this small end, be provided with the installing hole of second goods of furniture for display rather than for use away from the small end of die socket, second back-moving spring is installed between guide pin bushing and backstay, one end of second goods of furniture for display rather than for use stretches in the installing hole of guide pin bushing, the other end of second goods of furniture for display rather than for use can with the first goods of furniture for display rather than for use butt.
5. as any described a kind of cavity die rotating upsetter of claim 1 to 4, it is characterized in that: the die indexing means comprises first driving cog that is arranged on the die socket border, be provided with the disk of second driving cog that meshes with first driving cog, the disk driving mechanism of driver plate rotation; The shared disk girth of second driving cog is disk girth and die number ratio.
6. a kind of cavity die rotating upsetter as claimed in claim 5, it is characterized in that: outside die socket, be provided with the die holder, be provided with spacing first end cap and second end cap in die case of die socket at the two ends of die socket, first end cap is near die assembly, first end cap is fixed on the die holder, and second end cap is fixed on the die socket and is limited in the die holder; Be provided with the empty avoiding through hole of empty avoiding disk in the position of the corresponding disk of die holder
7. as any described a kind of cavity die rotating upsetter of claim 1 to 4, it is characterized in that: cut feed collet material mechanism, comprise and cut the material bar, the reciprocating material bar driving mechanism of cutting of material bar is cut in driving, be fixed on and cut cutting the material cutter and cutting the feeding clip mechanism that the material cutter cooperates the clamping blank on the material bar, feeding clip mechanism comprises clip feed blade, cut the holding part that material cutter and clip feed blade complement each other to form the clamping blank, make clip feed blade and cut the material cutter and open, put blank and open mechanism at the clip feed blade of desired location; Also be provided with make clip feed blade cut relatively the material cutter reset closed form the holding part of clamping blank, the spacing resetting-mechanism of the feeding clip mechanism of restriction clip feed blade motion in the process that blank is cut off; At feed entrance point, the holding part of clamping blank is along the diameter of the width of cutting the material cutter direction of motion greater than blank; Put cutting material level, clip feed blade is cut the material cutter relatively and is maintained fixed, and the holding part of clamping blank does not change.
8. the method for work of a cavity die rotating upsetter as claimed in claim 1 is characterized in that method of work comprises: in the process of die socket rotation, thimble and die socket rotate synchronously, and thimble is static with respect to the die socket maintenance, and the thimble abutment is not moved.
9. the method for work of cavity die rotating upsetter as claimed in claim 8 is characterized in that: also be provided with the spacing abutment guiding mechanism of thimble of adjusting the distance between spacing abutment of thimble and the die socket; Be provided with and the fixing lead of die socket in the side of die socket away from die assembly, the position of corresponding each thimble is provided with chute on lead, friction slip is installed in chute, and described thimble contacts with friction slip away from an end of die socket and is kept out spacing by it; Spacing abutment of thimble and body are fixed, and the face that friction slip contacts with the spacing abutment of thimble is greater than the aperture of emptiness avoiding hole, and described friction slip contacts with the spacing abutment of thimble and kept out by the spacing abutment of thimble away from an end of thimble;
Method of work comprises: in the process of die socket rotation, thimble and friction slip and die socket rotate synchronously, the spacing abutment of thimble is not moved, thimble, the relative die socket of friction slip keep static, friction slip contacts with the spacing abutment of thimble and produces force of sliding friction, fricton-tight frictional force between thimble and friction slip, between thimble and the spacing abutment of thimble.
10. the method for work of cavity die rotating upsetter as claimed in claim 9, it is characterized in that: the number of die manys two than the number of punch die, comprises the die of die, discharging position of feed entrance point and shaping position and punch die die one to one; Be provided with blank propulsive mechanism in the die that blank is advanced feed entrance point at the corresponding feed entrance point of punch die one side, on the big slide block of punch die one side, be provided with empty avoiding and cut the empty avoiding space of feed collet material mechanism, blank propulsive mechanism, the corresponding discharging position discharging clearance position when being provided with workpiece and being ejected; Only be provided with described workpiece ejecting mechanism in the discharging position;
Method of work comprises:
Die is rotated to the die of shaping position, the die of discharging position by the die of feed entrance point, after rotating to the die of its adjacent position, after promptly rotating the angle of 360 °/die number, stop operating at desired location at die positioner and the recessed die holder of die indexing means acting in conjunction; In the process of die socket rotation, realize in the die workpiece from last operation backward the transmission of an operation and the die of discharging position move to feed entrance point,, the die of feed entrance point moves to shaping position; Die socket stops, the blank propulsive mechanism will be cut feed collet material mechanisms grip in the die of the blank propelling feed entrance point of feed entrance point, workpiece in the corresponding die carries out the upsetting moulding to punch die to die direction motion and to it, and the workpiece ejecting mechanism will eject that in type workpiece ejects in the die of position; After blank propulsive mechanism, punch die and ejecting mechanism are finished corresponding actions and resetted, rotate the angle of 360 °/die number again at the acting in conjunction lower cavity die of die detent mechanism and die indexing means, so circulation.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201010124747XA CN101817054B (en) | 2010-03-12 | 2010-03-12 | Cavity die rotating upsetter and operating method thereof |
PCT/CN2010/074425 WO2011109974A1 (en) | 2010-03-12 | 2010-06-24 | Female die rotation upsetting press and operating method thereof |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201010124747XA CN101817054B (en) | 2010-03-12 | 2010-03-12 | Cavity die rotating upsetter and operating method thereof |
Publications (2)
Publication Number | Publication Date |
---|---|
CN101817054A true CN101817054A (en) | 2010-09-01 |
CN101817054B CN101817054B (en) | 2012-03-07 |
Family
ID=42652412
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201010124747XA Expired - Fee Related CN101817054B (en) | 2010-03-12 | 2010-03-12 | Cavity die rotating upsetter and operating method thereof |
Country Status (2)
Country | Link |
---|---|
CN (1) | CN101817054B (en) |
WO (1) | WO2011109974A1 (en) |
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103381461A (en) * | 2013-08-09 | 2013-11-06 | 杨东佐 | Die bi-direction rotation upsetter and work method |
CN103394620A (en) * | 2013-08-09 | 2013-11-20 | 杨东佐 | One-way rotation upsetter and working method thereof |
CN103394621A (en) * | 2013-08-09 | 2013-11-20 | 杨东佐 | One-way rotation thimble adjustable upsetter and working method thereof |
CN103418686A (en) * | 2013-08-01 | 2013-12-04 | 宁波市鄞州风名工业产品设计有限公司 | Punching die |
CN103418685A (en) * | 2013-08-01 | 2013-12-04 | 宁波市鄞州风名工业产品设计有限公司 | Stamping die |
WO2016034151A1 (en) * | 2014-09-03 | 2016-03-10 | 杨东佐 | Clamp die upsetting machine and working method |
CN105458123A (en) * | 2014-09-03 | 2016-04-06 | 东莞市石西智能机器制造有限公司 | Upsetting forging press and operating method |
CN107617884A (en) * | 2016-12-09 | 2018-01-23 | 西安麦特沃金液控技术有限公司 | Once more former and metal ball forming machines |
CN109570421A (en) * | 2018-12-15 | 2019-04-05 | 浙江雅晶电子有限公司 | A kind of automatic flattening machine of TO tube socket |
CN110315019A (en) * | 2019-06-01 | 2019-10-11 | 合肥天铭机电科技有限公司 | A kind of liquid cooling plate rushes pier cutting system |
CN114378228A (en) * | 2021-11-01 | 2022-04-22 | 乐清金禾精密机械有限公司 | Shaft pin blanking and forming integrated machine |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6310036A (en) * | 1986-06-30 | 1988-01-16 | Asahi Okuma Ind Co Ltd | Parts former |
US5081732A (en) * | 1991-02-25 | 1992-01-21 | Steinhilber Wilhelm A | Rotary heading machine |
CN1017783B (en) * | 1987-08-20 | 1992-08-12 | 东北重型机械学院 | Multi-station die rotary high-speed cold header |
CN2737485Y (en) * | 2004-09-30 | 2005-11-02 | 杨东佐 | Cold upsetter die holder structure and cold upsetter |
CN201659230U (en) * | 2010-03-12 | 2010-12-01 | 杨东佐 | Concave mould rotation upsetting machine |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE2919346A1 (en) * | 1979-05-14 | 1981-04-02 | Gebr. Hilgeland, 5600 Wuppertal | Cold forging press for bolts - has dies mounted in rotatable cylinder driven with intermittent motion from crankshaft |
JPS59147734A (en) * | 1983-02-14 | 1984-08-24 | Hiroyasu Shiokawa | Upsetting machine |
CN201102053Y (en) * | 2007-10-19 | 2008-08-20 | 杨东佐 | Hammer down shaping apparatus |
-
2010
- 2010-03-12 CN CN201010124747XA patent/CN101817054B/en not_active Expired - Fee Related
- 2010-06-24 WO PCT/CN2010/074425 patent/WO2011109974A1/en active Application Filing
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6310036A (en) * | 1986-06-30 | 1988-01-16 | Asahi Okuma Ind Co Ltd | Parts former |
CN1017783B (en) * | 1987-08-20 | 1992-08-12 | 东北重型机械学院 | Multi-station die rotary high-speed cold header |
US5081732A (en) * | 1991-02-25 | 1992-01-21 | Steinhilber Wilhelm A | Rotary heading machine |
CN2737485Y (en) * | 2004-09-30 | 2005-11-02 | 杨东佐 | Cold upsetter die holder structure and cold upsetter |
CN201659230U (en) * | 2010-03-12 | 2010-12-01 | 杨东佐 | Concave mould rotation upsetting machine |
Non-Patent Citations (2)
Title |
---|
《锻压机械》 19951231 王者静 一种新型多工位凹模回转高速冷墩机 39-40 全文 , 第6期 2 * |
《青岛建筑工程学院学报》 19891231 王德祥等 三冲程凹模回转高速自动冷墩机的研究 1-6 1-10 第10卷, 第3期 2 * |
Cited By (17)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103418686A (en) * | 2013-08-01 | 2013-12-04 | 宁波市鄞州风名工业产品设计有限公司 | Punching die |
CN103418685A (en) * | 2013-08-01 | 2013-12-04 | 宁波市鄞州风名工业产品设计有限公司 | Stamping die |
CN103381461A (en) * | 2013-08-09 | 2013-11-06 | 杨东佐 | Die bi-direction rotation upsetter and work method |
CN103394620A (en) * | 2013-08-09 | 2013-11-20 | 杨东佐 | One-way rotation upsetter and working method thereof |
CN103394621A (en) * | 2013-08-09 | 2013-11-20 | 杨东佐 | One-way rotation thimble adjustable upsetter and working method thereof |
CN103394621B (en) * | 2013-08-09 | 2015-06-17 | 杨东佐 | One-way rotation thimble adjustable upsetter and working method thereof |
CN103381461B (en) * | 2013-08-09 | 2015-07-29 | 杨东佐 | A kind of die bidirectional rotation upsetter and method of work |
CN105458123A (en) * | 2014-09-03 | 2016-04-06 | 东莞市石西智能机器制造有限公司 | Upsetting forging press and operating method |
WO2016034151A1 (en) * | 2014-09-03 | 2016-03-10 | 杨东佐 | Clamp die upsetting machine and working method |
CN107617884A (en) * | 2016-12-09 | 2018-01-23 | 西安麦特沃金液控技术有限公司 | Once more former and metal ball forming machines |
CN107617884B (en) * | 2016-12-09 | 2024-04-26 | 西安麦特沃金液控技术有限公司 | One-time multi-forming equipment and metal ball forming machine |
CN109570421A (en) * | 2018-12-15 | 2019-04-05 | 浙江雅晶电子有限公司 | A kind of automatic flattening machine of TO tube socket |
CN109570421B (en) * | 2018-12-15 | 2023-11-28 | 浙江雅晶电子有限公司 | TO tube seat automatic flattening machine |
CN110315019A (en) * | 2019-06-01 | 2019-10-11 | 合肥天铭机电科技有限公司 | A kind of liquid cooling plate rushes pier cutting system |
CN110315019B (en) * | 2019-06-01 | 2024-01-30 | 合肥本木自动化科技有限公司 | Liquid cooling plate punching pier cutting system |
CN114378228A (en) * | 2021-11-01 | 2022-04-22 | 乐清金禾精密机械有限公司 | Shaft pin blanking and forming integrated machine |
CN114378228B (en) * | 2021-11-01 | 2024-05-03 | 乐清金禾精密机械有限公司 | Shaft pin blanking and forming integrated machine |
Also Published As
Publication number | Publication date |
---|---|
CN101817054B (en) | 2012-03-07 |
WO2011109974A1 (en) | 2011-09-15 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101817054B (en) | Cavity die rotating upsetter and operating method thereof | |
CN105880448B (en) | A kind of wire rod upsetter and method of work with parallel-moving type integration main mould component | |
CN201659230U (en) | Concave mould rotation upsetting machine | |
CN202200098U (en) | Overturning and clamping mechanism | |
CN103252640A (en) | Semi-automatic set screw assembling machine | |
CN103381468B (en) | Material cutting and clamping device of upsetting machine and working method | |
CN103433740A (en) | Device for milling, bending and forming spring hook | |
CN105382134B (en) | A kind of numerical control ejection wire rod upsetter and method of work | |
CN101817052B (en) | Multi-stage female die returning jolting machine and operating method | |
CN205443628U (en) | Column casing type sewing machine's thread cutting mechanism | |
CN105499479A (en) | Wire feeding mechanism and feeding method | |
CN101797614B (en) | Shearing and clamping device for upsetter and shearing and clamping operating method | |
CN110479931A (en) | A kind of clutch type pneumatic paddle fixture and its space 6DOF position regulator for automating roller mill | |
CN202432931U (en) | Linear numerical control automatic lead inserting machine for firecracker | |
US2376654A (en) | Art of making grooved pins and the like | |
CN201632572U (en) | Multi-station die revolving jolting machine | |
CN202052894U (en) | Automatic cold heading machine of tail hole | |
CN207372219U (en) | Accurate cold-heading forming machine | |
CN101543964B (en) | Feed gear for instrument lathe | |
CN110125296B (en) | Processing equipment and processing method of gasification furnace body | |
CN103394620B (en) | One-way rotation upsetter and working method thereof | |
CN104526441A (en) | Automatic positioning transport device | |
CN109500320B (en) | Spring forming equipment on cotton thread | |
CN201632592U (en) | Blank cropping and holding device for jolting machine | |
CN103394621B (en) | One-way rotation thimble adjustable upsetter and working method thereof |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120307 |