CN103084842A - Metal tubing two-end molding mechanism - Google Patents
Metal tubing two-end molding mechanism Download PDFInfo
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- CN103084842A CN103084842A CN2013100228013A CN201310022801A CN103084842A CN 103084842 A CN103084842 A CN 103084842A CN 2013100228013 A CN2013100228013 A CN 2013100228013A CN 201310022801 A CN201310022801 A CN 201310022801A CN 103084842 A CN103084842 A CN 103084842A
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Abstract
The invention provides a metal tubing two-end molding mechanism which comprises a second molding clamping mechanism, a third molding clamping mechanism, a horizontal switchover mechanism, a molding push mechanism, a cutting mechanism, a first translation molding ejection mechanism, a second translation molding ejection mechanism and a first molding clamping mechanism. The cutting mechanism, the first translation molding ejection mechanism, the second translation molding ejection mechanism and the first molding clamping mechanism are respectively arranged on the molding push mechanism. The first translation molding ejection mechanism and the second translation molding ejection mechanism are arranged at two sides of the first molding clamping mechanism in the pushing direction of the molding push mechanism. The cutting mechanism is arranged behind the first molding clamping mechanism. The horizontal switchover mechanism is arranged in front of the first molding clamping mechanism. A tube front end punch is arranged on the horizontal switchover mechanism. The second molding clamping mechanism and the third molding clamping mechanism are respectively arranged on the horizontal switchover mechanism and distributed in the movement direction of the horizontal switchover mechanism. The metal tubing two-end molding mechanism is capable of not only chambering and molding the front end of a tube, but also chambering and molding the rear end of the tube.
Description
Technical field
The present invention relates to the technical field of tube forming equipment, refer in particular to a kind of metal pipe material two ends shaping mechanism.
Background technology
Known in the industry, although the energy of the shaping mechanism on common cutting machine one-shot forming, reduce the processing number of times, but it generally can only be to the front end moulding of tubing, make like this its design also deposit drawback, such as the tubing after the chipless sawing sheet has some reducings, so just can not insert the plug of bending machine, cause the inconvenience in processing, reduce operating efficiency.Therefore, because of the requirement of actual condition, be badly in need of now a kind of mechanism that can realize tubing two ends moulding.
Summary of the invention
The object of the invention is to overcome the deficiencies in the prior art, the metal pipe material two ends shaping mechanism of a kind of reliable, stable action reasonable in design, high efficiency is provided.
for achieving the above object, technical scheme provided by the present invention is: a kind of metal pipe material two ends shaping mechanism, it includes sawing sheet mechanism, the first translation moulding material jacking mechanism, the second translation moulding material jacking mechanism, the first formation clamping mechanism, the second formation clamping mechanism, the 3rd formation clamping mechanism, horizontal inversion mechanism, the moulding propulsive mechanism, wherein, sawing sheet mechanism, the first translation moulding material jacking mechanism, the second translation moulding material jacking mechanism, the first formation clamping mechanism is arranged on respectively on the moulding propulsive mechanism, driven by this moulding propulsive mechanism and realize that integral translation advances, simultaneously, on the direction of propulsion of moulding propulsive mechanism, this the first translation moulding material jacking mechanism and the second translation moulding material jacking mechanism correspondence are located at the both sides of the first formation clamping mechanism, this sawing sheet mechanism correspondence is located at the rear of the first formation clamping mechanism, and match with this first formation clamping mechanism, described horizontal inversion mechanism is corresponding the place ahead that is located at the first formation clamping mechanism on the direction of propulsion of moulding propulsive mechanism, and, the moving direction of this horizontal inversion mechanism is vertical with the direction of propulsion of moulding propulsive mechanism, this horizontal inversion mechanism is provided with the tubing front end drift that acts on metal pipe material on this first formation clamping mechanism, the second formation clamping mechanism and the 3rd formation clamping mechanism are arranged on respectively on this horizontal inversion mechanism, and the moving direction along this horizontal inversion mechanism is arranged, driven by this horizontal inversion mechanism and realize integral translation, simultaneously, this second formation clamping mechanism matches with the first translation moulding material jacking mechanism, the 3rd formation clamping mechanism matches with the second translation moulding material jacking mechanism.
The cutter head motor that described sawing sheet mechanism includes cutter head and is used for driving this cutter head cutting metal tubing.
described the first translation moulding material jacking mechanism or the second translation moulding material jacking mechanism have included support body, slide block can slide up and down, be used for driving the transposition cylinder that this slide block slides up and down, be used for the short tube push rod that short metal pipe material is released, be used for driving the flexible short tube pusher cylinder of this short tube push rod, wherein, on the direction of propulsion of moulding propulsive mechanism, the slide block correspondence is located at the place ahead of support body, short tube push rod correspondence is located at the rear of slide block, be provided with the transposition cylinder that cylinder body is vertically installed above this slide block, be provided with the short tube pusher cylinder that the cylinder body level is installed at the rear of this short tube push rod, the piston rod of this transposition cylinder down stretches out and is fixedly connected with the top of slide block, the piston rod of this short tube pusher cylinder is released forward and is fixedly connected with an end of short tube push rod, the flexible direction of this short tube push rod is parallel to the direction of propulsion of moulding propulsive mechanism, and, offer the through hole that passes for the short tube push rod on this slide block, simultaneously, be provided with at least one tubing rear end drift of the metal pipe material that acts on the corresponding shaping clamp mechanism on this slide block.
Described the second formation clamping mechanism and the 3rd formation clamping mechanism are the level transposition motor-driven translations by horizontal inversion mechanism.
The moulding propelling cylinder that described moulding propulsive mechanism includes the integrated moving support and is used for driving this integrated moving support translation.
Described tubing rear end drift has two to arrange up and down, is divided into pre-stamping punch and forming punching head, and the through hole that passes for the short tube push rod on slide block is located between these two tubing rear end drifts.
The present invention is after having adopted such scheme, its great advantage be of the present invention rational in infrastructure reliable, efficient is high, not only can be to the front end reaming-forming of tubing, also can be to the rear end reaming-forming of tubing, thereby realized that shaping pipe easily inserts the purpose of plug, its operating efficiency is improved, can satisfies the client to the end forming requirements of tubing simultaneously.
Description of drawings
Fig. 1 is axonometric drawing of the present invention.
Fig. 2 is top view of the present invention.
Fig. 3 is side view of the present invention.
Fig. 4 is the axonometric drawing of the first translation moulding material jacking mechanism of the present invention or the second translation moulding material jacking mechanism.
Fig. 5 is operating principle schematic diagram of the present invention.
The specific embodiment
The invention will be further described below in conjunction with specific embodiment.
referring to accompanying drawing 1 to shown in accompanying drawing 4, the described metal pipe material of the present embodiment two ends shaping mechanism, it includes sawing sheet mechanism 1, the first translation moulding material jacking mechanism 2, the second translation moulding material jacking mechanism 3, the first formation clamping mechanism 4, the second formation clamping mechanism 5, the 3rd formation clamping mechanism 6, horizontal inversion mechanism 7, moulding propulsive mechanism 8, wherein, sawing sheet mechanism 1, the first translation moulding material jacking mechanism 2, the second translation moulding material jacking mechanism 3, the first formation clamping mechanism 4 is arranged on respectively on moulding propulsive mechanism 8, driven by this moulding propulsive mechanism 8 and realize that integral translation advances, simultaneously, on the direction of propulsion of moulding propulsive mechanism 8, this the first translation moulding material jacking mechanism 2 and the second translation moulding material jacking mechanism 3 correspondences are located at the both sides of the first formation clamping mechanism 4, this sawing sheet mechanism 1 correspondence is located at the rear of the first formation clamping mechanism 4, and match with this first formation clamping mechanism 4, described horizontal inversion mechanism 7 is corresponding the place ahead that is located at the first formation clamping mechanism 4 on the direction of propulsion of moulding propulsive mechanism 8, and, the moving direction of this horizontal inversion mechanism 7 is vertical with the direction of propulsion of moulding propulsive mechanism 8, this horizontal inversion mechanism 7 is provided with the tubing front end drift 9 that acts on metal pipe material on this first formation clamping mechanism 4, the second formation clamping mechanism 5 and the 3rd formation clamping mechanism 6 are arranged on respectively on this horizontal inversion mechanism 7, and the moving direction along this horizontal inversion mechanism 7 is arranged, driven by this horizontal inversion mechanism 7 and realize integral translation, simultaneously, this second formation clamping mechanism 5 matches with the first translation moulding material jacking mechanism 2, the 3rd formation clamping mechanism 6 matches with the second translation moulding material jacking mechanism 3, this tubing front end drift 9 is between the second formation clamping mechanism 5 and the 3rd formation clamping mechanism 6.
The cutter head motor 1-2 that described sawing sheet mechanism 1 includes cutter head 1-1 and is used for driving this cutter head 1-1 cutting metal tubing.
described the first translation moulding material jacking mechanism 2 or the second translation moulding material jacking mechanism 3 have included support body 10, slide block 11 can slide up and down, be used for driving the transposition cylinder 12 that this slide block 11 slides up and down, be used for the short tube push rod 13 that short metal pipe material is released, be used for driving the flexible short tube pusher cylinder 14 of this short tube push rod 13, wherein, on the direction of propulsion of moulding propulsive mechanism 8, slide block 11 correspondences are located at the place ahead of support body 10, short tube push rod 13 correspondences are located at the rear of slide block 11, be provided with the transposition cylinder 12 that cylinder body is vertically installed above this slide block 11, be provided with the short tube pusher cylinder 14 that the cylinder body level is installed at the rear of this short tube push rod 13, the piston rod of this transposition cylinder 12 down stretches out and is fixedly connected with the top of slide block 11, the piston rod of this short tube pusher cylinder 14 is released forward and is fixedly connected with an end of short tube push rod 13, the flexible direction of this short tube push rod 13 is parallel to the direction of propulsion of moulding propulsive mechanism 8, and, offer the through hole 18 that passes for short tube push rod 13 on this slide block 11, simultaneously, the tubing rear end drift that is provided with on this slide block 11 that two of the metal pipe material that acts on the corresponding shaping clamp mechanism arrange up and down, be divided into pre-stamping punch 15-1 and forming punching head 15-2, and, the through hole 18 that passes for short tube push rod 13 on slide block 11 is located between these two tubing rear end drifts.
Described the second formation clamping mechanism 5 and the 3rd formation clamping mechanism 6 are the level transposition motor 7-1 driving translations by horizontal inversion mechanism 7.
The moulding propelling cylinder 8-2 that described moulding propulsive mechanism 8 includes integrated moving support 8-1 and is used for driving this integrated moving support 8-1 translation, wherein, described sawing sheet mechanism 1, the first translation moulding material jacking mechanism 2, the second translation moulding material jacking mechanism 3, the first formation clamping mechanism 4 are to be arranged on respectively on integrated moving support 8-1.
be below the specific works principle of the above-mentioned metal pipe material of the present embodiment two ends shaping mechanism: shown in accompanying drawing 5, at first (cutter head 1-1 is incising pipes under the drive of cutter head motor 1-2 for sawing sheet mechanism 1 sawing sheet, but do not cut off), then feeding to the first formation clamping mechanism 4 places clamping, A condition as shown in Figure 5, horizontal inversion mechanism 7 actions afterwards, until the tubing front end drift 9 on it is moved to the tubing front end that the first formation clamping mechanism 4 clamps, and aim at this tubing, B state as shown in Figure 5, tubing advances under the promotion of the moulding propelling cylinder 8-2 of moulding propulsive mechanism 8 afterwards, carries out the front end reaming-forming, and after moulding, propulsive mechanism 8 resets, and the first formation clamping mechanism 4 unclamps afterwards, continue feeding, at this moment, the second formation clamping mechanism 5 is under the effect of horizontal inversion mechanism 7, come the place ahead of the first formation clamping mechanism 4, and together with the first formation clamping mechanism 4, tubing is clamped, under the effect of moulding propulsive mechanism 8, the first formation clamping mechanism 4 is broken tubing afterwards, the second formation clamping mechanism 5 clips the tubing 16 of front end moulding, C state as shown in Figure 5, horizontal inversion mechanism 7 moves again afterwards, the second formation clamping mechanism 5 is removed, and tubing front end drift 9 is moved to the predeterminated position in first formation clamping mechanism 4 the place aheads, D state as shown in Figure 5, sawing sheet mechanism 1 continues sawing sheet afterwards, material is delivered to the first formation clamping mechanism 4 places clamping, the tubing of the first formation clamping mechanism 4 clampings advances under the promotion of moulding propelling cylinder 8-2 afterwards, carry out the front end reaming-forming, horizontal inversion mechanism 7 continues action afterwards, the second formation clamping mechanism 5 that clips front end shaping pipe 16 is moved to the place ahead of the first translation moulding material jacking mechanism 2, simultaneously, the 3rd formation clamping mechanism 6 is come the place ahead of the first formation clamping mechanism 4, E state as shown in Figure 5, the first translation moulding material jacking mechanism 2 is under the promotion of moulding propelling cylinder 8-2 afterwards, tubing 16 on the second formation clamping mechanism 5 is carried out the rear end reaming-forming, moulding aftershaping propelling cylinder 8-2 resets, two ends shaping pipe on the second formation clamping mechanism 5 is removed by the Material moving device of subsequent processing and is carried out following process, but the pipe length on the second formation clamping mechanism 5 more in short-term, the clamping of Material moving device can not clamp short tube, can not realize moving material, at this moment, short tube push rod 13 will be clamped under the effect of short tube pusher cylinder 14 during short tube on the second formation clamping mechanism 5 is pushed into the clamping of Material moving device, realization moves material, the first formation clamping mechanism 4 unclamps afterwards, continue feeding, the 3rd formation clamping mechanism 6 clamps the tubing of front end moulding together with the first formation clamping mechanism 4, afterwards under the effect of moulding propulsive mechanism 8, the first formation clamping mechanism 4 is broken tubing, the 3rd formation clamping mechanism 6 clips the tubing 17 of front end moulding, F state as shown in Figure 5, horizontal inversion mechanism 7 moves again afterwards, the 3rd formation clamping mechanism 6 is removed, and tubing front end drift 9 is moved to the predeterminated position in first formation clamping mechanism 4 the place aheads, G state as shown in Figure 5, sawing sheet mechanism 1 continues sawing sheet afterwards, material is delivered to the first formation clamping mechanism 4 places clamping, the tubing of the first formation clamping mechanism 4 clampings advances under the promotion of moulding propelling cylinder 8-2 afterwards, carry out the front end reaming-forming, horizontal inversion mechanism 7 continues action afterwards, the 3rd formation clamping mechanism 6 that clips the front end shaping pipe is moved to the place ahead of the second translation moulding material jacking mechanism 3, simultaneously, the second formation clamping mechanism 5 is come the place ahead of the first formation clamping mechanism 4 and is carried out material folding again, H state as shown in Figure 5, the second translation moulding material jacking mechanism 3 is under the promotion of moulding propelling cylinder 8-2 afterwards, tubing 17 on the 3rd formation clamping mechanism 6 is carried out the rear end reaming-forming, moulding aftershaping propelling cylinder 8-2 resets, two ends shaping pipe on the 3rd formation clamping mechanism 6 is removed by the Material moving device of subsequent processing and is carried out following process, equally, pipe length on the 3rd formation clamping mechanism 6 more in short-term, the clamping of Material moving device can not clamp short tube, can not realize moving material, at this moment, short tube push rod 13 will be clamped under the effect of short tube pusher cylinder 14 during short tube on the 3rd formation clamping mechanism 6 is pushed into the clamping of Material moving device, realization moves material, the first formation clamping mechanism 4 unclamps afterwards, continue feeding, the second formation clamping mechanism 5 clamps the tubing of front end moulding together with the first formation clamping mechanism 4, afterwards under the effect of moulding propulsive mechanism 8, the first formation clamping mechanism 4 is broken tubing, the the secondth formation clamping mechanism 5 clips the tubing 18 of front end moulding, I state as shown in Figure 5, sawing sheet mechanism 1 afterwards, the first translation moulding material jacking mechanism 2, the second translation moulding material jacking mechanism 3, the first formation clamping mechanism 4, the second formation clamping mechanism 5, the 3rd formation clamping mechanism 6, horizontal inversion mechanism 7, moulding propulsive mechanism 8 repeats its above course of action, just can realize the batch production of tubing chambering at two ends moulding, wherein, in said process, when the one-time formed tubing of energy is carried out reaming, the first translation moulding material jacking mechanism 2 and the second translation moulding material jacking mechanism 3 employing forming punching head 15-2 carry out the one-shot forming reaming just can, but to can not one-time formed tubing (one time reaming-forming can cause the tubing distortion) when carrying out reaming, need repeatedly reaming-forming this moment, namely that the first translation moulding material jacking mechanism 2 and the second translation moulding material jacking mechanism 3 are when carrying out the rear end reaming-forming to such tubing, to first carry out pre-reaming with pre-stamping punch 15-1, replace by 12 pairs of drifts of transposition cylinder more afterwards, carry out the post forming reaming with forming punching head 15-2.After adopting above scheme, compared to existing technology, the present invention is rational in infrastructure reliable, can realize well the chambering at two ends moulding of tubing, and high efficiency, is a desirable metal pipe material two ends shaping mechanisms, is worthy to be popularized.
The embodiment of the above only is the present invention's preferred embodiment, is not to limit practical range of the present invention with this, therefore the variation that all shapes according to the present invention, principle are done all should be encompassed in protection scope of the present invention.
Claims (6)
1. metal pipe material two ends shaping mechanism, it is characterized in that: it includes sawing sheet mechanism (1), the first translation moulding material jacking mechanism (2), the second translation moulding material jacking mechanism (3), the first formation clamping mechanism (4), the second formation clamping mechanism (5), the 3rd formation clamping mechanism (6), horizontal inversion mechanism (7), moulding propulsive mechanism (8), wherein, sawing sheet mechanism (1), the first translation moulding material jacking mechanism (2), the second translation moulding material jacking mechanism (3), the first formation clamping mechanism (4) is arranged on respectively on moulding propulsive mechanism (8), driven by this moulding propulsive mechanism (8) and realize that integral translation advances, simultaneously, on the direction of propulsion of moulding propulsive mechanism (8), this the first translation moulding material jacking mechanism (2) and the second translation moulding material jacking mechanism (3) correspondence are located at the both sides of the first formation clamping mechanism (4), this sawing sheet mechanism (1) correspondence is located at the rear of the first formation clamping mechanism (4), and match with this first formation clamping mechanism (4), described horizontal inversion mechanism (7) correspondence on the direction of propulsion of moulding propulsive mechanism (8) is located at the place ahead of the first formation clamping mechanism (4), and, the moving direction of this horizontal inversion mechanism (7) is vertical with the direction of propulsion of moulding propulsive mechanism (8), this horizontal inversion mechanism (7) is provided with the tubing front end drift (9) that acts on the upper metal pipe material of this first formation clamping mechanism (4), the second formation clamping mechanism (5) and the 3rd formation clamping mechanism (6) are arranged on respectively on this horizontal inversion mechanism (7), and the moving direction along this horizontal inversion mechanism (7) is arranged, driven by this horizontal inversion mechanism (7) and realize integral translation, simultaneously, this second formation clamping mechanism (5) matches with the first translation moulding material jacking mechanism (2), the 3rd formation clamping mechanism (6) matches with the second translation moulding material jacking mechanism (3).
2. a kind of metal pipe material according to claim 1 two ends shaping mechanism, is characterized in that: the cutter head motor (1-2) that described sawing sheet mechanism (1) includes cutter head (1-1) and is used for driving this cutter head (1-1) cutting metal tubing.
3. a kind of metal pipe material according to claim 1 two ends shaping mechanism, it is characterized in that: described the first translation moulding material jacking mechanism (2) or the second translation moulding material jacking mechanism (3) have included support body (10), slide block (11) can slide up and down, be used for driving the transposition cylinder (12) that this slide block (11) slides up and down, be used for the short tube push rod (13) that short metal pipe material is released, be used for driving the flexible short tube pusher cylinder (14) of this short tube push rod (13), wherein, on the direction of propulsion of moulding propulsive mechanism (8), slide block (11) correspondence is located at the place ahead of support body (10), short tube push rod (13) correspondence is located at the rear of slide block (11), be provided with the transposition cylinder (12) that cylinder body is vertically installed in the top of this slide block (11), be provided with the short tube pusher cylinder (14) that the cylinder body level is installed at the rear of this short tube push rod (13), the piston rod of this transposition cylinder (12) down stretches out and is fixedly connected with the top of slide block (11), the piston rod of this short tube pusher cylinder (14) is released forward and is fixedly connected with an end of short tube push rod (13), the flexible direction of this short tube push rod (13) is parallel to the direction of propulsion of moulding propulsive mechanism (8), and, offer the through hole (18) that passes for short tube push rod (13) on this slide block (11), simultaneously, be provided with at least one tubing rear end drift of the metal pipe material that acts on the corresponding shaping clamp mechanism on this slide block (11).
4. a kind of metal pipe material according to claim 1 two ends shaping mechanism is characterized in that: described the second formation clamping mechanism (5) and the 3rd formation clamping mechanism (6) are that the level transposition motor (7-1) by horizontal inversion mechanism (7) drives translation.
5. a kind of metal pipe material according to claim 1 two ends shaping mechanism, it is characterized in that: the moulding propelling cylinder (8-2) that described moulding propulsive mechanism (8) includes integrated moving support (8-1) and is used for driving this integrated moving support (8-1) translation, wherein, described sawing sheet mechanism (1), the first translation moulding material jacking mechanism (2), the second translation moulding material jacking mechanism (3), the first formation clamping mechanism (4) are to be arranged on respectively on integrated moving support (8-1).
6. a kind of metal pipe material according to claim 3 two ends shaping mechanism, it is characterized in that: described tubing rear end drift has two to arrange up and down, be divided into pre-stamping punch (15-1) and forming punching head (15-2), and the upper through hole (18) that passes for short tube push rod (13) of slide block (11) is located between these two tubing rear end drifts.
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CN201310022801.3A CN103084842B (en) | 2013-01-22 | 2013-01-22 | Metal tubing two-end molding mechanism |
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CN201310022801.3A CN103084842B (en) | 2013-01-22 | 2013-01-22 | Metal tubing two-end molding mechanism |
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CN103084842B CN103084842B (en) | 2015-03-25 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103394593A (en) * | 2013-07-26 | 2013-11-20 | 温州康通环保科技有限公司 | Hydraulic drive type pipe end forming equipment for press pipe fittings |
CN109261820A (en) * | 2018-08-10 | 2019-01-25 | 慈溪市天泽厨具有限公司 | A kind of feeding device of port machine |
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CN103394593B (en) * | 2013-07-26 | 2014-09-10 | 温州康通环保科技有限公司 | Hydraulic drive type pipe end forming equipment for press pipe fittings |
CN109261820A (en) * | 2018-08-10 | 2019-01-25 | 慈溪市天泽厨具有限公司 | A kind of feeding device of port machine |
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Effective date of registration: 20160105 Address after: 528226 Guangdong Province, Foshan City Nanhai Luocun North Industrial Park north side Patentee after: Huang Weiming Address before: 528226 Guangdong Province, Foshan City Nanhai Luocun North Industrial Park North Foshan arrow side Machinery Co. Ltd. Patentee before: Huang Weiming |