CN104646583A - Automatic oil pressure forming machinery - Google Patents
Automatic oil pressure forming machinery Download PDFInfo
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- CN104646583A CN104646583A CN201510074146.5A CN201510074146A CN104646583A CN 104646583 A CN104646583 A CN 104646583A CN 201510074146 A CN201510074146 A CN 201510074146A CN 104646583 A CN104646583 A CN 104646583A
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- positioning seat
- fixed
- feeding
- oil pressure
- automatic
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- 238000005520 cutting process Methods 0.000 claims abstract description 49
- 239000000463 material Substances 0.000 claims abstract description 49
- 238000010438 heat treatment Methods 0.000 claims abstract description 32
- 230000006698 induction Effects 0.000 claims description 30
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 claims description 15
- 229910052802 copper Inorganic materials 0.000 claims description 15
- 239000010949 copper Substances 0.000 claims description 15
- 238000000465 moulding Methods 0.000 claims description 13
- 238000007493 shaping process Methods 0.000 claims description 12
- 239000012530 fluid Substances 0.000 claims description 3
- 238000009434 installation Methods 0.000 claims description 3
- 230000009286 beneficial effect Effects 0.000 abstract description 10
- 238000005242 forging Methods 0.000 abstract description 3
- 238000004519 manufacturing process Methods 0.000 abstract description 3
- 238000003825 pressing Methods 0.000 abstract 3
- 230000000694 effects Effects 0.000 description 4
- 238000005056 compaction Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000000737 periodic effect Effects 0.000 description 1
- 238000010008 shearing Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
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- Forging (AREA)
Abstract
The invention relates to the technical field of a forging forming device, in particular to automatic oil pressure forming machinery. The automatic oil pressure forming machinery comprises an oil pressure forming mechanism, a material cutting mechanism, a heating mechanism and an automatic straightening material conveying mechanism, wherein the oil pressure forming mechanism is connected with the material cutting mechanism, the material cutting mechanism is connected with the automatic straightening material conveying mechanism, and the heating mechanism is arranged at a connecting part of the automatic straightening material conveying mechanism and the material cutting mechanism. The automatic oil pressure forming machinery has the beneficial effects that the automatic pressing forming is realized, the straightening material conveyance is carried out through the automatic straightening material conveying mechanism, after the material conveyance, the automatic material cutting is carried out after the automatic heating through the heating mechanism, finally, the automatic pressing forming is realized, the whole device can realize the pressing without workers after the materials are put onto the material conveying mechanism, the operation is convenient, the production speed is accelerated, and the production precision is improved, so that the labor cost is reduced.
Description
Technical field
The present invention relates to forging and forming device technical field, particularly relate to a kind of automatic oil pressure forming machine.
Background technology
At present, forging and forming device needs by hand fed on the fixed mould of shaped device, and then be pressed by hydraulic pressure, feeding go to toward need according to product need material is sheared, some special materials are also needed to heat material before compaction, better can briquettability so that material can have, this just makes manually to add shearing before compaction, then heat on other device, again material is delivered on building mortion, hand labor intensity is large, converted products precision is not high, speed of production is slow, processing safety is low.
Summary of the invention
Technical problem to be solved by this invention is to provide a kind of simple to operate, can realize the automatic oil pressure forming machine that automation is compressing.
The technical scheme that the present invention solves the problems of the technologies described above is as follows: a kind of automatic oil pressure forming machine, comprise hydraulic molding machine structure, material cutting mechanism, heating arrangements and automatic aligning feed mechanism, described hydraulic molding machine structure is connected with described material cutting mechanism, described material cutting mechanism is connected with described automatic aligning feed mechanism, and described heating arrangements is arranged on the junction of described automatic aligning feed mechanism and described blanking structure.
The invention has the beneficial effects as follows: it is compressing that the present invention realizes automation, alignment feeding is carried out by automatic aligning feed mechanism, after heating arrangements is by Automatic-heating, automatic cutoff is carried out again after feeding, finally realize automatically compressing, whole device does not need workman can realize compacting after material is placed feed mechanism, easy to operate, decrease hand labor intensity, thus reduce cost of labor.
On the basis of technique scheme, the present invention can also do following improvement.
Further, described hydraulic molding machine structure comprises oil pressure platform, described oil pressure platform is provided with the Hydraulic prop vertically arranged, described Hydraulic prop is provided with oil sector movable slider, the bottom surface of described oil sector movable slider is fixed with upper shaping mould by upper fixed die, on the upper surface of described oil pressure platform, the vertical below of described upper shaping mould is fixed with compacted under mould by lower fixed die, and on described lower fixed die, the side of described compacted under mould is provided with feeding locating clip.
The beneficial effect of above-mentioned further scheme is adopted to be: feeding locating clip is set compacted under mould is other, the material delivering to hydraulic molding machine structure is fixed on compacted under mould, then by shaping mould suppress, realize automation accurately to suppress, avoid material and accurately can not deliver to location and the waste of material that causes.
Further, described feeding positioning fixture comprises feeding positioning seat, described feeding positioning seat is fixed on described lower fixed die, described feeding positioning seat is fixed with cylinder, the output shaft of described clamp cylinder is towards described compacted under mould, the output shaft of described cylinder is fixed with tooth bar, on described feeding positioning seat, the both sides of described tooth bar are respectively equipped with the tooth post meshing with described tooth bar, described tooth post can axial-rotation, two described tooth posts are fixed with locating clip respectively, two described locating clips are positioned at the top of described compacted under mould, two described locating clips are symmetrical about the axis centre of the output shaft of described cylinder.
Adopt the beneficial effect of above-mentioned further scheme to be: to be moved around by cylinder band carry-over bar, thus drive the rotation of tooth post, thus drive the clamping of two locating clips and unclamp.
Further, described feeding positioning seat comprises the first positioning seat, described first positioning seat is fixed with the first slide block, described first slide block is connected with the second slide block, described second slide block is fixed on described lower fixed die, described first slide block is fixed with by screw thread and moves up and down adjustment screw, the described screw rod end moving up and down adjustment screw passes and is threaded with described lower fixed die after stretching out described first slide block, described first holder is provided with the second positioning seat and the first movable vertical retaining wall, described movable vertical retaining wall is fixed with horizontally disposed movable adjusting bolt by screw thread, the screw rod end of described movable adjusting bolt passes and abuts the sidewall of described second positioning seat after stretching out movable vertical retaining wall, described second positioning seat is provided with the movable locating hole vertically arranged, movable clamping screw is provided with in described movable locating hole, the diameter of the screw rod of described movable clamping screw is less than the aperture of described movable locating hole, the screw rod end of described movable clamping screw is fixedly connected with described first positioning seat by screw thread through after described movable locating hole, what described second positioning seat was provided with that the 3rd positioning seat and two be arranged in parallel moves left and right vertical retaining wall, described 3rd positioning seat is located at described in two and moves left and right between vertical retaining wall, move left and right described in two vertical retaining wall is fixed with respectively by screw thread and move left and right adjusting bolt, the described screw rod end moving left and right adjusting bolt passes and abuts described 3rd positioning seat after moving left and right vertical retaining wall described in stretching out, described 3rd positioning seat is provided with and moves left and right bar shaped locating hole, the described length direction moving left and right bar shaped locating hole moves left and right vertical retaining wall towards described in two respectively, described move left and right in bar shaped locating hole to be provided with move left and right clamping screw, be fixedly connected with by screw thread with described second positioning seat after moving left and right bar shaped location described in the described screw rod end moving left and right clamping screw passes, described cylinder is fixed on described 3rd positioning seat, described tooth bar is located in the groove between described second positioning seat and described 3rd positioning seat, one end of described tooth post is through meshing with described tooth bar after described 3rd positioning seat, two described locating clips respectively with two the other end of described tooth post fix, two described locating clips are all positioned at the top of described 3rd positioning seat.
The beneficial effect of above-mentioned further scheme is adopted to be: to move up and down by turning the level height position that adjustment screw can regulate whole feeding positioning seat as required, diameter due to the screw rod end of movable clamping screw is less than the aperture of described movable locating hole, by unclamping movable clamping screw, turn movable adjusting bolt, can finely tune the position of the second positioning seat as required; Moving left and right clamping screw by unclamping, turning and moving left and right adjusting bolt, can move moving left and right described in two between vertical retaining wall the position of the 3rd positioning seat as required.
Further, described oil pressure platform is fixed with the gas blow pipe of gas outlet towards described fixed die, described gas blow pipe connects blowning installation by pipeline.
The beneficial effect of above-mentioned further scheme is adopted to be: arranging of gas blow pipe to lighter shaped article blowout fixed die, can realize the taking-up of automatic moulding object.
Further, described material cutting mechanism comprises Cutter apron, described Cutter apron is provided with cutting knife chute, one end of described Cutter apron is fixed with a cutter cylinder, the other end is fixed with a cutting knife cylinder, the output of described cutter cylinder cylinder and the output of described cutting knife cylinder are fixed with cutting knife respectively, two described cutting knifes are all arranged in described cutting knife chute, described Cutter apron is provided with the charging hole running through described Cutter apron and the shoving hole running through described Cutter apron, described Cutter apron is provided with feed pipe, described feed pipe and described shoving hole coaxial line, described feed pipe between described compacted under mould and described shoving hole and two ends respectively towards described compacted under mould and described shoving hole, described feed pipe and described shoving hole coaxial line, gap is left between described feed pipe and described shoving hole, on described Cutter apron, described charging hole place is provided with charging length limit device.
The beneficial effect of above-mentioned further scheme is adopted to be: material is through after charging hole, and the length needed by the restriction of charging length limit device, is then promoted cutting knife by cutter cylinder and cut, realize automation and cut the material needing length.
Further, described automatic aligning feed mechanism comprises feeding frame, described feeding frame is provided with alignment feeding wheels and the two groups hydraulic motor feeding wheels by fluid motor-driven, described in two groups, hydraulic motor drawing-inroller group is located at the two ends of described feeding frame respectively, described feeding frame is also fixed with pusher cylinder, the output shaft of described pusher cylinder is fixed with the charging ram that diameter is less than described shoving hole internal diameter, described charging ram inserts in described shoving hole away from one end of described pusher cylinder.
The beneficial effect of above-mentioned further scheme is adopted to be: to carry out feeding by alignment feeding wheels and feed roller wheels, the accurate conveying of material can be realized.
Further, described alignment feeding wheels comprise the first alignment wheels and the second alignment wheels, described first alignment wheels are that two rows are setting up and down and be provided with the vertical roller in feeding gap between two rows, described second alignment wheels are that two row of horizontal arrange and are provided with the horizontal roller in feeding gap between two rows, and the feeding gap of described first alignment wheels and the feeding gap of described second alignment wheels are located along the same line.
The beneficial effect of above-mentioned further scheme is adopted to be: by the first alignment wheels vertically arranged and the second alignment wheels vertically arranged, to realize the vertical direction of material to conveying and the location of horizontal direction, accurately determine the throughput direction of material.
Further, described heating arrangements comprises HF induction heating apparatus, described HF induction heating apparatus is fixed on described automatic aligning feed mechanism near one end of described material cutting mechanism, described HF induction heating apparatus is fixed with induction copper band by induction copper band connector, and the longitudinal center line of described induction copper band and the longitudinal center line of described charging hole are point-blank.
The beneficial effect of above-mentioned further scheme is adopted to be: by HF induction heating apparatus sensigenous magnetic field, thus to the heating materials passed through in induction coil, heating effect is good, efficiency is high.
Accompanying drawing explanation
Fig. 1 is front view of the present invention, attached pusher cylinder not shown in FIG. and charging ram;
Fig. 2 is top view of the present invention, attached oil sector movable slider not shown in FIG., shaping mould;
Fig. 3 is the top view of the feeding locating clip in the present invention;
Fig. 4 is the left view of the feeding locating clip in the present invention;
Fig. 5 is the structural representation of locating clip of the present invention;
Fig. 6 is the left view of the material cutting mechanism in the present invention, attached feed pipe not shown in FIG..
In accompanying drawing, the list of parts representated by each label is as follows:
1, hydraulic molding machine structure, 11, oil pressure platform, 12, Hydraulic prop, 13, oil sector movable slider, 14-1, upper fixed die, 14-2, upper shaping mould, 15-1, lower fixed die, 15-2, compacted under mould, 16, feeding locating clip, 161, feeding positioning seat, 162, clamp cylinder, 163, tooth bar, 164, tooth post, 165, locating clip, 101, first positioning seat, 102, second positioning seat, 103, movable vertical retaining wall, 104, movable adjusting bolt, 105, movable locating hole, 106, movable clamping screw, 107, 3rd positioning seat, 108, move left and right vertical retaining wall, 109, move left and right adjusting bolt, 110, move left and right bar shaped locating hole, 111, move left and right clamping screw, 112, first slide block, 113, second slide block, 114, move up and down adjustment screw, 17, gas blow pipe, 2, material cutting mechanism, 21, Cutter apron, 22, cutting knife chute, 23, cutter cylinder, 24, cutting knife, 25, charging hole, 26, shoving hole, 27, feed pipe, 28, charging length limit device, 29, cutting knife cylinder, 3, heating arrangements, 31, HF induction heating apparatus, 32, induction copper band connector, 33, induction copper band, 4, automatic aligning feed mechanism, 41, feeding frame, 42, alignment feeding wheels, 421, first alignment wheels, 422, second alignment wheels, 43, hydraulic motor feeding wheels, 44, pusher cylinder, 45, charging ram.
Detailed description of the invention
Be described principle of the present invention and feature below in conjunction with accompanying drawing, example, only for explaining the present invention, is not intended to limit scope of the present invention.
As shown in Figure 1 and Figure 2, the present invention includes hydraulic molding machine structure 1, material cutting mechanism 2, heating arrangements 3 and automatic aligning feed mechanism 4, described hydraulic molding machine structure 1 is connected with described material cutting mechanism 2, described material cutting mechanism 2 is connected with described automatic aligning feed mechanism 4, and described heating arrangements 3 is arranged on the junction of described automatic aligning feed mechanism 4 and described blanking structure.Described hydraulic molding machine structure 1 comprises oil pressure platform 11, described oil pressure platform 11 is provided with the Hydraulic prop 12 vertically arranged, described Hydraulic prop 12 is provided with oil sector movable slider 13, the bottom surface of described oil sector movable slider 13 is fixed with upper shaping mould 14-2 by upper fixed die 14-1, on the upper surface of described oil pressure platform 11, the vertical below of described upper shaping mould 14 is fixed with compacted under mould 15-2 by lower fixed die 15-1, on described lower fixed die 15-1, the side of described compacted under mould 15-2 is provided with feeding locating clip 16.
As Fig. 3, shown in Fig. 4, described feeding locating clip 16 tool comprises feeding positioning seat 161, described first positioning seat 101 is fixed with the first slide block 112, described first slide block 112 is connected with the second slide block 113, described second slide block 113 is fixed on described lower fixed die 15-1, described first slide block 112 is fixed with by screw thread and moves up and down adjustment screw 114, the described screw rod end moving up and down adjustment screw 114 passes and stretches out described first slide block 112 and is threaded with described lower fixed die 15-1 afterwards, described feeding positioning seat 161 is fixed with cylinder, the output shaft of described cylinder is towards described compacted under mould 15-2, the output shaft of described cylinder is fixed with tooth bar 163, on described feeding positioning seat 161, the both sides of described tooth bar 163 are respectively equipped with the tooth post 164 meshing with described tooth bar 163, described tooth post 164 can axial-rotation, two described tooth posts 164 are fixed with locating clip 165 respectively, as shown in Figure 5, two described locating clips 165 are positioned at the top of described compacted under mould 15-2, and two described locating clips 165 are symmetrical about the axis centre of the output shaft of described cylinder.Described feeding positioning seat 161 comprises the first positioning seat 101, described first positioning seat 101 is fixed by screws on described lower fixed die 15-1, described first holder is provided with the second positioning seat 102 and movable vertical retaining wall 103, described movable vertical retaining wall 103 is fixed with horizontally disposed movable adjusting bolt 104 by screw thread, the screw rod end of described movable adjusting bolt 104 passes and stretches out the rear sidewall abutting described second positioning seat 102 of movable vertical retaining wall 103, described second positioning seat 102 is provided with the movable locating hole 105 vertically arranged, movable clamping screw 106 is provided with in described movable locating hole 105, the diameter of the screw rod of described movable clamping screw 106 is less than the aperture of described movable locating hole 105, the screw rod end of described movable clamping screw 106 is fixedly connected with described first positioning seat 101 by screw thread through after described movable locating hole 105, what described second positioning seat 102 was provided with that the 3rd positioning seat 107 and two be arranged in parallel moves left and right vertical retaining wall 108, described 3rd positioning seat 107 is located at described in two and moves left and right between vertical retaining wall 108, move left and right described in two vertical retaining wall 108 is fixed with respectively by screw thread and move left and right adjusting bolt 109, the described screw rod end moving left and right adjusting bolt 109 passes and abuts described 3rd positioning seat 107 after moving left and right vertical retaining wall 108 described in stretching out, described 3rd positioning seat is provided with and moves left and right bar shaped locating hole 110, the described length direction moving left and right bar shaped locating hole 110 is respectively towards moving left and right vertical retaining wall 108 described in two, described move left and right in bar shaped locating hole 110 to be provided with move left and right clamping screw 111, be fixedly connected with by screw thread with described second positioning seat 102 after moving left and right bar shaped location described in the described screw rod end moving left and right clamping screw 111 passes, described cylinder is fixed on described 3rd positioning seat 107, described tooth bar 163 is located in the groove between described second positioning seat 102 and described 3rd positioning seat 107, one end of described tooth post 164 is through meshing with described tooth bar 163 after described 3rd positioning seat 107, two described locating clips 165 respectively with two the other end of described tooth post 164 fix, two described locating clips 165 are all positioned at the top of described 3rd positioning seat 107.Described oil pressure platform 11 is fixed with the gas blow pipe 17 of gas outlet towards described fixed die 15, described gas blow pipe 17 connects blowning installation by pipeline.
As shown in Figure 6, described material cutting mechanism 2 comprises Cutter apron 21, described Cutter apron 21 is provided with cutting knife chute 22, one end of described Cutter apron 21 is fixed with a cutter cylinder 23, the other end is fixed with a cutting knife cylinder 29, the output of described cutter cylinder cylinder 23 and the output of described cutting knife cylinder 29 are fixed with cutting knife 24 respectively, two described cutting knifes 24 are all arranged in described cutting knife chute 22, described Cutter apron 21 is provided with the charging hole 25 running through described Cutter apron 21 and the shoving hole 26 running through described Cutter apron 21, described Cutter apron 21 is provided with feed pipe 27, described feed pipe 27 and described shoving hole 26 coaxial line, described feed pipe 27 is between described compacted under mould 15-2 and described shoving hole 26 and towards described compacted under mould 15-2, on described Cutter apron 21, described charging hole 25 place is provided with charging length limit device 28.Described automatic aligning feed mechanism 4 comprises feeding frame 41, described feeding frame 41 is provided with alignment feeding wheels 42 and the two groups hydraulic motor feeding wheels 43 by fluid motor-driven, described in two groups, hydraulic motor feeding wheels 43 are located at the two ends of described feeding frame 41 respectively, described feeding frame 41 is also fixed with pusher cylinder 44, the output shaft of described pusher cylinder 44 is fixed with the charging ram 45 that diameter is less than described shoving hole 26 internal diameter, described charging ram 45 inserts in described shoving hole 26 away from one end of described pusher cylinder 44.Described alignment feeding wheels 42 comprise the first alignment wheels 421 and the second alignment wheels 422, described first alignment wheels 421 are that two rows are setting up and down and be provided with the vertical roller in feeding gap between two rows, described second alignment wheels 422 are that two row of horizontal arrange and are provided with the horizontal roller in feeding gap between two rows, and the feeding gap of described first alignment wheels 421 and the feeding gap of described second alignment wheels 422 are located along the same line.Described heating arrangements 3 comprises HF induction heating apparatus 31, described HF induction heating apparatus 31 is fixed on described automatic aligning feed mechanism 4 one end near described material cutting mechanism 2, described HF induction heating apparatus 31 is fixed with induction copper band 33 by induction copper band connector 32, described HF induction heating apparatus 31 heats described induction copper band 33, and the longitudinal center line of described induction copper band 33 and the longitudinal center line of described charging hole are point-blank.
Operation principle: the bobbin of the rapidoprint being wound with circular wire is placed on automatic aligning feed mechanism 4 one end away from hydraulic molding machine structure 1, by one end of material successively through hydraulic motor feeding wheels 43 and the first alignment wheels 421, second alignment wheels 422, under the driving of hydraulic motor, the first alignment wheels 421, second alignment wheels 422 rotate and drive material feeding; Rapidoprint is under the conveying of rotating pay-off, and through induction copper band 33, HF induction heating apparatus 31 produces high-frequency induction magnetic field heating to induction copper band 33, and rapidoprint in the process through induction copper band 33 is heated; Continued mobile by the rapidoprint heated, through the charging hole 25 on Cutter apron 21, after the termination of rapidoprint abuts charging length limit device 28, cutting knife 24 cuts the rapidoprint needing length under the effect of cutter cylinder 23, after band rapidoprint is cut-off, cutting knife cylinder 29 drives cutting knife 24 to clamp the rapidoprint cut and delivers to shoving hole 26 position, now, under the effect of pusher cylinder 44, rapidoprint pushes in pusher pipe by charging ram 45, and charging hole 25 position got back to by cutting knife 24 under the drive of cutting knife cylinder 29; Rapidoprint is being released locating clip 165 tool of closing from the other end of feed pipe 27, upper shaping mould 14-2 first gently presses at oil pressure and contains material, fixedly contain material, then locating clip 165 is opened, rise after rapidoprint is pressed onto required thickness by upper shaping mould 14-2 under the effect of oil pressure, then gas blow pipe 17 is blown, and is blown out by the product after shaping, continues periodic duty.
The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (9)
1. an automatic oil pressure forming machine, it is characterized in that, comprise hydraulic molding machine structure (1), material cutting mechanism (2), heating arrangements (3) and automatic aligning feed mechanism (4), described hydraulic molding machine structure (1) is connected with described material cutting mechanism (2), described material cutting mechanism (2) is connected with described automatic aligning feed mechanism (4), and described heating arrangements (3) is arranged on the junction of described automatic aligning feed mechanism (4) and described blanking structure.
2. a kind of automatic oil pressure forming machine according to claim 1, it is characterized in that, described hydraulic molding machine structure (1) comprises oil pressure platform (11), described oil pressure platform (11) is provided with the Hydraulic prop (12) vertically arranged, described Hydraulic prop (12) is provided with oil sector movable slider (13), the bottom surface of described oil sector movable slider (13) is fixed with shaping mould (14-2) by upper fixed die (14-1), on the upper surface of described oil pressure platform (11), the vertical below of described upper shaping mould (14) is fixed with compacted under mould (15-2) by lower fixed die (15-1), described lower fixed die (15-1) upper, the side of described compacted under mould (15-2) is provided with feeding locating clip (16).
3. a kind of automatic oil pressure forming machine according to claim 2, it is characterized in that, described feeding locating clip (16) tool comprises feeding positioning seat, described feeding positioning seat is fixed on described lower fixed die (15-1), described feeding positioning seat is fixed with clamp cylinder (162), the output shaft of described clamp cylinder (162) is towards described compacted under mould (15-2), the output shaft of described clamp cylinder (162) is fixed with tooth bar (163), on described feeding positioning seat, the both sides of described tooth bar (163) are respectively equipped with the tooth post (164) meshing with described tooth bar (163), described tooth post (164) can axial-rotation, two described tooth posts (164) are fixed with locating clip (165) respectively, two described locating clips (165) are positioned at the top of described compacted under mould (15-2), two described locating clips (165) are symmetrical about the axis centre of the output shaft of described clamp cylinder (162).
4. a kind of automatic oil pressure forming machine according to claim 3, it is characterized in that, described feeding positioning seat comprises the first positioning seat (101), described first positioning seat (101) is fixed with the first slide block (112), described first slide block (112) is connected with the second slide block (113), described second slide block (113) is fixed on described lower fixed die (15-1), described first slide block (112) is fixed with by screw thread and moves up and down adjustment screw (114), the described screw rod end moving up and down adjustment screw (114) passes and stretches out described first slide block (112) and is threaded with described lower fixed die (15-1) afterwards, described first holder is provided with the second positioning seat (102) and movable vertical retaining wall (103), described movable vertical retaining wall (103) is fixed with horizontally disposed movable adjusting bolt (104) by screw thread, the screw rod end of described movable adjusting bolt (104) passes and stretches out the sidewall that movable vertical retaining wall (103) abuts described second positioning seat (102) afterwards, described second positioning seat (102) is provided with the movable locating hole (105) vertically arranged, movable clamping screw (106) is provided with in described movable locating hole (105), the diameter of the screw rod of described movable clamping screw (106) is less than the aperture of described movable locating hole (105), the screw rod end of described movable clamping screw (106) is fixedly connected with described first positioning seat (101) by screw thread through after described movable locating hole (105), what described second positioning seat (102) was provided with that the 3rd positioning seat (107) and two be arranged in parallel moves left and right vertical retaining wall (108), described 3rd positioning seat (107) is located at described in two and moves left and right between vertical retaining wall (108), move left and right described in two vertical retaining wall (108) is fixed with respectively by screw thread and move left and right adjusting bolt (109), the described screw rod end moving left and right adjusting bolt (109) passes and moves left and right vertical retaining wall (108) described in stretching out and abuts described 3rd positioning seat (107) afterwards, described 3rd positioning seat (107) is provided with and moves left and right bar shaped locating hole (110), the described length direction moving left and right bar shaped locating hole (110) is respectively towards moving left and right vertical retaining wall (108) described in two, described move left and right in bar shaped locating hole (110) to be provided with move left and right clamping screw (111), move left and right bar shaped locating hole (110) described in the described screw rod end moving left and right clamping screw (111) passes to be fixedly connected with by screw thread with described second positioning seat (102) afterwards, described clamp cylinder (162) is fixed on described 3rd positioning seat (107), described tooth bar (163) is located in the groove between described second positioning seat (102) and described 3rd positioning seat (107), one end of described tooth post (164) is meshing with described tooth bar (163) afterwards through described 3rd positioning seat (107), two described locating clips (165) respectively with two the other end of described tooth post (164) fix, two described locating clips (165) are all positioned at the top of described 3rd positioning seat (107).
5. a kind of automatic oil pressure forming machine according to any one of claim 2 to 4, it is characterized in that, described oil pressure platform (11) is fixed with the gas blow pipe (17) of gas outlet towards described fixed die (15), described gas blow pipe (17) connects blowning installation by pipeline.
6. a kind of automatic oil pressure forming machine according to any one of claim 2 to 4, it is characterized in that, described material cutting mechanism (2) comprises Cutter apron (21), described Cutter apron (21) is provided with cutting knife chute (22), one end of described Cutter apron (21) is fixed with a cutter cylinder (23), the other end is fixed with a cutting knife cylinder (29), the output of described cutter cylinder (23) and the output of described cutting knife cylinder (29) are fixed with cutting knife (24) respectively, two described cutting knifes (24) are all arranged in described cutting knife chute (22), described Cutter apron (21) is provided with the charging hole (25) running through described Cutter apron (21) and the shoving hole (26) running through described Cutter apron (21), described Cutter apron (21) is provided with feed pipe (27), described feed pipe (27) is positioned between described compacted under mould (15-2) and described shoving hole (26) and two ends respectively towards described compacted under mould (15-2) and described shoving hole (26), described feed pipe (27) and described shoving hole (26) coaxial line, gap is left between described feed pipe (27) and described shoving hole (26), on described Cutter apron (21), described charging hole (25) place is provided with charging length limit device (28).
7. a kind of automatic oil pressure forming machine according to claim 6, it is characterized in that, described automatic aligning feed mechanism (4) comprises feeding frame (41), described feeding frame (41) is provided with alignment feeding wheels (42) and the two groups hydraulic motor feeding wheels (43) by fluid motor-driven, hydraulic motor feeding wheels (43) described in two groups are located at the two ends of described feeding frame (41) respectively, described feeding frame (41) is also fixed with pusher cylinder (44), the output shaft of described pusher cylinder (44) is fixed with the charging ram (45) that diameter is less than described shoving hole (26) internal diameter, described charging ram (45) inserts in described shoving hole (26) away from one end of described pusher cylinder (44).
8. a kind of automatic oil pressure forming machine according to claim 6, it is characterized in that, described heating arrangements (3) comprises HF induction heating apparatus (31), described HF induction heating apparatus (31) is fixed on described automatic aligning feed mechanism (4) one end near described material cutting mechanism (2), described HF induction heating apparatus (31) is fixed with induction copper band (33) by induction copper band connector (32), the longitudinal center line of described induction copper band (33) and the longitudinal center line of described charging hole (25) are point-blank.
9. a kind of automatic oil pressure forming machine according to claim 7 or 8, it is characterized in that, described alignment feeding wheels (42) comprise the first alignment wheels (421) and the second alignment wheels (422), described first alignment wheels (421) are that two rows are setting up and down, and between two rows, be provided with the vertical roller in feeding gap, described second alignment wheels (422) are that two row of horizontal are arranged, and between two rows, be provided with the horizontal roller in feeding gap, the feeding gap of described first alignment wheels (421) and the feeding gap of described second alignment wheels (422) are located along the same line.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201510074146.5A CN104646583B (en) | 2015-02-11 | 2015-02-11 | Automatic oil pressure forming machinery |
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|---|---|---|---|
| CN201510074146.5A CN104646583B (en) | 2015-02-11 | 2015-02-11 | Automatic oil pressure forming machinery |
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| CN104646583B CN104646583B (en) | 2017-05-24 |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107282776A (en) * | 2017-07-18 | 2017-10-24 | 杭州吉达汽车配件有限公司 | The fine blanking die structure and its Serpentine Gallery Pavilion algorithm of a kind of brake back plate suspension mold insert |
| CN107309384A (en) * | 2017-08-22 | 2017-11-03 | 邵东智能制造技术研究院有限公司 | A kind of hardware forges and presses blanking device |
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| CN107309384A (en) * | 2017-08-22 | 2017-11-03 | 邵东智能制造技术研究院有限公司 | A kind of hardware forges and presses blanking device |
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|---|---|
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