CN218225890U - Chamfer is processing tool in batches - Google Patents

Abstract

The utility model discloses a batch chamfering processing jig, which comprises a jig main body, wherein the jig main body is a steel piece, the upper surface of the jig main body is provided with a plurality of workpiece positioning grooves which are sequentially arranged at intervals from left to right, the front end openings of the workpiece positioning grooves respectively extend to the front end surface of the jig main body, and the rear end openings of the workpiece positioning grooves respectively extend to the rear end surface of the jig main body; the inner surface of the workpiece positioning groove is provided with a first positioning plane and a second positioning plane, and the first positioning plane is vertical to the second positioning plane; the upper surface of tool main part dress is equipped with two spacing strips of interval arrangement around. Through the structural design, the utility model can realize batch positioning and clamping of workpieces, namely, chamfer grinding of a plurality of workpieces can be realized through one-time clamping; therefore, the utility model has the advantages of novel in design, simple structure, and can improve work piece chamfer machining efficiency effectively.

Description

Chamfer is processing tool in batches

Technical Field

The utility model relates to a tool technical field especially relates to a chamfer is processing tool in batches.

Background

In carrying out grinding chamfer course of working to the steel work piece, prior art generally adopts sinusoidal magnetic bench to carry out clamping location, and is specific to the work piece: the work piece is fixed on the magnetic suction table surface of the sine magnetic table in a magnetic suction manner, and the magnetic suction table surface of the sine magnetic table is fixedly adhered with a corresponding positioning stop block so as to position the work piece through the positioning stop block; during grinding, the angle of the magnetic suction table top is adjusted according to the required grinding angle.

It should be noted that, for the above workpiece grinding and chamfering processing method, the following defects exist, specifically:

1. the sine magnetic table needs angle adjustment and processing, a positioning stop block needs to be fixed by pasting, and only single piece processing can be carried out when the chamfer is ground;

2. and once a chamfer is machined, workpiece clamping needs to be carried out again, and the number needs to be counted again and detected again, so that the efficiency is low.

3. Each workpiece has certain difference after being processed, and the processing consistency is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a chamfer is processing tool in batches to the not enough of prior art, this chamfer is processing tool in batches novel in design, simple structure, and can improve work piece chamfer machining efficiency effectively.

In order to achieve the above purpose, the present invention is realized by the following technical solution.

A chamfering batch processing jig comprises a jig main body, wherein the jig main body is a steel piece, a plurality of workpiece positioning grooves are sequentially arranged at intervals from left to right on the upper surface of the jig main body, the front end openings of the workpiece positioning grooves respectively extend to the front end surface of the jig main body, and the rear end openings of the workpiece positioning grooves respectively extend to the rear end surface of the jig main body;

the inner surface of the workpiece positioning groove is provided with a first positioning plane and a second positioning plane, and the first positioning plane is vertical to the second positioning plane;

the upper surface of tool main part dress is equipped with two spacing strips of interval arrangement around.

The jig comprises a jig main body, a workpiece positioning groove, a jig main body and a jig base, wherein the left end of the jig main body is provided with a left T-shaped groove which is completely penetrated from front to back on the left end side of the leftmost workpiece positioning groove, and the right end of the jig main body is provided with a right T-shaped groove which is completely penetrated from front to back on the right end side of the rightmost workpiece positioning groove;

a left T-shaped block is embedded in the left T-shaped groove corresponding to the left end part of each limiting strip, and the left end part of each limiting strip is in threaded connection with the corresponding left T-shaped block through a left locking screw;

the right end part of each limiting strip in the right T-shaped groove is embedded with a right T-shaped block, and the right end part of each limiting strip is in threaded connection with the corresponding right T-shaped block through a right locking screw.

Wherein, each spacing strip is the thin slice billet respectively.

Wherein, its characterized in that: the lower surface of tool main part has seted up the main part mounting groove, and the embedded magnetite that is equipped with in main part mounting groove, the lower surface of magnetite and the lower surface parallel and level of tool main part.

At least two main body mounting grooves which are sequentially arranged at intervals are formed in the lower surface of the jig main body, and magnets are embedded in the main body mounting grooves respectively.

And the magnets are fastened in the corresponding main body mounting grooves through screws respectively.

The utility model has the advantages that: the utility model discloses a chamfer batch processing tool, it includes the tool main part, the tool main part is the steel spare, the upper surface of tool main part is seted up a plurality of work piece constant head tanks of interval arrangement from left to right in proper order, the front end opening of each work piece constant head tank extends to the preceding terminal surface of tool main part respectively, the rear end opening of each work piece constant head tank extends to the rear end face of tool main part respectively; the inner surface of the workpiece positioning groove is provided with a first positioning plane and a second positioning plane, and the first positioning plane is vertical to the second positioning plane; the upper surface of tool main part dress is equipped with two spacing strips of interval arrangement around. Through the structural design, the utility model can realize batch positioning and clamping of workpieces, namely, chamfer grinding of a plurality of workpieces can be realized through one-time clamping; therefore, the utility model has the advantages of novel in design, simple structure, and can improve work piece chamfer machining efficiency effectively to can guarantee work piece chamfer abrasive machining's uniformity effectively.

Drawings

The invention will be further described with reference to the drawings, but the embodiments in the drawings do not constitute any limitation of the invention.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of another view angle of the present invention.

Included in fig. 1 and 2 are:

1-jig main body 11-left side T-shaped groove

12-right side T-shaped groove 2-workpiece positioning groove

21-first location plane 22-second location plane

3-limiting strip 41-left side T-shaped block

42-right side T-shaped block 51-left side locking screw

52-right side locking screw.

Detailed Description

The present invention will be described with reference to specific embodiments.

As shown in fig. 1 and 2, a batch chamfering jig comprises a jig main body 1, wherein the jig main body 1 is a steel piece, a plurality of workpiece positioning grooves 2 are formed in the upper surface of the jig main body 1 and are sequentially arranged from left to right at intervals, the front end openings of the workpiece positioning grooves 2 extend to the front end surface of the jig main body 1 respectively, and the rear end openings of the workpiece positioning grooves 2 extend to the rear end surface of the jig main body 1 respectively.

The inner surface of the workpiece positioning groove 2 is provided with a first positioning plane 21 and a second positioning plane 22, and the first positioning plane 21 is perpendicular to the second positioning plane 22.

Furthermore, the upper surface of the jig main body 1 is provided with two spacing strips 3 which are arranged at intervals in the front-back direction.

In the process of clamping a plurality of steel workpieces and chamfering and grinding the plurality of workpieces by using the utility model, the jig main body 1 is placed on the magnetic attraction table surface of the sine magnetic table, the workpieces in rectangular strip shapes are respectively positioned and placed in the workpiece positioning grooves 2 of the jig main body 1, and the workpieces in the workpiece positioning grooves 2 are positioned between the two limiting strips 3 so as to limit the front and back positions of the workpieces through the two limiting strips 3 which are arranged at intervals; after the workpiece is positioned and placed on the jig main body 1, the sine magnetic table is started, and the jig main body 1 is a steel piece, namely the jig main body 1 is fixed on the magnetic suction table surface of the sine magnetic table in a magnetic suction mode, and the steel workpiece is also fixed by magnetic suction.

It should be pointed out that the utility model discloses the in-process of clamping work piece, the work piece location is placed in the work piece constant head tank 2 of tool main part 1, and work piece constant head tank 2 comes to fix a position the work piece through first locating plane 21, second locating plane 22.

It should be further pointed out that, in the process of grinding and chamfering the workpiece, the workpiece is positioned between the two limiting strips 3, the limiting strip 3 on the front side limits the workpiece on the front side, and the limiting strip 3 on the rear side limits the workpiece on the rear side; through the limiting displacement of two spacing 3, the utility model discloses can guarantee effectively that the grinding chamfer adds man-hour work piece can not remove along work piece constant head tank 2 to improve grinding man-hour stability.

According to the situation, through the structural design, the workpiece batch positioning and clamping device can realize batch positioning and clamping of workpieces, namely, chamfering and grinding of a plurality of workpieces can be realized through one-time clamping; therefore, the utility model has the advantages of novel in design, simple structure, and can improve work piece chamfer machining efficiency effectively to can guarantee work piece chamfer abrasive machining's uniformity effectively.

As shown in fig. 1 and 2, a left T-shaped groove 11 is formed in the left end portion of the jig main body 1 so as to completely penetrate in the front-rear direction on the left end side of the leftmost workpiece positioning groove 2, and a right T-shaped groove 12 is formed in the right end portion of the jig main body 1 so as to completely penetrate in the front-rear direction on the right end side of the rightmost workpiece positioning groove 2.

Wherein, the left side T-shaped block 41 is respectively embedded in the left side T-shaped groove 11 corresponding to the left end part of each limit strip 3, and the left end part of each limit strip 3 is respectively screwed with the corresponding left side T-shaped block 41 through a left side locking screw 51.

Similarly, a right T-shaped block 42 is embedded in the right T-shaped groove 12 corresponding to the right end of each limit strip 3, and the right end of each limit strip 3 is screwed with the corresponding right T-shaped block 42 through a right locking screw 52.

The space between the two limiting strips 3 of the utility model can be adaptively adjusted according to the length of the workpiece, and in the adjusting process, the left side locking screw 51 and the right side locking screw 52 are loosened, and then the left side T-shaped block 41 is moved along the left side T-shaped groove 11 and the right side T-shaped block 42 is moved along the right side T-shaped groove 12, so that the limiting strips 3 are moved to the required positions according to the length of the workpiece; after the position limiting strips 3 are moved and adjusted to the right, the left locking screw 51 and the right locking screw 52 are screwed so that the position limiting strips 3 are fastened at the required positions.

It should be noted that each of the position-limiting strips 3 is a thin steel strip; of course, the above materials do not limit the present invention, that is, each of the spacing strips 3 of the present invention can also be made of other materials, such as hard plastic strips.

In a preferred embodiment, a main body mounting groove (not shown) is formed in the lower surface of the jig main body 1, and a magnet (not shown) is embedded in the main body mounting groove, and the lower surface of the magnet is flush with the lower surface of the jig main body 1.

Furthermore, the lower surface of the jig main body 1 is provided with at least two main body mounting grooves which are sequentially arranged at intervals, and magnets are embedded in the main body mounting grooves respectively.

In addition, the magnets are fastened in the corresponding main body mounting grooves by screws, respectively.

The utility model discloses in the use, because the magnetite is installed to tool main part 1, start at sinusoidal magnetic table and inhale the in-process of fixed tool main part 1 of mesa absorption through magnetism, the magnetite can increase the magnetic force effect of magnetism between mesa and the tool main part 1 of inhaling effectively, and then improves tool main part 1 installation reliability and stability.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (6)

1. The utility model provides a chamfer is processing tool in batches which characterized in that: the jig comprises a jig main body (1), wherein the jig main body (1) is a steel piece, a plurality of workpiece positioning grooves (2) are formed in the upper surface of the jig main body (1) at intervals from left to right, the front end openings of the workpiece positioning grooves (2) extend to the front end surface of the jig main body (1) respectively, and the rear end openings of the workpiece positioning grooves (2) extend to the rear end surface of the jig main body (1) respectively;

a first positioning plane (21) and a second positioning plane (22) are arranged on the inner surface of the workpiece positioning groove (2), and the first positioning plane (21) is vertical to the second positioning plane (22);

the upper surface of the jig main body (1) is provided with two spacing strips (3) which are arranged at intervals in the front-back direction.

2. The chamfering batch processing jig according to claim 1, wherein: a left T-shaped groove (11) which is completely penetrated in the front and back direction is formed in the left end portion of the jig main body (1) on the left end side of the leftmost workpiece positioning groove (2), and a right T-shaped groove (12) which is completely penetrated in the front and back direction is formed in the right end portion of the jig main body (1) on the right end side of the rightmost workpiece positioning groove (2);

a left T-shaped block (41) is respectively embedded in the left T-shaped groove (11) corresponding to the left end part of each limiting strip (3), and the left end part of each limiting strip (3) is respectively screwed with the corresponding left T-shaped block (41) through a left locking screw (51);

the right T-shaped block (42) is embedded in the right T-shaped groove (12) corresponding to the right end part of each limiting strip (3), and the right end part of each limiting strip (3) is in threaded connection with the corresponding right T-shaped block (42) through a right locking screw (52).

3. The jig for batch processing of chamfers according to claim 1, wherein: each limiting strip (3) is a thin steel strip.

4. The jig for batch processing of chamfers according to any one of claims 1 to 3, wherein: the lower surface of tool main part (1) has seted up the main part mounting groove, and the embedded magnetite that is equipped with in main part mounting groove, the lower surface of magnetite and the lower surface parallel and level of tool main part (1).

5. The batch chamfering tool according to claim 4, wherein: the lower surface of the jig main body (1) is provided with at least two main body mounting grooves which are sequentially arranged at intervals, and magnets are embedded in the main body mounting grooves respectively.

6. The batch chamfering processing jig according to claim 5, wherein: and the magnets are fastened in the corresponding main body mounting grooves through screws respectively.

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