CN201910328U - Continuous suppression production device - Google Patents
Continuous suppression production device Download PDFInfo
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- CN201910328U CN201910328U CN2010206182072U CN201020618207U CN201910328U CN 201910328 U CN201910328 U CN 201910328U CN 2010206182072 U CN2010206182072 U CN 2010206182072U CN 201020618207 U CN201020618207 U CN 201020618207U CN 201910328 U CN201910328 U CN 201910328U
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Abstract
The utility model discloses a continuous suppression production device, comprising a cutting-off module, a first extruding module, and a second extruding module, wherein the cutting-off module comprises a conveying component, a shearing component arranged at the output end of the conveying component, and a transfer conveying component connected with the output end of the shearing component; the first extruding module comprises a first clamping and feeding component, a first extrusion-forming component and a first transfer conveying component, wherein the first clamping and feeding component is connected with the output end of the transfer conveying component; the first extrusion-forming component is arranged at the output end of the first clamping and feeding component; the first transfer feeding component is connected with the output end of the first extrusion-forming component; the second extruding component comprises a second clamping and conveying component and a second extrusion-forming component, wherein the second clamping and feeding component is connected with the output end of the first transfer conveying component; and the second extrusion-forming component is connected with the output end of the second clamping and feeding component. The continuous suppression production device can realize continuous production, has higher production efficiency, can be formed by suppression without needing to heat a parent material, has lower running cost, and is convenient to generalize.
Description
Technical field
The utility model relates to field of mechanical technique, is specifically related to a kind of continuous compacting process units.
Background technology
Common T shape magnet normally adopts split part (be generally two parts, custom becomes " back plate " to reach " magnetic post ") to combine by welding, and its part " magnetic post " is made for machined into, this " magnetic post " processing mode, and its working (machining) efficiency is lower.
Present stage, it is by compression moulding that some T shape magnet are also arranged, need in its production engineering to reduce its hardness with being carried out annealing in process through the semi-finished product after the compacting for the first time, and then compacting, Here it is usually said cold-heading molding, though this method can solve the defective of traditional machined into, has improved production efficiency, cold headers cost an arm and a leg, form certain production capacity and need huge equipment investment, its operating cost is higher.
Therefore, it is low to develop a kind of operating cost, and the production efficiency height is fit to the magnetic post processing unit (plant) of T shape iron traditional method again, has become the focus of paying close attention in the industry.
Summary of the invention
At the deficiencies in the prior art, the purpose of this utility model is intended to provide a kind of continuous compacting process units, the lower and production efficiency height of its operating cost.
For achieving the above object, the utility model adopts following technical scheme:
A kind of continuous compacting process units comprises the cut-out module, the first die mould module, the second die mould module that are linked in sequence;
The transfer conveying assembly that described cut-out module comprises a conveying assembly, is positioned at the shearing component of conveying assembly output and is connected described shearing component output;
The described first extrusion pressing type module comprises the first hitch feed assembly that is connected described transfer conveying assembly output, the first transfer feeding material component that is positioned at the first extrusion modling assembly of the described first hitch feed assembly output and is connected the described first extrusion modling assembly output;
The described second extruding module comprises second hitch feed assembly that is connected the described first transfer feeding material component output and the second extrusion modling assembly that is connected the described second hitch feed assembly output.
Described conveying assembly comprises the feeding wheels that are installed in described cut-out module front end, be positioned at described feeding wheels top compress wheels and the described compressed oil cylinder assembly that compresses wheels and described feeding wheels spacing of scalable.
The oily assembly of one brush also is installed on the described conveying assembly, and described brush oil assembly comprises and holds oil tank, holds oil tank UNICOM and compress the corresponding oil brushing device in gap between wheels and the feeding wheels and be installed on oil collection box below the described oil brushing device with described with described.
Described shearing component comprises all oil-break cylinders, be connected described cut-out oil cylinder free end die shank, be positioned at the movable clipper of described die shank below; Described movable clipper is positioned at the output of described defeated material assembly, and is connected with the conducting of described transfer conveying assembly by a blanking groove under oblique.
Described transfer conveying assembly comprises a unidirectional drive clutch, is connected the feed table on the described unidirectional drive clutch and be positioned at the bootable positioning disk that is sent object direction in feed table below synchronously; Described positioning disk is positioned at the bottom of described blanking groove.
Its periphery of described feed table upper edge is provided with a plurality of charge chutes, offers the bootable gathering sill that is sent object direction on the described positioning disk.
The first feeding clamp that the described first hitch feed assembly comprises the first feeding slide rail, is installed in the first hitch feed track, first feeding cylinder of the described first feeding slide rail output and is installed in the described first hitch feed track output, the free end of described first feeding cylinder is connected with the end of the described first feeding slide rail.
The described first extrusion modling assembly comprise first mould that is positioned at the described first feeding clamp output lay dish, be positioned at described first mould lay first extrusion oil cylinder directly over the dish, be connected the free-ended first moulding patrix of described first extrusion oil cylinder, be fixed on described mould lay dish go up with the described first moulding patrix about corresponding first formation die core and be positioned at described formation die core discharge end and oblique under the first moulding blanking groove.
The described first transfer pay-off comprises the first transfer unidirectional drive clutch, is connected first feed table on the described first transfer unidirectional drive clutch and be positioned at bootable first positioning disk that is sent object direction in first feed table below synchronously.
The described first die mould module is identical with the second press-moulding die block structure.
The continuous compacting process units that the utility model is set forth, its beneficial effect is:
1, can realize continuous production, have higher production efficiency;
2, need not to heat mother metal, get final product compression moulding;
3, operating cost lower, be convenient to promote.
Description of drawings
Fig. 1 is the structural representation of a kind of continuous compacting process units of the utility model;
Fig. 2 is the structural representation of cutting machine among Fig. 1;
Fig. 3 is the A-A cutaway view of Fig. 2;
Fig. 4 is the B-B cutaway view of Fig. 2;
Fig. 5 is the structural representation of first forming press shown in Figure 1;
Fig. 6 is the C-C cutaway view of Fig. 5;
Fig. 7 is the D-D cutaway view of Fig. 5;
Fig. 8 is the E-E cutaway view of Fig. 7.
Embodiment
Below, in conjunction with the accompanying drawings and embodiment, continuous compacting process units of the present utility model is described further, so that clearerly understand the utility model technological thought required for protection.
As shown in Figure 1, continuous compacting process units of the present utility model comprises cutting machine 1, first forming press 2, second forming press 3, and its three's order connects successively.
Below introduce the structure of cutting machine 1, first forming press 2 and second forming press 3 respectively;
Shown in Fig. 2,3,4, the transfer conveying assembly 13 that above-mentioned cutting machine 1 comprises conveying assembly 11, is positioned at the shearing component 12 of conveying assembly 11 outputs and is connected shearing component 12 outputs; Conveying assembly adopts the runner mode to carry the cylindricality mother metal, it comprises the two conveying runners 111 that are arranged side by side of the mother metal delivery end that cutting machine 1 is installed, two contact rollers that are arranged side by side 112, and two compressed oil cylinder 113, wherein, carry runner 111 and contact roller 112 to be positioned at same plane, and contact roller 112 be positioned at carry runner 111 directly over, and be separated with certain clearance, can make the cylindricality mother metal from passing between it, two compressed oil cylinders 113 lay respectively at the top of two contact rollers 112, its cylinder part is connected on the main body of conveying assembly 11, flexible end then is connected with contact roller 112 downwards, oil cylinder starts, then the height of scalable contact roller 112 to reduce or to increase the gap between contact roller 112 and the conveying runner 111, can adapt to the diameter of different mother metals.In addition, above-mentioned conveying assembly also comprise be positioned at its front end hold oil tank 114 and by pipeline with hold the oil brushing device 115 that oil tank is connected, oil brushing device 115 is connected the below of holding oil tank 114 and is positioned at contact roller 112 and the front end of carrying runner 111 gaps, thus, can implement oiling to the mother metal surface; In addition, below oil brushing device 115, also be provided with an oil collection box 116, can collect the oil plant that drops from mother metal, reused.Shearing component 12 is positioned at the following station of carrying runner 12, it comprises the cut-out oil cylinder 121 that is connected cutting machine 1 main body top, die shank 122, movable clipper 123, the cylinder body that wherein cuts off oil cylinder 121 is fixed on the main body of cutting machine 1, its flexible short connects die shank 122 down, movable clipper 123 is connected on the main body of cutting machine 1 and is positioned at the below of die shank 122, be transported to movable clipper 123 places through the mother metal after conveying assembly 11 processing, the flexible end that cuts off oil cylinder 121 drives die shank 122 downwards, die shank 122 extruding activity clippers 123, mother metal can be sheared and be the short column of size, the free end that cuts off oil cylinder 121 drives die shank 122 and pumps, and then continuable mother metal is processed into the short column of a plurality of sizes.At the output of movable clipper 123 a feeding groove 124 under oblique is installed, the bottom of this feeding groove 124 is connected with transfer conveying assembly 13; Transfer conveying assembly 13 includes a unidirectional drive clutch 131, and the feeding groove 132 that is connected unidirectional drive clutch 131 outputs, unidirectional drive clutch 131, be provided with feed table 133, positioning disk 134, feed table 133 peripheries are provided with a circle material and put groove, positioning disk 134 is provided with a gathering sill according to feed direction, the mother metal that above-mentioned feeding groove 124 is finished shearing is delivered to the material of loading tray 133 and puts in the groove, rotate the intermittence by unidirectional drive clutch 131, the mother metal that shearing is finished transfers in the feeding groove 132 through positioning disk 134 guiding, feeding groove 132 obliquely, the mother metal that shearing can be finished is delivered to first forming press 2.
Fig. 5 for another example, 6,7, shown in 8, above-mentioned first forming press 2 comprises hitch feed assembly 21, be connected the extrusion modling assembly 22 of hitch feed assembly discharge end, and the transfer feeding material component 23 that is installed in extrusion modling assembly 22 discharge ends, wherein hitch feed assembly 21 comprises the slide rail 213 that is installed in feeding groove 132 ends successively, hitch feed track 211, drive cylinder 212, clamp 214, hitch feed track 211 is installed in the end of slide rail 213, the flexible end of cylinder 212 is connected with slide rail 213, cylinder part is fixed on the main body of hitch feed assembly 21, and clamp 214 is positioned at the end of hitch feed track 211.Extrusion modling assembly 22 comprise the extrusion oil cylinder 221, moulding patrix 222, the mould that are positioned at top on first forming press 2 lay the dish 223, core rod 224, wherein moulding patrix 222 is connected the free-ended end that extrusion oil cylinder 221 stretches out downwards, mould lay the dish 223 be positioned at extrusion oil cylinder 221 under, core rod 224 is fixed on mould and lays on the dish 223, and with the moulding patrix about in the of 222 over against, lay dish 223 discharge end at mould, a blanking groove 225 under oblique is installed.Transfer feeding material component 23 comprises unidirectional drive clutch 231, feed table 232, positioning disk 234, feeding groove 233, and this transfer feeding material component 23 is identical with structure, the function of above-mentioned transfer feeding material component 13, does not do repeat specification here.Through shearing the mother metal of processing, sent hitch feed assembly 21, carry out the extrusion modling first time through extrusion modling assembly 22 then, be delivered to second make-up machine 3 through transfer feeding material component 23 afterwards.
Second make-up machine 3 is identical with above-mentioned first make-up machine, 1 structure, does not do repeat specification here, and it will carry out the compacting second time through the mother metal behind the first die mould, and making becomes finished product, delivers to next station.
For a person skilled in the art, can make other various corresponding changes and distortion, and these all changes and distortion should belong within the protection range of the utility model claim all according to technical scheme described above and design.
Claims (10)
1. suppress process units continuously for one kind, comprise the cut-out module, the first die mould module, the second die mould module that are linked in sequence, it is characterized in that,
The transfer conveying assembly that described cut-out module comprises a conveying assembly, is positioned at the shearing component of conveying assembly output and is connected described shearing component output;
The described first extrusion pressing type module comprises the first hitch feed assembly that is connected described transfer conveying assembly output, the first transfer feeding material component that is positioned at the first extrusion modling assembly of the described first hitch feed assembly output and is connected the described first extrusion modling assembly output;
The described second extruding module comprises second hitch feed assembly that is connected the described first transfer feeding material component output and the second extrusion modling assembly that is connected the described second hitch feed assembly output.
2. continuous compacting process units as claimed in claim 1, it is characterized in that, described conveying assembly comprises the feeding wheels that are installed in described cut-out module front end, be positioned at described feeding wheels top compress wheels and the described compressed oil cylinder assembly that compresses wheels and described feeding wheels spacing of scalable.
3. continuous compacting process units as claimed in claim 2, it is characterized in that, the oily assembly of one brush also is installed on the described conveying assembly, and described brush oil assembly comprises and holds oil tank, holds oil tank UNICOM and compress the corresponding oil brushing device in gap between wheels and the feeding wheels and be installed on oil collection box below the described oil brushing device with described with described.
4. continuous compacting process units as claimed in claim 3 is characterized in that, described shearing component comprises all oil-break cylinders, be connected described cut-out oil cylinder free end die shank, be positioned at the movable clipper of described die shank below; Described movable clipper is positioned at the output of described defeated material assembly, and is connected with the conducting of described transfer conveying assembly by a blanking groove under oblique.
5. continuous compacting process units as claimed in claim 4, it is characterized in that described transfer conveying assembly comprises a unidirectional drive clutch, is connected the feed table on the described unidirectional drive clutch and be positioned at the bootable positioning disk that is sent object direction in feed table below synchronously; Described positioning disk is positioned at the bottom of described blanking groove.
6. continuous compacting process units as claimed in claim 5 is characterized in that, its periphery of described feed table upper edge is provided with a plurality of charge chutes, offers the bootable gathering sill that is sent object direction on the described positioning disk.
7. continuous compacting process units as claimed in claim 1, it is characterized in that, the first feeding clamp that the described first hitch feed assembly comprises the first feeding slide rail, is installed in the first hitch feed track, first feeding cylinder of the described first feeding slide rail output and is installed in the described first hitch feed track output, the free end of described first feeding cylinder is connected with the end of the described first feeding slide rail.
8. continuous compacting process units as claimed in claim 7, it is characterized in that, the described first extrusion modling assembly comprise first mould that is positioned at the described first feeding clamp output lay dish, be positioned at described first mould lay first extrusion oil cylinder directly over the dish, be connected the free-ended first moulding patrix of described first extrusion oil cylinder, be fixed on described mould lay dish go up with the described first moulding patrix about corresponding first formation die core and be positioned at described formation die core discharge end and oblique under the first moulding blanking groove.
9. continuous compacting process units as claimed in claim 8, it is characterized in that the described first transfer pay-off comprises the first transfer unidirectional drive clutch, is connected first feed table on the described first transfer unidirectional drive clutch and be positioned at bootable first positioning disk that is sent object direction in first feed table below synchronously.
10. continuous compacting process units as claimed in claim 1 is characterized in that, the described first die mould module is identical with the second press-moulding die block structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010206182072U CN201910328U (en) | 2010-11-22 | 2010-11-22 | Continuous suppression production device |
Applications Claiming Priority (1)
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CN2010206182072U CN201910328U (en) | 2010-11-22 | 2010-11-22 | Continuous suppression production device |
Publications (1)
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CN201910328U true CN201910328U (en) | 2011-07-27 |
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CN2010206182072U Expired - Fee Related CN201910328U (en) | 2010-11-22 | 2010-11-22 | Continuous suppression production device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109133873A (en) * | 2018-08-20 | 2019-01-04 | 镇江裕太防爆电加热器有限公司 | A kind of triangle magnesium pipe continuous mould pressing forming and sintering equipment |
CN109817440A (en) * | 2017-11-21 | 2019-05-28 | 东莞市新日宝成形机器设备有限公司 | A kind of FERRITE CORE integrally forming machine |
-
2010
- 2010-11-22 CN CN2010206182072U patent/CN201910328U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109817440A (en) * | 2017-11-21 | 2019-05-28 | 东莞市新日宝成形机器设备有限公司 | A kind of FERRITE CORE integrally forming machine |
CN109817440B (en) * | 2017-11-21 | 2024-02-27 | 浙江省东阳市伟铭电子有限公司 | Ferrite magnetic core integrated into one piece machine |
CN109133873A (en) * | 2018-08-20 | 2019-01-04 | 镇江裕太防爆电加热器有限公司 | A kind of triangle magnesium pipe continuous mould pressing forming and sintering equipment |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110727 Termination date: 20141122 |
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EXPY | Termination of patent right or utility model |