CN204770423U - Forge and press mould and have forging and pressing system of this forging and pressing mould - Google Patents
Forge and press mould and have forging and pressing system of this forging and pressing mould Download PDFInfo
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- CN204770423U CN204770423U CN201520517026.3U CN201520517026U CN204770423U CN 204770423 U CN204770423 U CN 204770423U CN 201520517026 U CN201520517026 U CN 201520517026U CN 204770423 U CN204770423 U CN 204770423U
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Abstract
The utility model discloses a forge and press mould and have forging and pressing system of this forging and pressing mould belongs to mould technical field, has solved the current forging and pressing mould process unstability of unloading, is difficult to realize automated processing's technical problem, the utility model discloses the forging and pressing mould, including cope match -plate pattern, lower bolster, drift and die, the die comprises two half modules, the below at the cope match -plate pattern is established to the drift, be equipped with the die carrier on the lower bolster, being equipped with first through -hole and two first spouts of establishing on first through -hole pore wall that the aperture diminishes from the top down gradually on the die carrier, being equipped with on the die carrier respectively and breathing out husband's modules with two of two first spout sliding connection, husband's module fixed connection are breathed out with two respectively to two half modules, and the below of die carrier is equipped with the shedding mechanism, the shedding mechanism includes a pair ofly to be fixed on the die carrier and downwardly extending's panel, establishes the top mould mechanism that ejector pin and control ejector pin between two panels go up and down, the up end of ejector pin and the lower end face contaction of two kazakhstan husband's modules.
Description
Technical field
The utility model relates to forge die and has the forging and stamping system of this forge die.
Technical background
Forge die can carry out processing and forming to high temperature workpiece, is widely used in industrial production.Forge die controls drift motion by hydraulic machine and carries out punching press to the high temperature workpiece be placed in die or extruding makes Workpiece shaping, device for discharging in existing forge die generally produces to module the discharging that elastic force realizes workpiece by stage clip or other elastic constructions, but the device for discharging of elastic construction due to stripping force too small, often there will be workpiece and can be stuck in die the phenomenon being difficult to smooth discharging, when workpiece is stuck in die, workman is needed manually to assist discharging with instrument, discharge process is unstable, be difficult to realize automation processing, the operating efficiency of mould cannot be improved.
Utility model content
The utility model provides a kind of forge die, solves existing forge die discharge process unstable, is difficult to the technical problem realizing automation processing.
For solving the problems of the technologies described above, the utility model adopts following technical scheme:
Forge die, comprise cope match-plate pattern, lower bolster, drift and die, described die is made up of two pieces of half modules, described drift is located at the below of cope match-plate pattern, described lower bolster is provided with mould bases, described mould bases is provided with the first through hole and two the first chutes be located on the first through hole hole wall that aperture diminishes from the top down gradually, mould bases is provided with the two pieces of Hough modules be connected with two the first slide respectively, two pieces of half modules respectively with two pieces of Hough modules are fixedly connected with, the below of mould bases is provided with shedding mechanism, described shedding mechanism comprises and to be fixed on for a pair on mould bases and to the panel of downward-extension, be located at the push rod between two panels and control the mold pushing mechanism of push rod lifting, the upper surface of push rod contacts with the lower surface of two pieces of Hough modules, mold pushing mechanism comprises supporting plate, the extension spring that pair of sliding is connected to the slide block on supporting plate and connects on two pieces of slide blocks, cope match-plate pattern is provided with a pair connecting rod to downward-extension, two connecting rods are fixedly connected with supporting plate, two pieces of slide blocks are respectively equipped with tourelle, two panels are respectively equipped with inclined-plane, two tourelles roll across two inclined-planes respectively from the top down and control two pieces of slide blocks and draw close, two tourelles roll across two inclined-planes respectively from bottom to top and control two pieces of slide blocks separately.
Preferred technical scheme, two panels are located between two tourelles or two tourelles are located between two panels.
Further preferred version, respectively the second through hole on two pieces of slide blocks, described tourelle comprises the roller being located at locating dowel in the second through hole and being rotationally connected with locating dowel.
Preferred technical scheme, described Hough module is provided with installing hole, mounting blocks is provided with in described installing hole, the hole wall of the first through hole is provided with two the second chutes, one end of mounting blocks is stretched out installing hole and is connected with the second slide, the other end connection side of mounting blocks is loosed core, and mounting blocks and installing hole are slidably connected and drive the head end of side core-pulling to stretch into or stretch out the die cavity of die.
Preferred technical scheme, the side of described die is provided with side shaft core, the head end of described side core-pulling stretches into the die cavity of die from die side, the lateral surface of two pieces of Hough modules is provided with the installing hole of several through first through holes, be respectively equipped with mounting blocks in described installing hole, the hole wall of mounting blocks and installing hole is slidably connected, and the hole wall of described first through hole is provided with several the second chutes, one end that mounting blocks stretches out installing hole is connected with the second slide, and described side core-pulling is fixedly connected with mounting blocks.
Preferred technical scheme, described mould bases both sides are respectively equipped with the fixed bar upwards extended, two fixed bars are respectively equipped with caging bolt and back-moving spring, knockout plate is provided with between caging bolt and back-moving spring, described knockout plate and two fixed bars are slidably connected, knockout plate is provided with the dnockout hole passed through for drift, passes through to stop the workpiece be stuck on drift.
Further preferred version, described lower bolster is provided with column, described column upper end is rotationally connected bull stick, the head end of bull stick is provided with hopper, described hopper is positioned at immediately below dnockout hole, and the junction of bull stick and column is provided with torsion spring, and described cope match-plate pattern is provided with push rod, the lower end of described push rod is provided with voussoir, and the wedge surface of described voussoir is located at directly over bull stick.
Preferred technical scheme, described lower bolster is provided with insert, two inserts are fixed in insert, insert is provided with groove, described push rod comprises transverse slat and montant, and described push rod comprises transverse slat and montant, and described lower bolster is provided with groove, described transverse slat is in a groove accommodating, is provided with stage clip between the lower surface of described transverse slat and the bottom surface of groove.
Preferred technical scheme, the upper surface of two pieces of Hough modules is respectively equipped with groove, briquetting is respectively equipped with in two grooves, two briquettings are respectively by being bolted on the bottom surface of two grooves, two pieces of half modules are respectively equipped with draw-in groove, two pieces of briquettings are respectively equipped with the card article protruded downwards, the draw-in groove on the card article difference clamping two pieces of half modules on two pieces of briquettings.
The invention also discloses drop stamping system, comprise the forge die described in above-mentioned any one, described forging and stamping system also comprises workpiece attemperating unit, described workpiece attemperating unit comprises frame, be located at the slideway in frame, first cylinder, second cylinder, magnetic valve, temperature-detecting device, falling control device and control module, control module is connected with magnetic valve, the piston rod of described first cylinder and the second cylinder stretches into slideway respectively and forms the detection zone holding workpiece, described temperature-detecting device comprises temperature measurer and flip flop equipment, described flip flop equipment comprises probe and triggers the trigger switch of temperature measurer work, described probe is rotatably connected in frame, detection zone is stretched in one end of probe, the other end of probe is located at above trigger switch, the striker plate that described falling control device comprises the 3rd cylinder and is connected with the piston rod of the 3rd cylinder, first cylinder, second cylinder is connected with magnetic valve respectively with the 3rd cylinder, temperature signal is sent to control module and controls the outlet that the 3rd Telescopic-cylinder driving striker plate opens or closes slideway lower end by temperature measurer.
The beneficial effects of the utility model are:
1, two pieces of slide blocks are in the process of carrying out moving up and down with cope match-plate pattern, by the cooperation on two tourelles and two pieces of inclined-planes, two tourelles roll across two inclined-planes respectively from the top down and control two pieces of slide blocks and draw close, the spacing of two pieces of slide blocks is made to be less than the diameter of push rod lower end, thus jack-up push rod when two pieces of slide blocks are moved upward with cope match-plate pattern, two tourelles roll across two inclined-planes respectively from bottom to top and control two pieces of slide blocks separately, until the spacing of two pieces of slide blocks is greater than the diameter of push rod lower end, thus make push rod lose the support of two pieces of slide blocks and automatically drop, realize two pieces of Hough modules and drive two pieces of half module automatic open-closes, workpiece successfully can be taken out of die by drift, realize automatic discharging, improve percent of automatization and the production efficiency of forge die,
2, because supporting plate connects cope match-plate pattern by two connecting rods, therefore, during two pieces of slide block jack-up push rods, there is larger thrust, when two pieces of half modules separate, be not easy the phenomenon occurring snap gauge because of workpiece deformation, thus improve the stability of forge die discharging;
3, two pieces of Hough modules coordinate with the first slide on mould bases, and slip precision is high, further improves the stability of the workpiece demoulding;
Underproof for temperature workpiece can automatically be screened by workpiece attemperating unit by 4, drop stamping system, ensure that the workpiece temperature entering forge die is qualified, substantially increases the qualification rate of workpiece.
These features of the present utility model and advantage will detailed description of the invention below, exposure detailed in accompanying drawing.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the utility model is described further:
Fig. 1 is the structural representation of forge die in the utility model embodiment;
Fig. 2 be in Fig. 1 A to top view;
Fig. 3 be in Fig. 1 B-B to sectional view;
Fig. 4 is the side view of workpiece attemperating unit in the utility model embodiment;
Fig. 5 is the top view of workpiece attemperating unit in the utility model embodiment.
Detailed description of the invention
The technical scheme of accompanying drawing to the utility model embodiment below in conjunction with the utility model embodiment is explained and illustrated, but following embodiment is only preferred embodiment of the present utility model, and not all.Based on the embodiment in embodiment, those skilled in the art under the prerequisite not making creative work obtain other embodiments, all belong to protection domain of the present utility model.
Embodiment 1:
As depicted in figs. 1 and 2, forge die, comprise cope match-plate pattern 1, lower bolster 2, drift 1a and die 1b, die 1b is made up of two pieces of half modules, drift 1a is located at the below of cope match-plate pattern 1, lower bolster 2 is provided with mould bases 3, mould bases 3 is provided with the first through hole 301 and two the first chutes 302 be located on the first through hole 301 hole wall that aperture diminishes from the top down gradually, lower bolster 2 is provided with through hole 2a, first through hole 301 is communicated with through hole 2a, mould bases 3 is provided with the two pieces of Hough modules 4 be slidably connected with two the first chutes 302 respectively, two pieces of half modules respectively with two pieces of Hough modules 4 are fixedly connected with, two pieces of half modules are located between two pieces of Hough modules 4, first chute 302 preferably adopts T-slot, two pieces of Hough modules 4 are provided with a T-shaped projection 4a coordinated with the first chute 302, two the first chutes 302 are positioned at one through in the plane of the first through hole 301 hole heart, T-shaped projection 4a and being slidably matched of the first chute 302 realize two pieces of high-precision slips on mould bases 3 of Hough module 4, when two pieces of Hough module 4 upward slidings, because the first through hole 301 aperture becomes large gradually, two pieces of Hough modules 4 will be separated gradually, when two pieces of Hough module 4 slide downward, because the first through hole 301 aperture diminishes gradually, two pieces of Hough modules 4 will be drawn close until two pieces of half modules close up gradually, two the first chutes 302 are positioned at one through in the plane of the first through hole 301 hole heart, to make the folding that two pieces of Hough modules 4 can be symmetrical.
The upper surface of two pieces of Hough modules 4 is respectively equipped with groove 401, briquetting 402 is respectively equipped with in two grooves 401, two briquettings 402 are respectively by being bolted on the bottom surface of two grooves 401, two pieces of half modules are respectively equipped with draw-in groove 1c, two pieces of briquettings 402 are respectively equipped with the card article 402a protruded downwards, draw-in groove 1c on card article 402a difference clamping two pieces of half modules on two pieces of briquettings 402, draw-in groove 1c is the semi-circular groove of the outer wall distribution formation along half module, card article 402a is protruding with the semi-circular of semi-circular fit depressions, which increase the clamping area of card article 402a and draw-in groove 1c, improve the strength and stability of card article 402a and draw-in groove 1c clamping, for the ease of processing, the shape of two grooves 401 and two briquettings 402 is also arranged to semi-circular accordingly.Two pieces of half modules are fixedly connected with two pieces of Hough modules 4 as connector by two pieces of briquettings 402 respectively, simple and reliable for structure and install also very easy for installation, two pieces of Hough modules 4 slide up and down along the first chute 302, two pieces of Hough modules 4 are separated or engages, and drive two pieces of half modules to separate or engage.
The below of mould bases 3 is provided with shedding mechanism 5, shedding mechanism 5 comprises and is fixed on mould bases 3 for a pair and to the panel 501 of downward-extension, be located at the push rod 502 between two panels 501 and control the mold pushing mechanism 503 of push rod 502 lifting, the upper surface of push rod 502 contacts with the lower surface of two pieces of Hough modules 4, mold pushing mechanism 503 comprises supporting plate 5031, the extension spring 505 that pair of sliding is connected to the slide block 5032 on supporting plate 5031 and connects on two pieces of slide blocks 5032, cope match-plate pattern 1 is provided with a pair connecting rod 101 to downward-extension, two connecting rods 101 are fixedly connected with supporting plate 3, cope match-plate pattern 1 drives supporting plate 3 to pump, two pieces of slide blocks 5012 are respectively equipped with tourelle, two panels 501 are respectively equipped with inclined-plane 501a, by the elastic pulling force effect of extension spring 505, the rolling surface of two tourelles is made to be pressed against on the inclined-plane 501a of two panels 501 respectively, two inclined-plane 501a are symmetrical arranged with the axle center of push rod 502, V-arrangement angle is formed between two inclined-plane 501a, two tourelles roll across two inclined-plane 501a respectively from the top down and control two pieces of slide blocks 5032 and draw close, when cope match-plate pattern 1 moves to bottom dead centre, the upper level of two pieces of slide blocks 5012 is lower than the lower surface height of push rod 502, the spacing of two pieces of slide blocks 5032 is less than the diameter of push rod 502 lower end, thus make two pieces of slide blocks 5032 be positioned at immediately below push rod 502, when cope match-plate pattern 1 is up, two pieces of slide blocks 5032 are against the lower surface of push rod 502, promote push rod 502 to rise, thus drive two pieces of Hough module 4 upward slidings, because the aperture of the first through hole 301 diminishes from the top down gradually, first chute 302 is located on the hole wall of the first through hole 301, therefore, separate gradually while two pieces of Hough module 4 upward slidings, two pieces of half modules are driven by two pieces of Hough modules 4 and also separate gradually, drift 1a coordinates with cope match-plate pattern 1 activity, drift 1a has the up and down gap of 5mm, drift 1a two pieces of Hough modules 4 separately after take die 1b out of with cope match-plate pattern 1 being about to workpiece again, realize the workpiece lifted again after two pieces of Hough modules 4 are first opened in die 1b, prevent drift 1a and die 1b from damaging, in the process, two tourelles roll across two inclined-planes respectively from bottom to top and control two pieces of slide blocks separately, until the spacing of two pieces of slide blocks is greater than the diameter of push rod lower end, thus make that push rod loses the support of two pieces of slide blocks and gravitate drops automatically, two pieces of slide blocks 5032 and two pieces of half modules close up reset again, thus automatically complete the discharging of die 1b.。
Two panels 501 are located between two tourelles or two tourelles are located between two panels 501.If two panels 501 are located between two tourelles, then inclined-plane 501a is located at panel 501 and deviates from the side of push rod, inclined-plane 501a; If two tourelles are located between two panels 501, then the rolling surface of tourelle is pressed against the side of panel 501 towards push rod, and accordingly, inclined-plane 501a is located at panel 501 towards on the side of push rod.
Difference the second through hole 5032a on two pieces of slide blocks 5032, tourelle comprises the roller 504 being located at locating dowel in the second through hole 5032a and being rotationally connected with locating dowel, locating dowel is located on the hole wall of the second through hole 5032a, the two ends of roller 504 are rotationally connected two locating dowels respectively, due to the effect of extension spring 505, roller 504 is pressed against on inclined-plane 501a, and the spacing of two pieces of slide blocks 5032 changes with the change of inclined-plane 501a.
Mould bases 3 both sides are respectively equipped with the fixed bar 801 upwards extended, two fixed bars 801 are respectively equipped with caging bolt 802 and back-moving spring 803, knockout plate 804 is provided with between caging bolt 802 and back-moving spring 803, knockout plate 804 and two fixed bars 801 are slidably connected, knockout plate 804 is provided with the dnockout hole 8041 passed through for drift 1a, dnockout hole 8041 stops the workpiece be stuck on drift 1a to pass through, because drift 1a carries out extruding to complete forging and stamping operation to workpiece, workpiece will be attached to difficulty or ease on drift 1a and come off, the workpiece be attached on drift is stoped to pass through by dnockout hole 8041, workpiece is hit down by knockout plate 804, so that drift 1a forges and presses rapidly next time.
Lower bolster 2 is provided with column 201, column 201 upper end is rotationally connected bull stick 202, the head end of bull stick 202 is provided with hopper 203, hopper 203 is positioned at immediately below dnockout hole 8041, for catching the workpiece hit down by knockout plate 804, the junction of bull stick 202 and column 201 is provided with torsion spring, cope match-plate pattern 1 is provided with push rod 204, the lower end of push rod 204 is provided with voussoir, the wedge surface of voussoir is located at directly over bull stick 202, the face of cylinder that the wedge surface of voussoir moves downward contact bull stick 202 directly can promote bull stick 202 and rotate, more smooth and easy in order to make bull stick 202 rotate, bull stick 202 arranges the cylinder 2021 be rotationally connected with bull stick 202, cylinder 2021 is located at immediately below the wedge surface of the voussoir of push rod 204, cylinder 2021 can rotate, when the wedge surface of voussoir promotes cylinder 2021, produce less frictional force, when cope match-plate pattern 1 is descending, the wedge surface contact cylinder 2021 of the voussoir on push rod 204, bull stick 202 is pushed open, hopper 203 is driven to move, thus drift 1a is forged and pressed smoothly, when cope match-plate pattern is up, workpiece is attached on drift 1a and is taken out of die 1b by drift 1a, drift 1a rises between hopper 203 and knockout plate 804, now, the wedge surface of the voussoir on push rod 204 is separated with the surface of bull stick 202 or cylinder 2021, bull stick 202 is received torsion spring effect revolution and is resetted, hopper 203 is positioned at immediately below dnockout hole 8041 again, cope match-plate pattern 1 continues to drive drift 1a up, until drift 1a is through dnockout hole 8041, automatically hopper 203 is fallen into by the workpiece that knockout plate 804 is hit down, when on lower bolster 1, once descending drive bull stick 202 rotates, workpiece in hopper 203 is taken out.
In order to carry out side direction processing to workpiece, Hough module 4 be provided with installing hole 601, mounting blocks 602 is provided with in installing hole 601, the hole wall of the first through hole 301 is provided with two the second chutes 303, one end of mounting blocks 602 stretches out installing hole 601 and the second chute 303 is slidably connected, the other end connection side of mounting blocks 602 looses core 6, mounting blocks 602 and installing hole 601 are slidably connected and drive the head end of side core-pulling 6 to stretch into or stretch out the die cavity of die 1b, side core-pulling 6 and mounting blocks 601 are bolted to connection, the quantity of side core-pulling sets according to the actual processing needs of mould, the quantity of side core-pulling generally adopts two, accordingly, second chute 303, the quantity of installing hole 601 and mounting blocks 602 is also two, two the second chutes 303 are positioned at one through in the plane of the first through hole 301 hole heart, preferably the plane at two the first chute 302 places and the plane at two the second chute 303 places orthogonal, during two pieces of Hough module 4 slide downward, two mounting blocks 602 also upward sliding, because the first through hole 301 aperture diminishes gradually, two mounting blocks 602 move respectively near the direction of the first through hole 301 hole heart, side shaft core 6 is driven to stretch in the die cavity of die 1b respectively, during two pieces of Hough module 4 upward slidings, two mounting blocks 602 also upward sliding, because the first through hole 301 aperture becomes large gradually, two mounting blocks 602 move respectively to the direction away from the first through hole 301 hole heart, side shaft core 6 is driven to stretch out the die cavity of die 1b respectively, thus realize side shaft core 6 and extract out smoothly in workpiece discharge process.
As shown in figures 1 and 3, in order to process workpiece lower end, loose core under the below of die 1b is provided with 7 and under to loose core frock 701, under loose core 7 and under frock 701 of loosing core be located between two pieces of Hough modules 4, under loose core frock 701 comprise with under loose core 7 the support bar 7011 that is fixedly connected with of lower end and two cylinders 7012 being located at down 7 both sides of loosing core respectively, under frock 701 of loosing core also comprise the cover 7013 of loosing core that to be tightly connected down with die 1b lower end, under loose core and 7 pass down the inner chamber that cover 7013 of loosing core stretches into die 1b from bottom to top, two cylinders 7012 are rotationally connected with two pieces of Hough modules 4 respectively, the upper surface of support bar 7011 has two domatic 7011a, two domatic 7011a form V-arrangement angle, the cylinder of two cylinders 7012 contacts with two domatic 7011a respectively, when two Hough modules 4 are separated, drive two cylinders 7012 separately, two cylinders 7012 extrude downwards two domatic 7011a, thus loose core under support bar 7011 is driven and 7 to move downward, make down to loose core and 7 to extract out smoothly in workpiece discharge process.
Lower bolster 2 is provided with insert 506, two inserts 503 are fixed in insert 506, insert 506 is provided with groove 5061, push rod 502 comprises transverse slat 5021 and montant 5022, transverse slat 5021 is contained in groove 5061, transverse slat 5021 is provided with the blind hole 502a stretching into montant 5022, blind hole 502a is stretched in the lower end of support bar 7011, push rod 502 arranges blind hole 502a, make push rod 502 can not hinder moving up and down of support bar 7011, push rod 502 and support bar 7011 coordinate compact, stage clip 507 is provided with between the lower surface of transverse slat 5021 and the bottom surface of groove 5061, when two pieces of Hough modules 4 are in minimum point under gravity, transverse slat 5021 is subject to the elastic force effect of stage clip 507 and makes the upper surface of transverse slat 5021 be adjacent to the lower surface of two pieces of Hough modules 4, thus when making two pieces of slide block 5031 jack-up push rods 502, two pieces of Hough modules 4 are also lifted simultaneously, in addition, when two pieces of slide blocks 5031 separately make push rod 502 fall because of Action of Gravity Field, stage clip 507 also serves cushioning effect, prevent push rod 502 from directly clashing into the bottom surface of groove 5061.
Embodiment 2:
As shown in Figure 4 and Figure 5, be provided with the forging and stamping system of the forge die described in above-described embodiment, also comprise workpiece attemperating unit 9, workpiece attemperating unit 9 is located at the side of forge die, workpiece attemperating unit 9 comprises frame 901, be located at the slideway 902 in frame 901, first cylinder 903, second cylinder 904, magnetic valve, temperature-detecting device 905, falling control device 906 and control module, control module is connected with magnetic valve, first cylinder 903 is connected with magnetic valve respectively with the second cylinder 904, control module is single-chip microcomputer, the piston rod of the first cylinder 903 and the second cylinder 904 stretches into slideway respectively and forms the detection zone 902a holding workpiece, temperature-detecting device 905 comprises temperature measurer 9051 and flip flop equipment 9052, flip flop equipment 9052 comprises probe 9052a and triggers the trigger switch 9052b of temperature measurer 9051 work, probe 9052a is rotatably connected in frame 901, detection zone 902a is stretched in one end of probe 9052a, the other end of probe 9052a is located at above trigger switch 9052b, the probe of temperature measurer 9051 is towards detection zone 902a, the entrance of slideway 902 reduces gradually to outlet height, after workpiece enters slideway 902 from the entrance of slideway 902, gravitate glides automatically along slideway 902, the piston rod of the first cylinder 903 and the second cylinder 904 stretches into slideway 902 and forms the detection zone 902a holding workpiece, slideway 902 is provided with detection workpiece and arrives the primary importance detecting sensor of the first cylinder 903 and detect the second place detecting sensor that workpiece enters detection zone 902a, primary importance detecting sensor detects that signal is sent to control module, control module Controlling solenoid valve drives the piston rod of the first cylinder 903 to shrink, detection zone 902a is slipped into make workpiece, second place detecting sensor detects that signal is sent to control module, control module Controlling solenoid valve drives the second cylinder 903 to shrink, detection zone 902a is skidded off to make workpiece, the circuit of the first cylinder 903 and the second cylinder 904 is provided with the flexible interval time that the time relay controls the piston rod of the first cylinder 903 and the second cylinder 904.
Falling control device 906 comprises the 3rd cylinder 9061 be located in frame 901, the striker plate 9062 be connected with the piston rod of the 3rd cylinder 9061 and the tablet 9063 be rotationally connected with striker plate 9062, 3rd cylinder 9061 is connected with magnetic valve, one end and the frame 901 of striker plate 9062 are rotationally connected, the temperature signal of temperature measurer 9051 is sent to control module, qualified temperature values is preset with in control module, when temperature measurer 9051 temperature signal is in qualified temperature values, control module Controlling solenoid valve drives the piston rod of the 3rd cylinder 9061 to stretch out, striker plate 9062 is driven to move to immediately below the outlet of slideway 902 lower end, workpiece is blocked by striker plate 9062, realize the closedown of the outlet of slideway 902 lower end, workpiece captures to be delivered in forge die by workman or industrial robot and forges and presses, when the temperature signal of temperature measurer 9051 exceeds qualified temperature values, the piston rod that control module controls the 3rd cylinder 9061 shrinks, one end of tablet 9063 is made to move to immediately below the outlet of slideway 902 lower end, tablet 9063 is rotatably connected on striker plate 9062, workpiece hits tablet 9063 makes tablet 9063 rotate, workpiece gravitate automatic blanking, realize opening of the outlet of slideway 902 lower end, frame 901 is provided with the 3rd position sensor, 3rd position sensor is located on the rotation path of tablet 9063 other end, hitting tablet 9063 during workpiece blanking makes tablet 9063 rotate, tablet 9063 triggers the 3rd position sensor, detection signal is sent to control module Controlling solenoid valve and drives the 3rd cylinder 9061 to stretch out reset by the 3rd position sensor, to detect next time.
Drop stamping system is by temperature-detecting device 905 and falling control device 906, the underproof workpiece automatic blanking of temperature is made to carry out melting down reprocessing, achieve the workpiece that automatic screening is qualified, qualified workpiece captures to be delivered in forge die by workman or industrial robot and forges and presses, ensure that the workpiece temperature entering forge die is qualified, substantially increase the qualification rate of workpiece.
Be described with regard to the utility model preferred embodiment above, but can not be interpreted as it is restriction to claim.The utility model is not only confined to above embodiment, its concrete structure allows to change, those skilled in the art can make various change and distortion according to the utility model, only otherwise depart from spirit of the present utility model, all belong to the scope that the utility model claims define.
Claims (10)
1. forge die, comprise cope match-plate pattern, lower bolster, drift and die, described die is made up of two pieces of half modules, described drift is located at the below of cope match-plate pattern, described lower bolster is provided with mould bases, it is characterized in that: described mould bases is provided with the first through hole and two the first chutes be located on the first through hole hole wall that aperture diminishes from the top down gradually, mould bases is provided with the two pieces of Hough modules be connected with two the first slide respectively, two pieces of half modules respectively with two pieces of Hough modules are fixedly connected with, the below of mould bases is provided with shedding mechanism, described shedding mechanism comprises and to be fixed on for a pair on mould bases and to the panel of downward-extension, be located at the push rod between two panels and control the mold pushing mechanism of push rod lifting, the upper surface of push rod contacts with the lower surface of two pieces of Hough modules, mold pushing mechanism comprises supporting plate, the extension spring that pair of sliding is connected to the slide block on supporting plate and connects on two pieces of slide blocks, cope match-plate pattern is provided with a pair connecting rod to downward-extension, two connecting rods are fixedly connected with supporting plate, two pieces of slide blocks are respectively equipped with tourelle, two panels are respectively equipped with inclined-plane, two tourelles roll across two inclined-planes respectively from the top down and control two pieces of slide blocks and draw close, two tourelles roll across two inclined-planes respectively from bottom to top and control two pieces of slide blocks separately.
2. forge die according to claim 1, is characterized in that: two panels are located between two tourelles or two tourelles are located between two panels.
3. forge die according to claim 2, is characterized in that: respectively the second through hole on two pieces of slide blocks, and described tourelle comprises the roller being located at locating dowel in the second through hole and being rotationally connected with locating dowel.
4. forge die according to claim 1, it is characterized in that: the below of described die be provided with down loose core and under to loose core frock, under loose core and under frock of loosing core be located between two pieces of Hough modules, frock of loosing core under described comprise with under the support bar that is fixedly connected with of the lower end of loosing core and two cylinders being located at down both sides of loosing core respectively, two cylinders are rotationally connected with two pieces of Hough modules respectively, the upper surface of support bar have two domatic, two domatic formation V-arrangement angles, the cylinder of two cylinders is domatic with two respectively to be contacted.
5. forge die according to claim 1, it is characterized in that: described Hough module is provided with installing hole, mounting blocks is provided with in described installing hole, the hole wall of the first through hole is provided with two the second chutes, one end of mounting blocks is stretched out installing hole and is connected with the second slide, the other end connection side of mounting blocks is loosed core, and mounting blocks and installing hole are slidably connected and drive the head end of side core-pulling to stretch into or stretch out the die cavity of die.
6. forge die according to claim 1, it is characterized in that: described mould bases both sides are respectively equipped with the fixed bar upwards extended, two fixed bars are respectively equipped with caging bolt and back-moving spring, knockout plate is provided with between caging bolt and back-moving spring, described knockout plate and two fixed bars are slidably connected, knockout plate is provided with the dnockout hole passed through for drift, passes through to stop the workpiece be stuck on drift.
7. forge die according to claim 6, it is characterized in that: described lower bolster is provided with column, described column upper end is rotationally connected bull stick, the head end of bull stick is provided with hopper, described hopper is positioned at immediately below dnockout hole, and the junction of bull stick and column is provided with torsion spring, and described cope match-plate pattern is provided with push rod, the lower end of described push rod is provided with voussoir, and the wedge surface of described voussoir is located at directly over bull stick.
8. forge die according to claim 1, it is characterized in that: described lower bolster is provided with insert, two inserts are fixed in insert, insert is provided with groove, described push rod comprises transverse slat and montant, and described push rod comprises transverse slat and montant, and described lower bolster is provided with groove, described transverse slat is in a groove accommodating, is provided with stage clip between the lower surface of described transverse slat and the bottom surface of groove.
9. forge die according to claim 1, it is characterized in that: the upper surface of two pieces of Hough modules is respectively equipped with groove, briquetting is respectively equipped with in two grooves, two briquettings are respectively by being bolted on the bottom surface of two grooves, two pieces of half modules are respectively equipped with draw-in groove, two pieces of briquettings are respectively equipped with the card article protruded downwards, the draw-in groove on the card article difference clamping two pieces of half modules on two pieces of briquettings.
10. forge and press system, it is characterized in that, comprise the forge die described in claim 1-9 any one, described forging and stamping system also comprises workpiece attemperating unit, described workpiece attemperating unit comprises frame, be located at the slideway in frame, first cylinder, second cylinder, magnetic valve, temperature-detecting device, falling control device and control module, control module is connected with magnetic valve, the piston rod of described first cylinder and the second cylinder stretches into slideway respectively and forms the detection zone holding workpiece, described temperature-detecting device comprises temperature measurer and flip flop equipment, described flip flop equipment comprises probe and triggers the trigger switch of temperature measurer work, described probe is rotatably connected in frame, detection zone is stretched in one end of probe, the other end of probe is located at above trigger switch, the striker plate that described falling control device comprises the 3rd cylinder and is connected with the piston rod of the 3rd cylinder, first cylinder, second cylinder is connected with magnetic valve respectively with the 3rd cylinder, temperature signal is sent to control module and controls the outlet that the 3rd Telescopic-cylinder driving striker plate opens or closes slideway lower end by temperature measurer.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105057535A (en) * | 2015-07-16 | 2015-11-18 | 张小松 | Forging and stamping mold and forging and stamping system provided with same |
CN107999679A (en) * | 2017-06-14 | 2018-05-08 | 洛阳冠卓重工设备有限公司 | A kind of bucket tooth forging mold and its lower mold assemblies |
CN108637063A (en) * | 2018-03-12 | 2018-10-12 | 浙江彪马自动化设备有限公司 | A kind of red multifunctional processor structure for rushing raw material of hydraulic pressure |
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2015
- 2015-07-16 CN CN201520517026.3U patent/CN204770423U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105057535A (en) * | 2015-07-16 | 2015-11-18 | 张小松 | Forging and stamping mold and forging and stamping system provided with same |
CN107999679A (en) * | 2017-06-14 | 2018-05-08 | 洛阳冠卓重工设备有限公司 | A kind of bucket tooth forging mold and its lower mold assemblies |
CN108637063A (en) * | 2018-03-12 | 2018-10-12 | 浙江彪马自动化设备有限公司 | A kind of red multifunctional processor structure for rushing raw material of hydraulic pressure |
CN108637063B (en) * | 2018-03-12 | 2023-09-05 | 浙江彪马自动化设备有限公司 | Multifunctional processing mechanism for hydraulic red punching raw materials |
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