CN215786125U - Efficient soft magnetic alloy iron core mold - Google Patents

Abstract

The utility model discloses a high-efficiency soft magnetic alloy iron core die, wherein the lower surface of an upper die base is connected with the upper surface of an upper backing plate, the lower surface of the upper backing plate is connected with the upper surface of an upper clamping plate, the lower surface of a stop plate is connected with the upper surface of an upper supporting plate, a pressing die punch, a punching rod punch and a positioning column punch are all arranged on the stop plate and the upper supporting plate in a penetrating way, the lower surface of the upper supporting plate is provided with a feeding channel, the lower surface of a lower die plate is connected with a lower backing plate, the lower surface of the lower backing plate is connected with the upper surface of a lower die base, the lower die plate is provided with a plurality of pressing die block feeding grooves, punching rod block feeding grooves and positioning column block feeding grooves, pressing die blocks are arranged in the pressing die block feeding grooves, punching rod feeding blocks are arranged in the punching rod feeding grooves, and positioning column feeding blocks are arranged in the positioning column feeding grooves. The workpiece plate is guaranteed not to move in the stamping process, and the precision is greatly improved.

Description

Efficient soft magnetic alloy iron core mold

Technical Field

The utility model relates to the technical field of soft magnetic alloy iron core molds, in particular to a high-efficiency soft magnetic alloy iron core mold.

Background

At present, workpiece stamping is generally carried out firstly in the preparation process of the soft magnetic alloy iron core die, then the workpiece is fixed in a punching die for punching, the efficiency is low, the stability is not good in the punching process, the workpiece plate is easy to move, the precision is low, and one die is matched with one workpiece, the application range is small, so that an improved technology is urgently needed to solve the problem in the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an efficient soft magnetic alloy iron core die which is reasonable in structure, a punching rod punch and a die punch are positioned in the same material conveying channel, punching can be performed firstly and then workpiece punching is performed, a workpiece with an assembly hole is directly obtained, the workpiece preparation efficiency is greatly improved, the equipment cost is saved, a positioning column punch is further arranged at the material conveying channel, the workpiece plate can be positioned, the workpiece plate is ensured not to move in the punching process, the precision is greatly improved, the die insert is installed in a die insert groove, the punching rod insert is installed in a punching rod insert groove, the positioning column insert is installed in a positioning column insert groove, the replacement of the insert is convenient, and the applicability is greatly improved by replacing the die punch so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a high-efficiency soft magnetic alloy iron core die comprises an upper die main body and a lower die main body;

the upper die main body comprises an upper die base, an upper base plate, an upper clamping plate, a stop plate and an upper supporting plate, wherein the lower surface of the upper die base is connected with the upper surface of the upper base plate, the lower surface of the upper base plate is connected with the upper surface of the upper clamping plate, the upper clamping plate is provided with a plurality of die hanging table holes, a plurality of punching rod hanging table holes and positioning column hanging table holes, the die hanging table holes are matched with the top ends of die punching heads, the punching rod hanging table holes are matched with the top ends of the punching rod punching heads, the lower surface of the stop plate is connected with the upper surface of the upper supporting plate, the die punching heads, the punching rod punching heads and the positioning column punching heads are all arranged on the stop plate and the upper supporting plate in a penetrating manner, the lower surface of the upper supporting plate is provided with a material feeding channel, and the die punching heads, the punching rod punching heads and the positioning columns are all positioned at the material feeding channel;

the lower die main body comprises a lower die plate, a lower cushion plate and a lower die base, the lower surface of the lower die plate is connected with the lower cushion plate, the lower surface of the lower cushion plate is connected with the upper surface of the lower die base, the lower die plate is provided with a plurality of die block entering grooves, a stamping rod entering groove and a positioning column entering groove, a stamping die entering block is arranged in the die block entering groove, a stamping rod entering block is arranged in the stamping rod entering groove, a positioning column entering block is arranged in the positioning column entering groove, the lower cushion plate is provided with a stamping hole, a stamping hole and a positioning column hole in a penetrating mode, the stamping hole is matched with a stamping die punch, the stamping hole is matched with the stamping rod punch, the positioning column hole is matched with the positioning column punch, the lower die base is provided with a workpiece blanking hole, a plurality of first pore plates and a second pore plate blanking hole, and the lower die base is matched with the upper die base through a guide rod.

Preferably, the high-efficiency soft magnetic alloy iron core die provided by the utility model is characterized in that the upper die base is provided with a plurality of sliding sleeve mounting holes, and sliding sleeves are arranged in the sliding sleeve mounting holes and are used for being matched with the guide rod.

Preferably, the efficient soft magnetic alloy iron core die provided by the utility model is characterized in that the lower die base is provided with a plurality of guide rod assembly holes, guide rods are arranged in the guide rod assembly holes, and the guide rods correspond to the sliding sleeves and are matched with the sliding sleeves, so that the stability between the upper die main body and the lower die main body is ensured.

Preferably, the high-efficiency soft magnetic alloy iron core die provided by the utility model is characterized in that the stop plate is connected with the upper die base through a spring, the upper end of the spring penetrates through the upper base plate and the upper clamping plate, the connection between the stop plate and the upper die base is realized, and the buffering performance is ensured.

Preferably, the upper die holder, the upper base plate and the upper clamping plate are connected through screws, so that the upper die holder, the upper base plate and the upper clamping plate can be conveniently connected and detached.

Preferably, the stop plate and the upper supporting plate are connected through screws, so that the stop plate and the upper supporting plate can be conveniently connected and detached.

Preferably, the lower die plate, the lower backing plate and the lower die base are connected through screws, so that the lower die plate, the lower backing plate and the lower die base can be conveniently connected and detached.

Preferably, the utility model provides a high-efficiency soft magnetic alloy iron core die, wherein.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the punching rod punch and the die punch are positioned in the same material conveying channel, punching can be performed firstly, then workpiece punching can be performed, a workpiece with an assembly hole is directly obtained, the workpiece preparation efficiency is greatly improved, and the equipment cost is saved.

(2) The positioning column punch is arranged at the position of the feeding channel, so that the positioning of the workpiece plate can be realized, the workpiece plate is ensured not to move in the punching process, and the precision is greatly improved.

(3) The moulding-die goes into the piece and installs moulding-die income piece inslot, and the punching press pole goes into the piece and installs punching press pole income piece inslot, and the reference column goes into the piece and installs the reference column and goes into the piece inslot, is convenient for go into the change of piece, and the rethread is changed the moulding-die drift, and the suitability improves greatly.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the upper plate;

FIG. 4 is a schematic view of the structure of the lower template;

FIG. 5 is a schematic view of a lower template structure (a state when an upper die insert, a punch rod insert, and a positioning post insert are mounted);

FIG. 6 is a schematic view of the structure of the lower die holder.

In the figure: the stamping die comprises an upper die base 1, an upper backing plate 2, an upper clamping plate 3, a stop plate 4, an upper supporting plate 5, a stamping die hanging table hole 6, a stamping rod hanging table hole 7, a positioning column hanging table hole 8, a stamping die punch 9, a stamping rod punch 10, a positioning column punch 11, a material walking channel 12, a lower die plate 13, a lower backing plate 14, a lower die base 15, a stamping die block entering groove 16, a stamping rod block entering groove 17, a positioning column block entering groove 18, a stamping die block entering 19, a stamping rod block entering 20, a positioning column block entering 21, a workpiece blanking hole 22, a first pore plate blanking hole 23, a second pore plate blanking hole 24, a sliding sleeve 25, a guide rod 26 and a spring 27.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without any creative effort belong to the protection scope of the present invention;

it should be noted that, in the description of the present invention, it should be noted that the terms "inside", "outside", "upper", "lower", "both sides", "one end", "the other end", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a high-efficiency soft magnetic alloy iron core die comprises an upper die main body and a lower die main body; the upper die main body comprises an upper die base 1, an upper padding plate 2, an upper clamping plate 3, a stop plate 4 and an upper supporting plate 5, the lower surface of the upper die base 1 is connected with the upper surface of the upper padding plate 2, the lower surface of the upper padding plate 2 is connected with the upper surface of the upper clamping plate 3, the upper die base 1, the upper padding plate 2 and the upper clamping plate 3 are connected through screws, the upper clamping plate 3 is provided with a plurality of die hanging table holes 6, a plurality of stamping rod hanging table holes 7 and positioning column hanging table holes 8, the die hanging table holes 6 are matched with the top end of a die punching head 9, the stamping rod hanging table holes 7 are matched with the top end of the stamping rod punching head 10, the positioning column hanging table holes 8 are matched with the top end of a positioning column punching head 11, the lower surface of the stop plate 4 is connected with the upper surface of the upper supporting plate 5, the stop plate 4 and the upper supporting plate 5 are connected through screws, the stop plate 4 is connected with the upper die base 1 through a spring 27, the upper end of the spring 27 penetrates through the upper padding plate 2 and the upper clamping plate 3, the die head 9 and the stamping rod punching head 10, The positioning column punch 11 penetrates through the stop plate 4 and the upper supporting plate 5, the lower surface of the upper supporting plate 5 is provided with a material feeding channel 12, the pressing die punch 9, the punching rod punch 10 and the positioning column punch 11 are all positioned at the material feeding channel 12, the upper die base 1 is provided with a plurality of sliding sleeve mounting holes, and sliding sleeves 25 are arranged in the sliding sleeve mounting holes; the lower die main body comprises a lower die plate 13, a lower backing plate 14 and a lower die base 15, the lower die base 15 is provided with a plurality of guide rod assembly holes, guide rods 26 are arranged in the guide rod assembly holes, the guide rods 26 correspond to and are matched with a sliding sleeve 25, the lower surface of the lower die plate 13 is connected with the lower backing plate 14, the lower surface of the lower backing plate 14 is connected with the upper surface of the lower die base 15, the lower die plate 13, the lower backing plate 14 and the lower die base 15 are connected through screws, the lower die plate 13 is provided with a plurality of die insert grooves 16, a punching rod insert groove 17 and a positioning post insert groove 18, a die insert block 19 is arranged in the die insert groove 16, a punching rod insert 20 is arranged in the punching rod insert groove 17, a positioning post insert block 21 is arranged in the positioning post insert groove 18, a die pressing hole, a punching hole and a positioning post hole are formed in the lower backing plate 14 in a penetrating manner, the die hole is matched with a die punching head 9, the punching hole is matched with the punching rod punch head 10, and the positioning post hole is matched with the positioning post punch head 11, the lower die holder 15 is provided with a workpiece blanking hole 22, a plurality of first pore plate blanking holes 23 and a second pore plate blanking hole 24.

The installation method and the use principle are as follows: a die punch 9 penetrates through a die hanging hole 6 of an upper clamp plate 3, a punching rod punch 10 penetrates through a punching rod hanging hole 7 of the upper clamp plate 3, a positioning column punch 11 penetrates through a positioning column hanging hole 8 of the upper clamp plate 3, then an upper die holder 1, an upper backing plate 2 and the upper clamp plate 3 are connected through screws, a stop plate 4 and an upper supporting plate 5 are connected through screws, the stop plate 4 is connected with the upper die holder 1 through a spring 27, the upper end of the spring 27 penetrates through the upper backing plate 2 and the upper clamp plate 3, a lower die plate 13, a lower backing plate 14 and a lower die holder 15 are connected through screws, a die insert block 19 is arranged in a die insert block groove 16, a punching rod insert block 20 is arranged in a punching rod insert groove 17, a positioning column insert block 21 is arranged in a positioning column insert groove 18, assembly is completed, when the die plate is used, a workpiece plate body is conveyed into a material conveying channel 12 formed in the lower surface of the upper supporting plate 5, and material is conveyed through a material conveying device, the positioning is realized through the positioning column punch 11, the waste punched by the positioning column punch 11 falls out of the second pore plate blanking hole 24, then the punching of the workpiece position is carried out through the punching rod punch 10, the waste punched by the punching rod punch 10 falls out of the corresponding first pore plate blanking hole 23 and continues to advance, the workpiece is pressed through the pressing die punch 9, the workpiece falls out of the workpiece blanking hole 22, and the waste continues to advance. The punching rod punch 10 and the die punch 9 are positioned in the same material conveying channel 12, punching can be performed firstly, then workpiece punching can be performed, a workpiece with an assembly hole can be directly obtained, the workpiece preparation efficiency is greatly improved, and the equipment cost is saved; a positioning column punch 11 is also arranged at the position of the feeding channel 12, so that the positioning of the workpiece plate can be realized, the workpiece plate is ensured not to move in the punching process, and the precision is greatly improved; the pressing die insert block 19 is arranged in the pressing die insert block groove 16, the punching rod insert block 20 is arranged in the punching rod insert block groove 17, the positioning column insert block 21 is arranged in the positioning column insert block groove 18, the replacement of the insert block is facilitated, the pressing die punch head 9 is replaced, and the applicability is greatly improved.

The utility model is not described in detail, but is well known to those skilled in the art.

Finally, it is to be noted that: although the present invention has been described in detail with reference to examples, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (7)

1. The utility model provides an efficient soft magnetic alloy iron core mould which characterized in that: comprises an upper die main body and a lower die main body;

the upper die main body comprises an upper die base (1), an upper base plate (2), an upper clamping plate (3), a stop plate (4) and an upper supporting plate (5), the lower surface of the upper die base (1) is connected with the upper surface of the upper base plate (2), the lower surface of the upper base plate (2) is connected with the upper surface of the upper clamping plate (3), the upper clamping plate (3) is provided with a plurality of pressing die hanging table holes (6), a plurality of punching rod hanging table holes (7) and positioning column hanging table holes (8), the pressing die hanging table holes (6) are matched with the top end of a pressing die punch (9), the punching rod hanging table holes (7) are matched with the top end of a punching rod punch (10), the positioning column hanging table holes (8) are matched with the top end of a positioning column punch (11), the lower surface of the stop plate (4) is connected with the upper surface of the upper supporting plate (5), the punching die (9), the punching rod punch (10) and the positioning column punch (11) are all penetrated through the stop plate (4) and the upper supporting plate (5), a feeding channel (12) is formed in the lower surface of the upper supporting plate (5), and the die punch (9), the punching rod punch (10) and the positioning column punch (11) are all located at the feeding channel (12);

the lower die main body comprises a lower die plate (13), a lower cushion plate (14) and a lower die base (15), the lower surface of the lower die plate (13) is connected with the lower cushion plate (14), the lower surface of the lower cushion plate (14) is connected with the upper surface of the lower die base (15), the lower die plate (13) is provided with a plurality of die insert grooves (16), a punching rod insert groove (17) and a positioning column insert groove (18), a die insert block (19) is arranged in the die insert groove (16), a punching rod insert block (20) is arranged in the punching rod insert groove (17), a positioning column insert block (21) is arranged in the positioning column insert groove (18), a die pressing hole, a punching hole and a positioning column hole are formed in the lower cushion plate (14) in a penetrating manner, the die pressing hole is matched with the die punching head (9), the punching hole is matched with the punching rod punching head (10), and the positioning column hole is matched with the positioning column punching head (11), the lower die holder (15) is provided with a workpiece blanking hole (22), a plurality of first pore plate blanking holes (23) and second pore plate blanking holes (24), and the lower die holder (15) is matched with the upper die holder (1) through a guide rod (26).

2. A high efficiency soft magnetic alloy core mold as recited by claim 1, wherein: a plurality of sliding sleeve mounting holes are formed in the upper die base (1), and sliding sleeves (25) are arranged in the sliding sleeve mounting holes.

3. A high efficiency soft magnetic alloy core mold as recited by claim 1, wherein: the lower die holder (15) is provided with a plurality of guide rod assembly holes, guide rods (26) are arranged in the guide rod assembly holes, and the guide rods (26) correspond to the sliding sleeves (25) and are matched with each other.

4. A high efficiency soft magnetic alloy core mold as recited by claim 1, wherein: the stop plate (4) is connected with the upper die holder (1) through a spring (27), and the upper end of the spring (27) penetrates through the upper base plate (2) and the upper clamping plate (3).

5. A high efficiency soft magnetic alloy core mold as recited by claim 1, wherein: the upper die holder (1), the upper backing plate (2) and the upper clamping plate (3) are connected through screws.

6. A high efficiency soft magnetic alloy core mold as recited by claim 1, wherein: the stop plate (4) and the upper supporting plate (5) are connected through screws.

7. A high efficiency soft magnetic alloy core mold as recited by claim 1, wherein: the lower template (13), the lower backing plate (14) and the lower die base (15) are connected through screws.

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