CN218973374U - Detection tool for forge piece - Google Patents

Abstract

The utility model discloses a detection tool for a forge piece, which comprises an arc-shaped block and a connecting block connected with the arc-shaped block, wherein the length of the connecting block is smaller than that of the arc-shaped block, the connecting block and the arc-shaped block are arranged in a step shape, and one end of the arc-shaped block, which is far away from the connecting block, is provided with a groove; the detection tool comprises a base, the base is connected with a profiling piece, the profiling piece is connected with a first positioning block, the first positioning block and the profiling piece are arranged on the base in a step shape, and the forging piece is inserted along the direction of the joint of the first positioning block and the profiling piece so as to finish detection of the forging piece. The utility model solves the technical problems of difficult detection and long detection time of the special-shaped parts.

Description

Detection tool for forge piece

Technical Field

The utility model relates to the field of detection tools, in particular to a detection tool for forgings.

Background

The specifications of the parts of the die are various, and when the parts of various different specifications are detected by using a conventional detection means, time and labor are consumed, and batch detection is not facilitated, so that a detection device is needed for the parts of different specifications, the parts are detected by using the copying parts in the detection device, and the detection method is simple in structure and rapid and convenient.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a detection tool for forgings, which can be used for rapidly detecting the sizes of forgings, is accurate in detection data, high in detection efficiency and suitable for detecting forgings in batches.

The technical scheme of the utility model is as follows: the utility model provides a detect frock for forging, the forging include the arc piece with connect in the connecting block of arc piece, the length of connecting block is less than the length of arc piece, the connecting block with the arc piece is the echelonment setting, the one end that the arc piece kept away from the connecting block is equipped with a recess;

the detection tool comprises a base, the base is connected with a profiling piece, the profiling piece is connected with a first positioning block, the first positioning block and the profiling piece are arranged on the base in a step shape, and the forging piece is inserted along the direction of the joint of the first positioning block and the profiling piece so as to finish detection of the forging piece.

Further, one side of the profiling piece is provided with a plurality of first through holes positioned on the base, the forging piece is provided with a plurality of second through holes matched with the first through holes, and the second through holes penetrate through the arc-shaped blocks and the connecting blocks; and a locating pin is inserted between the first through hole and the second through hole.

Further, one side of the first positioning block, which is close to the forging piece, is of an arc-shaped surface structure, the arc-shaped surface is connected with a protruding block, and the protruding block is connected with the groove in a clamping mode.

Further, the length of the bump is equal to the length of the groove.

Further, the profiling piece comprises a second positioning block and a right-angle block connected with the second positioning block, the right-angle block is located on one side of the first positioning block, and a slideway for the arc-shaped block to penetrate is arranged between the right-angle block and the first positioning block.

Further, an arc groove is formed in one side of the second positioning block, and the arc groove is connected with the end portion of the connecting block in a clamping mode.

Further, a stop block is arranged on one side of the arc-shaped groove and connected to one side of the second positioning block.

Further, the arc-shaped block is far away from one end of the connecting block and is far away from the base, and the height of the arc-shaped block is equal to the height of the first positioning block and the base.

The beneficial technical effects of the utility model are as follows:

1. the base is connected with the profiling piece, and the end connection of the profiling piece has a locating piece, and wherein locating piece and profiling piece are echelonment setting on the base, and the part inserts along the direction of the junction of locating piece and profiling piece to accomplish the detection to the size of part, this frock simple structure detects swiftly, and test data is accurate, is applicable to the detection of batchability.

2. The base is equipped with a through-hole that is located profile modeling piece one side, and the part surface is equipped with the through-hole that cooperates No. two through-holes that use, and through locating pin will be connected No. one through-hole and No. two through-holes to detect the size of part, swiftly convenient.

3. One side of the first positioning block is provided with a bump, and the bump is connected with the groove of the arc-shaped block in a clamping manner, so that the size of one end, far away from the connecting block, of the arc-shaped block is detected.

4. The profiling piece comprises a second positioning block and a right angle block, a slide way for inserting one end of the arc block is arranged between the right angle block and the first positioning block, at the moment, the inclined surface end of the right angle block is attached to one side of the arc block, one side of the first positioning block is attached to the other side of the arc block, and accordingly the size of one end, far away from the connecting block, of the arc block is detected.

5. One side of the second positioning block is provided with an arc groove, and one end, close to the groove, of the connecting block is connected with the arc groove in a clamping mode, so that the size of the end part of the connecting block is detected.

6. One side of the arc-shaped groove is provided with a stop block, and when the end part of the connecting block is connected with the arc-shaped groove in a clamping way, the stop block is attached to the outer side of the connecting block, so that the size of the connecting block is detected.

7. When the arc-shaped block is inserted along the direction of the joint of the first positioning block and the profiling piece, the first positioning block is matched with the convex block and the profiling piece, so that the whole size of the arc-shaped block is detected.

The foregoing description is only an overview of the present utility model, and is intended to provide a better understanding of the present utility model, as it is embodied in the following description, with reference to the preferred embodiments of the present utility model and the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic structural view of the parts of the present utility model;

FIG. 3 is a schematic structural diagram of the detection tool of the present utility model;

FIG. 4 is a top view of the inspection tool of the present utility model;

FIG. 5 is a top view of the present utility model;

FIG. 6 is a left side view of the present utility model;

fig. 7 is a front view of the present utility model.

The reference numerals are:

1. a base; 11. a first through hole; 2. a profiling piece; 21. a second positioning block; 22. a right angle block; 23. an arc-shaped groove; 24. a stop block; 25. a slideway; 3. a first positioning block; 31. a bump; 4. a part; 41. an arc-shaped block; 42. a connecting block; 43. a groove; 44. a second through hole; 5. and (5) positioning pins.

Detailed Description

In order that the manner in which the above recited features of the present utility model are attained and can be understood in detail, a more particular description of the utility model, briefly summarized below, may be had by reference to the appended drawings and examples, which are illustrated in their embodiments, but are not intended to limit the scope of the utility model.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the present application described herein.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are directions or positional relationships described based on the embodiments and shown in the drawings, or directions or positional relationships in which the inventive product is conventionally put in use are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model.

As shown in fig. 1, fig. 2 and fig. 3, the utility model specifically relates to a detection tool for a forging piece, wherein the forging piece comprises an arc-shaped block 41 and a connecting block 42 connected with the arc-shaped block 41, the length of the connecting block 42 is smaller than that of the arc-shaped block 41, the connecting block 42 and the arc-shaped block 41 are arranged in a step shape, and a groove 43 is formed at one end, far away from the connecting block 42, of the arc-shaped block 41;

the detection tool comprises a base 1, the base 1 is connected with a profiling piece 2, the profiling piece 2 is connected with a first positioning block 3, the first positioning block 3 and the profiling piece 2 are arranged on the base 1 in a step shape, and a forging piece is inserted along the direction of the joint of the first positioning block 3 and the profiling piece 2 so as to finish detection of the forging piece.

It should be noted that, the profiling piece 2 is disposed at the top of the base 1, the first positioning block 3 is disposed at the top of the profiling piece 2, wherein, one sides of the profiling piece 2, the first positioning block 3 and the base are opposite to each other, one sides of the profiling piece 2, the first positioning block 3 and the base 1 are both planes, and the other sides of the profiling piece 2 and the first positioning block 3 are arc surfaces.

In addition, the width of the first positioning block 3 is smaller than the width of the profiling piece 2, and the length of the first positioning block 3 is equal to the width of the profiling piece 2; therefore, the first positioning block 3 and the profiling piece 2 are arranged in a step shape when being overlapped and fixed on the base 1. One end of the arc-shaped block 41 is inserted along the arc-shaped direction of the joint of the first positioning block 3 and the profiling piece 2, so that the clamping connection of the part 4 and the detection tool is completed, and the purpose of detecting the size of the part 4 is achieved.

One side of the profiling piece 2 is provided with a plurality of first through holes 11 positioned on the base 1, the forging piece is provided with a plurality of second through holes 44 matched with the first through holes 11, and the second through holes 44 penetrate through the arc-shaped blocks 41 and the connecting blocks 42; a locating pin 5 is inserted between the first through hole 11 and the second through hole 44.

The base 1 is provided with a first through hole 11, a second through hole 44 penetrating through the arc block 41 and the connecting block 42 is formed on the surface of the part 4, and the positioning pin 5 is inserted into the first through hole 11 and the second through hole 44, so that the position size detection of the second through hole 44 on the part 4 is completed.

When the positioning pin 5 can be inserted into the first through hole 11 and the second through hole 44, the position size of the second through hole 44 on the marking part 4 meets the standard; when the positioning pin 5 cannot be inserted into the first through hole 11 and the second through hole 44, the position size of the second through hole 44 on the marking part 4 does not meet the standard.

One side, close to the forge piece, of the first positioning block 3 is of an arc-shaped surface structure, the arc-shaped surface is connected with a protruding block 31, and the protruding block 31 is connected with the groove 43 in a clamping mode; the length of the projection 31 is equal to the length of the recess 43.

It should be noted that, the height of the bump 31 is equal to the height of the groove 43, the length of the bump 31 is equal to the length of the groove 43, and the width of the bump 31 is equal to the width of the groove 43; when the arc-shaped block 41 is inserted into the detection tool, one end of the arc-shaped block 41 provided with the groove 43 is just in time connected with the convex block 31 in a clamping mode, and the convex block 31 and the groove 43 are matched for use, so that the missing part of the groove 43 end of the arc-shaped block 41 is filled, and the purpose of detecting the size of the part is further achieved.

As shown in fig. 3, 4 and 5, the profiling part 2 includes a second positioning block 21 and a right-angle block 22 connected to the second positioning block 21, the right-angle block 22 is located at one side of the first positioning block 3, and a slideway 25 for the arc-shaped block 41 to penetrate is provided between the right-angle block 22 and the first positioning block 3.

The second positioning block 21 is fixed on the base 1, the first positioning block 3 is fixed on the second positioning block 21, and the right-angle block 22 is fixed on the second positioning block 21, wherein two right-angle edges of the right-angle block 22 are respectively flush with two sides of the second positioning block 21, so that the bevel edge of the right-angle block 22 corresponds to the first positioning block 3; a gap is formed between the right angle block 22 and the first positioning block 3, and is a slide way 25 for the arc block 41 to penetrate, so that the arc block 41 penetrates into the slide way 25 between the right angle block 22 and the first positioning block 3;

in addition, the right-angle block 22 is located below the protruding block 31, and when the arc-shaped block 41 penetrates along the direction of the slideway 25, one side of the arc-shaped block 41 is attached to the inclined surface of the right-angle block 22; the other side of the arc-shaped block 41 is attached to the first positioning block 3, and meanwhile, the groove 43 of the arc-shaped block 41 is connected with the convex block 31 in a clamping mode, so that the size of the arc-shaped block 41 is detected.

As shown in fig. 6 and 7, the height of the connecting block 42 is equal to the height of the second positioning block 21, the connecting block 42 and the arc-shaped block 41 are arranged in a stepped manner, the second positioning block 21 and the first positioning block 3 are also arranged in a stepped manner, and the two positioning blocks are clamped together to be combined into a complete shape.

An arc groove 23 is formed in one side of the second positioning block 21, and the arc groove 23 is connected with the end part of the connecting block 42 in a clamping manner; one side of the arc-shaped groove 23 is provided with a stop block 24, and the stop block 24 is connected to one side of the second positioning block 21.

It should be noted that, when the part 4 is inserted along the direction of the connection position of the first positioning block 3 and the second positioning block 21, and one end of the arc-shaped block 41 is inserted along the slide way 25 between the right-angle block 22 and the first positioning block 3, one end of the connecting block 42 is also connected with the arc-shaped groove 23 on one side of the second positioning block 21 in a clamping manner; at this time, one point of the second positioning block 21 abuts against the arc groove 23, and the other end of the second positioning block 21 is flush with the side surface of the base 1, thereby completing the detection of the size of the connection block 42.

When the end of the connecting block 42 is connected with the arc groove 23 in a clamping way, the stop block 24 positioned on one side of the arc groove 23 is attached to the side wall of the connecting block 42, and the size of the connecting block 42 is further detected.

The height of one end of the arc-shaped block 41 far away from the connecting block 42 from the base 1 is equal to the height of the first positioning block 3 from the base 1, so that the size of the arc-shaped block 41 is detected.

In summary, by adopting the above detection tool, the size of the part 4 can be detected only by inserting the part 4 into the detection tool along the relevant path, so that the detection tool is convenient and quick and is suitable for batch detection.

The working flow of the utility model is as follows:

1. the part 4 is inserted into the inspection work along the direction of the joint of the first positioning block 3 and the second positioning block 21.

2. The end of the arc-shaped block 41 is positioned in the slideway 25 between the right angle block 22 and the first positioning block 3 and is respectively attached to the right angle block 22; the groove 43 of the arc-shaped block 41 is connected with the bump 31 on one side of the first positioning block 3 in a clamping way; thereby completing the detection of the relevant dimensions of the arc-shaped block 41;

3. one end of the connecting block 42 is connected with the arc-shaped groove 23 of the second positioning block 21 in a clamping manner, the stop block 24 positioned on one side of the arc-shaped groove 23 is attached to the side wall of the connecting block 42, and at the moment, the other end of the connecting block 42 is flush with the side wall of the base 1, so that the detection of the relevant size of the connecting block 42 is completed.

4. The height of the connecting block 42 is equal to the height of the second positioning block 21, thereby completing the detection of the height dimension of the connecting block 42.

5. The first through hole 11 on the base 1 is communicated with the second through hole 44 on the part 4 and connected in series through the locating pin 5, so that the detection of the position size of the through hole is completed.

6. And (5) after the detection is finished, the positioning pin 5 is disassembled, the part 4 is taken out, and the next part 4 is replaced.

The above examples are only specific embodiments of the present utility model for illustrating the technical solution of the present utility model, but not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the foregoing examples, it will be understood by those skilled in the art that the present utility model is not limited thereto: any person skilled in the art may modify or easily conceive of the technical solution described in the foregoing embodiments, or perform equivalent substitution of some of the technical features, while remaining within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model, and are intended to be included in the scope of the present utility model.

Claims (8)

1. The detection tool for the forge piece is characterized by comprising an arc-shaped block (41) and a connecting block (42) connected to the arc-shaped block (41), wherein the length of the connecting block (42) is smaller than that of the arc-shaped block (41), the connecting block (42) and the arc-shaped block (41) are arranged in a step shape, and a groove (43) is formed in one end, far away from the connecting block (42), of the arc-shaped block (41);

the detection tool comprises a base (1), the base (1) is connected with a profiling piece (2), the profiling piece (2) is connected with a first positioning block (3), the first positioning block (3) and the profiling piece (2) are arranged on the base (1) in a step shape, and the forged piece is inserted along the direction of the joint of the first positioning block (3) and the profiling piece (2) so as to finish detection of the forged piece.

2. The detection tool for forgings according to claim 1, wherein one side of the profiling piece (2) is provided with a plurality of first through holes (11) positioned on the base (1), the forgings are provided with a plurality of second through holes (44) matched with the first through holes (11), and the second through holes (44) penetrate through the arc-shaped blocks (41) and the connecting blocks (42); a locating pin (5) is inserted between the first through hole (11) and the second through hole (44).

3. The detection tool for the forge piece according to claim 1, wherein one side of the first positioning block (3) close to the forge piece is of an arc-shaped surface structure, the arc-shaped surface is connected with a protruding block (31), and the protruding block (31) is connected with the groove (43) in a clamping mode.

4. A detection tool for forgings according to claim 3, characterized in that the length of the projection (31) is equal to the length of the groove (43).

5. The tool for detecting the forge piece according to claim 1, wherein the profiling piece (2) comprises a second positioning block (21) and a right-angle block (22) connected with the second positioning block (21), the right-angle block (22) is located at one side of the first positioning block (3), and a slideway (25) for an arc block (41) to penetrate is arranged between the right-angle block (22) and the first positioning block (3).

6. The detection tool for forgings according to claim 5, wherein an arc-shaped groove (23) is formed in one side of the second positioning block (21), and the arc-shaped groove (23) is connected with the end portion of the connecting block (42) in a clamping manner.

7. The tool for detecting forgings according to claim 6, wherein a stop block (24) is arranged on one side of the arc-shaped groove (23), and the stop block (24) is connected to one side of the second positioning block (21).

8. The detection tool for forgings according to claim 1, wherein the height of one end of the arc-shaped block (41) away from the connecting block (42) from the base (1) is equal to the height of the first positioning block (3) from the base (1).

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