CN213378544U - Self-centering cold-drawing die base - Google Patents
Self-centering cold-drawing die base Download PDFInfo
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- CN213378544U CN213378544U CN202022258317.9U CN202022258317U CN213378544U CN 213378544 U CN213378544 U CN 213378544U CN 202022258317 U CN202022258317 U CN 202022258317U CN 213378544 U CN213378544 U CN 213378544U
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Abstract
The utility model discloses a from centering cold drawing mould seat, its structure is connected with interior sphere die holder through the bolt on drawing machine head board, the spherical downthehole that interior sphere die holder central point put and is equipped with the unsteady die holder of ectosphere, the bell mouth that the unsteady die holder central point of ectosphere put and is equipped with toper die holder, carbide cold drawing mould is being inlayed to downthehole interference that toper die holder central point put and is equipped with, interior sphere die holder, the unsteady die holder of ectosphere, be equipped with the mould baffle on the toper die holder port, mould baffle excircle terminal surface interval is equipped with six threaded connection holes and passes through the connecting hole fastening connection that is equipped with on fixing bolt and the interior sphere die holder. The utility model has the advantages that: rational in infrastructure, simple to operate is swift, and simple to use can automatic floating centering, draws the precision height, draws the material specification requirement according to needs, and quick replacement toper mould seat is traded promptly and is used, need not the timing, and labour saving and time saving is particularly useful for middle-size and small-size drawbench and draws steel production.
Description
Technical Field
The utility model belongs to steel cold drawing forming die field, concretely relates to from centering cold drawing mould seat.
Background
Cold drawing is a processing technique for forming metal pipes and bars, which not only makes the metal material reach a certain section shape required by people, but also improves the mechanical property of the material, so that a mould is a key factor for determining the quality of the cold-drawn pipes or bars.
At present, in the machining industry of machine manufacturing and spare and accessory parts, the realization of less cutting and no cutting are the development directions of machining and manufacturing, and are also important contents of energy-saving and emission-reducing green machining, if an advanced metal cold-drawing die is provided, the non-cutting and less-cutting machining of mechanical parts can be realized, if the size and the surface precision of round steel after being drawn can reach 7 grades, the die can be directly applied to the machining and manufacturing of various shaft parts.
The existing cold-drawing machine die structure is formed by embedding a hard alloy cold-drawing die in a conical die seat, then carrying out manual coarse grinding, fine grinding and polishing, and because the coaxiality of an alloy central hole line and an outer conical surface central line of the conical die is difficult to ensure in the manual machining and manufacturing process, the cold-drawing die needs to be manually and repeatedly debugged in the cold-drawing steel production process, more importantly, the straightness of the produced product does not reach the standard, great difficulty is brought to subsequent gold machining, more waste materials are cut, the waste of raw materials is great, and the control of the production cost is not facilitated.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming the defect that above-mentioned exists, provide a from centering cold drawing mould seat, the cold drawing mould that adopts this kind of structure is in the unsteady state always, makes the mould remain the position at the central line all the time, can guarantee the straightness accuracy of cold drawing round steel.
In order to realize the aim, the technical proposal of the utility model is a self-centering cold drawing die seat, which comprises a drawing machine head plate, an inner spherical surface die seat, an outer spherical surface floating die seat, a conical die seat, a hard alloy cold drawing die and a die baffle, the head plate of the drawing machine tool is connected with the inner spherical die holder through a first fixing bolt, a spherical hole arranged at the central position of the inner spherical die holder is internally provided with an outer spherical floating die holder, a conical die seat is arranged in a conical hole formed in the central position of the outer spherical surface floating die seat, a hard alloy cold drawing die is embedded in the hole formed in the central position of the conical die seat in an interference manner, the ports of the inner spherical surface die holder, the outer spherical surface floating die holder and the conical die holder are provided with die baffles, and the holes formed in the mould baffle are fixedly connected with the connecting holes formed in the port surface of the inner spherical mould base through second fixing bolts.
Furthermore, at least three adjusting screws and two first fixing bolts are arranged in holes formed in the port of the inner spherical die holder at intervals, the three adjusting screws are used for pre-adjusting the inner spherical die holder, the two first fixing bolts are used for fixedly connecting a head plate of a cold-drawing machine tool, and a backstop gasket is further arranged on each first fixing bolt to prevent the first fixing bolts from loosening to cause displacement of the inner spherical die holder.
Further, six threaded connection holes are formed in the outer circle end face of the die baffle at intervals, eight stepped floating holes are formed in the inner circle end face at intervals, the die baffle is fixedly connected with concentric threaded holes formed in the port of the inner spherical die holder through six second fixing bolts in the six threaded connection holes, and the eight stepped floating holes are used for floating and positioning the outer spherical floating die holder through eight floating pins.
Furthermore, floating springs, flat gaskets and split pins are respectively arranged on the eight floating pins, so that the centers of the outer spherical surface floating die holder and the hard alloy cold drawing die are ensured to float along with the center of the drawing machine.
Furthermore, a cotter pin is arranged in a through hole formed in the side face of the upper portion of the floating pin. The utility model has the advantages that: firstly, the inner spherical die holder is provided with an adjusting screw to facilitate the pre-adjustment of the initial die position, the die is fastened and connected by a first fixing bolt after the die position is adjusted, and the first fixing bolt is provided with a backstop gasket to effectively prevent the inner spherical die holder from moving due to the looseness of the first fixing bolt; secondly, as the outer spherical surface floating die holder is arranged in the inner spherical surface die holder to form a floating self-centering spherical surface structure, the outer conical surface of the conical die holder is matched with the inner conical hole of the outer spherical surface floating die holder, the central line of the hard alloy drawing die changes in a floating way along with the change of the center of the traction pliers vehicle, the center of the die, the center of the jaw and the central line of a workpiece are always ensured to be consistent, and thus the straightness of the cold-drawn round steel is ensured; thirdly, the installation quality of the cold-drawing die is improved, the adjusting time is reduced, bad products generated in the adjusting process are avoided, and the economic benefit of enterprises is improved; fourthly, the outer spherical surface floating die holder is arranged in the inner spherical surface die holder, and the cold-drawing die baffle is arranged on the inner spherical surface die holder through the floating pin and the floating spring, so that the axial centers of the outer spherical surface floating die holder and the hard alloy cold-drawing die are ensured to float along with the center of the drawing machine, and the production quality of the cold-drawn round steel product is improved; fifthly, when materials with different specifications need to be cold-drawn, the conical die base is only needed to be replaced, the production can be realized, the adjustment is not needed, the time and the labor are saved, and the popularization and the use are convenient.
Drawings
FIG. 1 is a front sectional view of the present invention;
fig. 2 is a top view of the present invention;
fig. 3 is a partially enlarged sectional view of a in fig. 1.
Reference numbers in the drawings: 1-drawing machine head plate, 2-internal spherical die holder, 3-backstop gasket, 4-first fixing bolt, 5-die baffle, 6-second fixing bolt, 7-floating spring, 8-floating pin, 9-split pin, 10-flat gasket, 11-hard alloy drawing die, 12-conical die holder, 13-external spherical floating die holder and 14-adjusting screw.
Detailed Description
In order to facilitate understanding of those skilled in the art, the embodiments of the present invention will be further described with reference to the accompanying drawings.
The self-centering cold-drawing die seat shown in the figure 1-2 comprises a drawing machine head plate 1, an inner spherical surface die seat 2, an outer spherical surface floating die seat 13 and a conical die seat 12, hard alloy cold drawing die 11, mould baffle 5, be connected with interior sphere die holder 2 through first fixing bolt 4 on drawing machine head board 1, the spherical hole that interior sphere die holder 2 central point put and be equipped with embeds has the unsteady die holder 13 of ectosphere, the bell mouth that 13 central point of ectosphere float die holder put and be equipped with toper mould seat 12, carbide cold drawing die 11 is being inlayed to downthehole interference that toper mould seat 12 central point put and be equipped with, interior sphere die holder 2, the unsteady die holder 13 of ectosphere, be equipped with mould baffle 5 on the 12 ports of toper mould seat, the downthehole connecting hole fastening connection that is equipped with on through second fixing bolt 6 and the 2 port faces of interior sphere die holder of mould baffle 5.
In a preferred embodiment, at least three adjusting screws 14 and two first fixing bolts 4 are disposed in holes formed in the port of the inner spherical die holder 2 at intervals, wherein the three adjusting screws 14 are used for pre-adjusting the inner spherical die holder 2, the two first fixing bolts 4 are used for fixedly connecting the head plate 1 of the cold-drawing machine tool, and a retaining gasket 3 is further disposed on the first fixing bolts 4 to prevent the inner spherical die holder 2 from being displaced after the first fixing bolts 4 are loosened.
In the preferred embodiment, six threaded connection holes are formed in the outer circle end face of the mold baffle 5 at intervals, eight stepped floating holes are formed in the inner circle end face at intervals, the mold baffle 5 and the concentric threaded holes formed in the ports of the inner spherical mold base 2 are fixedly connected in the six threaded connection holes through six second fixing bolts 6, and the eight stepped floating holes are used for floating and positioning the outer spherical floating mold base 13 through eight floating pins 8.
In a preferred embodiment, the eight floating pins 8 are respectively provided with a floating spring 7, a flat gasket 10 and a split pin 9, so that the centers of the outer spherical surface floating die holder 13 and the hard alloy cold drawing die are ensured to float along with the center of the drawing machine.
In a preferred embodiment, a cotter pin 9 is inserted into a through hole formed in the upper side surface of the floating pin 8.
The utility model discloses during the use, float from the centering die holder and install the downthehole at cold drawing lathe head board with the special sphere of cold drawing machine, and the special sphere of inspection cold drawing machine floats from the straightness that hangs down of centering die holder terminal surface with the cold drawing machine guide rail, when if the deviation does not accord with the requirement, carry out the initial position adjustment with three adjusting screw, need suitably loosen two first fixing bolt during the adjustment, through adjusting the inspection repeatedly until according with the requirement, will draw lathe head board and interior sphere die holder fastening connection with two first fixing bolt at last, this special sphere of cold drawing machine floats from the centering die holder only need install once, need not to adjust again after fixed. Corresponding conical die seats are selected for use according to the specification of drawing the round steel in the production process, so that the production can be realized, debugging is not needed, the cold die can be quickly replaced, the time is saved, and the working efficiency is improved.
The feeding machine of the drawing machine tool sends a traction section of round steel to be drawn into a hard alloy drawing die in production, the jaw of the drawing machine traction tongs car grabs the traction section of the round steel to carry out drawing production, and the straightness of the cold-drawn steel is changed due to the influence of the manufacturing precision of a cold drawing machine and other factors in the drawing process.
The utility model has the advantages of rational in infrastructure, simple to operate is swift, and is simple to use, can float the centering automatically, draws the precision height, draws the material specification requirement according to required, only needs to change the toper mould seat, trades promptly and uses, need not the timing, and labour saving and time saving is particularly adapted to the middle-size and small-size drawbench and draws steel production.
The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they can devise similar structural modes and embodiments without departing from the spirit of the present invention, and shall fall within the protection scope of the present invention.
Claims (5)
1. A self-centering cold-drawing die seat comprises a drawing machine head plate (1), an inner spherical die seat (2), an outer spherical floating die seat (13), a conical die seat (12), a hard alloy cold-drawing die (11) and a die baffle (5), and is characterized in that the drawing machine head plate (1) is connected with the inner spherical die seat (2) through a first fixing bolt (4), the spherical hole formed in the central position of the inner spherical die seat (2) is internally provided with the outer spherical floating die seat (13), the conical hole formed in the central position of the outer spherical floating die seat (13) is internally provided with the conical die seat (12), the hard alloy cold-drawing die (11) is embedded in the hole formed in the central position of the conical die seat (12) in an interference manner, and the die baffle (5) is arranged on the ports of the inner spherical die seat (2), the outer spherical floating die seat (13) and the conical die seat (12), and the holes formed in the mold baffle (5) are fixedly connected with the connecting holes formed in the port surface of the inner spherical mold base (2) through second fixing bolts (6).
2. The self-centering cold drawing die holder according to claim 1, wherein at least three adjusting screws (14) and two first fixing bolts (4) are arranged in holes arranged at intervals on the port of the inner spherical die holder (2), wherein the three adjusting screws (14) are used for pre-adjusting the inner spherical die holder (2), the two first fixing bolts (4) are used for fixedly connecting the drawing machine head plate (1), and the first fixing bolts (4) are further provided with the anti-backing gasket (3) to prevent the first fixing bolts (4) from causing the displacement of the inner spherical die holder (2) after being loosened.
3. The self-centering cold-drawing die holder according to claim 1, wherein six threaded connection holes are formed in the outer circle end face of the die baffle plate (5) at intervals, eight stepped floating holes are formed in the inner circle end face at intervals, the six threaded connection holes are internally and fixedly connected with concentric threaded holes formed in the port of the inner spherical die holder (2) through six second fixing bolts (6), and the eight stepped floating holes are internally and respectively used for floating and positioning the outer spherical floating die holder (13) through eight floating pins (8).
4. A self-centering cold-drawing die holder according to claim 3, wherein the eight floating pins (8) are respectively provided with a floating spring (7), a flat gasket (10) and a split pin (9), so as to ensure that the centers of the outer spherical surface floating die holder (13) and the hard alloy cold-drawing die float along with the center of the drawing machine.
5. A self-centring cold-drawing die holder according to claim 4, characterised in that the floating pin (8) has a cotter pin (9) built into a through hole provided in the upper side.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022258317.9U CN213378544U (en) | 2020-10-12 | 2020-10-12 | Self-centering cold-drawing die base |
Applications Claiming Priority (1)
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CN202022258317.9U CN213378544U (en) | 2020-10-12 | 2020-10-12 | Self-centering cold-drawing die base |
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CN213378544U true CN213378544U (en) | 2021-06-08 |
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CN202022258317.9U Active CN213378544U (en) | 2020-10-12 | 2020-10-12 | Self-centering cold-drawing die base |
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2020
- 2020-10-12 CN CN202022258317.9U patent/CN213378544U/en active Active
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