CN211866303U - High-precision valve block blanking die with optimized structure - Google Patents

Abstract

The utility model discloses a high-precision valve block blanking mould of configuration optimization relates to a mould, including upper die base and die holder, be provided with the limiting plate between upper die base and the die holder, a plurality of first guide post rather than mutually perpendicular are evenly installed to the outward flange of limiting plate, be provided with the upper padding plate of installing in the upper die base bottom directly over the limiting plate, be provided with the lower bolster of installing at the die holder top directly under it, the both ends of every first guide post are embedded respectively on upper padding plate and lower bolster, the upper punch fixed block is installed to the bottom of upper padding plate, the bottom of upper punch fixed block is embedded with the drift, the drift specifically comprises upper portion solid columnar body and lower part lamellar bounding wall, stripping block is installed to the bottom of limiting plate, set up the through-hole that supplies the drift to carry out vertical reciprocating motion on limiting plate and stripping block; the utility model provides a valve block blanking mould can effectively improve the valve block precision of obtaining, has improved the life of equipment simultaneously.

Description

High-precision valve block blanking die with optimized structure

Technical Field

The utility model relates to a mould especially relates to a high accuracy valve block blanking mould of configuration optimization, be used for producing the valve block.

Background

The valve plate for the refrigeration compressor is a high-precision part in structure, is generally finished by a high-precision blanking die in the production process, and has a complex structure and higher manufacturing and maintenance difficulty; because this kind of blanking die has higher precision for guaranteeing, the die carrier structure must have upper padding plate, punch holder (or call as the top dead plate), go up stripping, lower bolster etc. generally, for fixed upper padding plate, punch holder, lower bolster still need cooperate with the guide pillar of die carrier except the pin of location, make the die structure much more complicated like this, produce the accumulation error of mould most easily, the die precision will descend, in case the accumulation error is too big causes the fracture in blanking process very easily to the drift of mould, make the die life greatly reduced.

In the traditional process, in order to reduce the accumulated error, the guide columns are mostly connected with the upper clamping plate and the lower template, and the process directly leads the upper clamping plate and the lower template to be respectively a whole block, so that the precision can be ensured, the preparation cost of the equipment is improved, the internal space of the equipment is small, and the operable space is reduced; and the middle part of the guide post is provided with the stripper plate, so that the stripper plate can effectively strip the material on the one hand and can effectively limit the punch on the other hand, and further the purpose of improving the precision is achieved, but the punch is extremely easy to wear due to the operation, the service life of the punch is reduced, the manufacturing cost is improved, and the stripper plate can only be integrally processed for meeting the requirements of stripping and limiting, so that the manufacturing cost is further increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a high-accuracy valve block blanking mould of configuration optimization to valve block blanking mould structure is complicated among the solution prior art, life hangs down the scheduling technical problem.

The utility model discloses a realize through following technical scheme:

the utility model provides a high-precision valve block blanking die with optimized structure, which comprises an upper die base and a lower die base, wherein a limiting plate is arranged between the upper die base and the lower die base, a plurality of first guide posts which are vertical to each other are uniformly arranged on the outer edge of the limiting plate, an upper padding plate arranged at the bottom of the upper die base is arranged right above the limiting plate, a lower padding plate arranged at the top of the lower die base is arranged right below the limiting plate, two ends of each first guide post are respectively embedded on the upper padding plate and the lower padding plate, an upper punch fixing block is arranged at the bottom of the upper padding plate, a punch is embedded at the bottom of the upper punch fixing block, the punch is specifically composed of an upper solid columnar body and a lower sheet-shaped bounding plate, the cross-sectional area of the sheet-shaped bounding plate is smaller than that of the solid columnar body and is positioned at the center of, the lower die plate corresponding to the punch is mounted at the top of the lower backing plate, through holes for the punch to vertically reciprocate are formed in the limiting plate and the stripping block, and the cross sectional area of each through hole is the same as that of the solid columnar body.

Further, the number of the upper punch fixing blocks is multiple.

Further, the stripping block is multiple in number.

Furthermore, the upper punch fixing block, the stripper plate and the lower template are all positioned in an area defined by the first guide columns.

Further, the upper die holder and the lower die holder are connected through a second guide column.

Furthermore, a plurality of upper limiting columns are uniformly installed at the bottom of the upper die base, and a plurality of lower limiting columns corresponding to the upper limiting columns are uniformly installed at the top of the lower die base.

The utility model provides a high-accuracy valve block blanking mould of configuration optimization compares with prior art, the beneficial effects of the utility model embody:

the two ends of the first guide column are connected with the upper backing plate and the lower backing plate, so that the internal space of the first guide column is effectively increased, the operability in the equipment is improved, and meanwhile, the strength of the guide column can be effectively increased, so that the accuracy of the equipment can be improved; furthermore, the arrangement of the first guide post enables a plurality of upper punch fixing blocks (namely, the upper clamping plates in the prior art) to be arranged inside the first guide post, thereby avoiding the defect of a single upper clamping plate; the limiting plate is connected with the first guide post, and the stripping plate is arranged at the bottom of the first guide post, so that a plurality of stripping plates can be arranged as required, the defect that the traditional equipment can only be provided with one punching head is overcome, the punching head is guided by the limiting plate, the strength of the punching head for resisting deformation is greatly increased by combining the reinforced arrangement of the first guide post and the arrangement of the punching head formed by two parts, and the bottom sheet-shaped coaming plate of the punching head can not be contacted with the limiting plate, so that the service life and the precision of the equipment can be effectively prolonged; this structure is whole to be compared in traditional equipment simple structure, and maneuverability is strong, and the life of equipment is showing and is promoting, by traditional dozens of ten thousand life-spans, improves to several million life-spans, has greatly reduced manufacturing cost.

Drawings

FIG. 1 is a schematic structural view of a structure-optimized high-precision valve plate blanking die provided by the present invention;

fig. 2 is a schematic structural diagram of a punch provided in an embodiment of the present invention;

fig. 3 is a schematic structural view of a conventional valve plate blanking die.

In the figure: 1. an upper die holder; 2. a lower die holder; 3. a limiting plate; 4. a first guide post; 5. an upper base plate; 6. a lower base plate; 7. an upper punch fixing block; 8. a punch; 9. a solid cylindrical body; 10. a sheet-shaped coaming; 11. stripping the material block; 12. a lower template; 13. a through hole; 14. a second guide post; 15. an upper limiting column; 16. a lower restraining post.

Detailed Description

In order to make the technical solutions of the present application better understood by those skilled in the art, the technical solutions of the present application will be clearly and completely described below in conjunction with the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It is noted that the term "comprising" in the description and claims of the present application is intended to cover a non-exclusive inclusion, e.g. a method comprising a list of steps is not necessarily limited to those steps explicitly listed, but may include other steps not explicitly listed or inherent to such methods. The embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail with reference to examples.

Examples

With reference to fig. 1-3, fig. 3 is a schematic structural diagram of a valve plate blanking die in the prior art, and it can be seen from fig. 3 that two ends of an inner guide post in the prior art are respectively connected with an upper clamp plate and a lower die plate, such an arrangement occupies a large amount of space between the upper clamp plate and the lower die plate on one hand, and reduces the operability of the device, and on the other hand, the upper clamp plate and the lower die plate must be of an integral structure, so that the blanking precision can be effectively ensured, not only is the manufacturing cost high, but also the maintenance cost of the device is high, that is, when the upper clamp plate or the lower die plate needs to be replaced, the whole die needs to be replaced; meanwhile, the stripper plate must be integrally manufactured in order to achieve the purposes of stripping, limiting and guiding, so that the manufacturing cost is further increased; the traditional punch structure is thin-walled like the sheet-shaped coaming in fig. 3, so that the friction between the traditional punch structure and the stripper plate is extremely easy to damage in the using process of equipment, the effective service life of the traditional punch structure is reduced, the traditional punch structure only can reach dozens of thousands of times, continuous adjustment is needed in the midway process, and the normal production is greatly influenced.

In this embodiment, in order to overcome the defects of the prior art in fig. 3, effectively prolong the service life of the equipment and reduce the manufacturing cost of the equipment, in this embodiment, a structure-optimized high-precision valve sheet blanking die is provided, the structure of which is similar to that of the prior art in fig. 3, and includes an upper die holder 1 and a lower die holder 2, a limiting plate 3 is provided between the upper die holder 1 and the lower die holder 2, a plurality of first guide posts 4 perpendicular to the limiting plate 3 are uniformly installed on the outer edge of the limiting plate 3, an upper padding plate 5 installed at the bottom of the upper die holder 1 is provided right above the limiting plate 3, a lower padding plate 6 installed at the top of the lower die holder 2 is provided right below the limiting plate 3, and both ends of each first guide post 4 are respectively embedded on the upper padding plate 5 and the lower padding;

in the embodiment, in order to effectively improve the operability of the device, the limiting plate 3 is connected with the first guide post 4 (i.e. the inner guide post in fig. 3), and two ends of the first guide post 4 are respectively embedded on the upper backing plate 5 and the lower backing plate 6, so that the first guide post 4 is no longer directly associated with the upper punch fixing block 7 (i.e. the upper clamping plate in fig. 3), on one hand, the upper punch fixing blocks 7 can be provided in plurality according to requirements, on the other hand, the upper punch fixing block 7 is not in contact with the first guide post 4, so that the maintenance and the replacement of the upper punch fixing block 7 are more convenient, the manufacturing cost is effectively reduced, the processing complexity is reduced, and the direct influence of the first guide post 4 is avoided due to the non-contact with the first guide post 4, so that the blanking precision is improved;

in particular, in the present embodiment, an upper punch fixing block 7 is mounted at the bottom of the upper padding plate 5, a punch 8 is embedded at the bottom of the upper punch fixing block 7, the punch 8 is specifically composed of an upper solid column 9 and a lower thin sheet-shaped coaming 10, and the cross-sectional area of the thin sheet-shaped coaming 10 is smaller than that of the solid column 9 and is located at the center of the bottom of the thin sheet-shaped coaming;

in the present embodiment, the structure of the conventional punch is changed by the above-described arrangement, and in the present embodiment the arrangement of the solid columnar body 9 in the punch 8, so that the defect that the sheet-shaped coaming 10 in the traditional punch is contacted with the limiting plate 3 (namely the stripper plate in figure 3) is replaced in the blanking process, the solid arrangement of the solid columnar body 9 strengthens the self collision strength, and simultaneously strengthens the error correction and correction capability when the solid columnar body is subjected to transverse force, thereby effectively improving the blanking precision of the equipment, and the structure of the sheet-shaped coaming 10 (the cross section of which is smaller than that of the solid columnar body 9 and is positioned at the center of the bottom part thereof), make lamellar bounding wall 10 no longer contact with limiting plate 3 (be the stripper plate in figure 3), when further having improved its life, also improved blanking precision, it no longer receives limiting plate 3's influence promptly.

In particular, in the embodiment, the bottom of the limiting plate 3 is provided with a stripping block 11, the top of the lower backing plate 6 is provided with a lower template 12 corresponding to the punch 8, the limiting plate 3 and the stripping block 11 are provided with a through hole 13 for the punch 8 to reciprocate vertically, and the cross-sectional area of the through hole 13 is the same as that of the solid columnar body 9.

Through the arrangement, the stripping block 11 is adopted to replace the stripping plate in fig. 3 according to the embodiment, so that the whole size of the stripping block 11 can be set according to requirements, the number of the stripping blocks can also be set according to requirements (on the premise that the first guide post 4 is connected with the upper backing plate 5 and the lower backing plate 6), the operability of the equipment is further improved, meanwhile, the stripping block 11 is not in contact with the first guide post 4 any more, the processing requirement of the stripping block can be effectively reduced, the guide effect on the punch 8 is avoided, the accumulation error is eliminated, and the processing precision of the equipment is further improved.

In particular, in the embodiment, in order to further improve the guiding accuracy, the upper die holder 1 and the lower die holder 2 are connected through the second guiding column 14;

through the arrangement of the second guide column 14, the device can be further accurately guided, and the blanking precision of the device is improved.

In particular, in the present embodiment, in order to avoid accidents, a plurality of upper limiting columns 15 are uniformly installed at the bottom of the upper die holder 1, and a plurality of lower limiting columns 16 corresponding to the upper limiting columns 15 are uniformly installed at the top of the lower die holder 2.

The working principle is as follows:

after the equipment is integrally installed on a punching machine tool, an external power device drives an upper die base 1 to move downwards, an upper padding plate 5, an upper fixing block 7, a punch 8, an upper limiting column 15, a limiting plate 3 and a stripping block 11 are synchronously driven to move downwards, the limiting plate 3 and the stripping block 11 stop moving downwards after the stripping block 11 and a lower die plate 12 are in contact with a material belt in the descending process, the stripping block 11 compresses the material belt, at the moment, the upper die base 1, the upper padding plate 5 and the upper fixing block 7 continue moving downwards with the punch 8, and the equipment moves upwards until a thin sheet-shaped coaming plate 10 at the bottom of the punch 8 is matched with the lower die plate 12 to complete punching, so that a punching cycle is.

In the above process, the first guide post 4 and the second guide post 14 can effectively guide the equipment.

In the actual production process, when the valve block blanking mould among the prior art shown in fig. 3 is adopted to carry out valve block blanking, the service life of each set of mould is about 40 ten thousand times, and the mould shown in this embodiment in fig. 1 is adopted to carry out the in-process of producing the valve block with the model, the service life of each set of mould is about 100 ten thousand times, the service life of the mould is obviously prolonged, the mould manufacturing cost is reduced, and when the service life of each set of mould is ended, only the punch fixing block 7 and the punch 8 need to be replaced, the lower template 12 can be replaced, the whole upper clamping plate, the discharging plate and the lower template need not to be replaced as shown in fig. 3, and then the manufacturing cost of the equipment is effectively reduced.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

The present invention is not limited to the above description of the embodiments, and those skilled in the art should be able to make modifications and alterations without creative work on the basis of the present invention.

Claims (6)

1. The utility model provides a high-accuracy valve block blanking mould of configuration optimization, includes upper die base (1) and die holder (2), its characterized in that, be provided with limiting plate (3) between upper die base (1) and die holder (2), a plurality of first guide post (4) rather than mutually perpendicular are evenly installed to the outward flange of limiting plate (3), be provided with upper padding plate (5) of installing in upper die base (1) bottom directly over limiting plate (3), be provided with lower bolster (6) of installing at die holder (2) top directly under it, every the both ends of first guide post (4) are inlayed respectively on upper padding plate (5) and lower bolster (6), upper punch fixed block (7) are installed to the bottom of upper padding plate (5), drift (8) have been inlayed to the bottom of upper punch fixed block (7), drift (8) specifically constitute by solid column body (9) in upper portion and lower part lamellar bounding wall (10), the cross-sectional area of lamellar bounding wall (10) is less than the cross-sectional area of solid columnar body (9) and is in its bottom center department, the bottom of limiting plate (3) is installed and is taken off material piece (11), lower bolster (12) corresponding with drift (8) are installed at the top of lower bolster (6), set up on limiting plate (3) and taking off material piece (11) and supply drift (8) to carry out perpendicular up-and-down motion's through-hole (13), and the cross-sectional area of through-hole (13) is the same with the cross-sectional area of solid columnar body (9).

2. The structure-optimized high-precision valve plate blanking die is characterized in that the number of the upper punch fixing blocks (7) is multiple.

3. A structurally optimized high precision valve plate blanking die according to claim 2, characterized in that the stripping block (11) is embodied in a plurality.

4. The structure-optimized high-precision valve plate blanking die as claimed in claim 3, wherein the upper punch fixing block (7), the stripper plate and the lower die plate (12) are all located in an area surrounded by the first guide columns (4).

5. A structure optimized high-precision valve plate blanking die as claimed in claim 4, wherein the upper die holder (1) and the lower die holder (2) are connected through a second guide column (14).

6. The structure-optimized high-precision valve plate blanking die is characterized in that a plurality of upper limiting columns (15) are uniformly installed at the bottom of the upper die holder (1), and a plurality of lower limiting columns (16) corresponding to the upper limiting columns (15) are uniformly installed at the top of the lower die holder (2).

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