CN218253903U - Metal workpiece machining tool - Google Patents

Abstract

The application relates to a metal workpiece machining tool which comprises a connecting plate, wherein a fixing plate and a baffle plate are fixedly connected to one side of the connecting plate, a first section of a metal workpiece can abut against the baffle plate, and a second section of the metal workpiece can abut against the fixing plate; the corner cylinder, the corner cylinder sets up to a plurality ofly, four the corner cylinder rigid coupling in the fixed plate, the fixed plate corresponds four corner cylinders can the butt keep away from in the second section fixed plate one side, two the corner cylinder rigid coupling in the baffle, two that the baffle corresponds the corner cylinder can the butt keep away from in first section baffle one side. This application can firmly centre gripping to current metal work piece, makes the boring cutter can carry out high accuracy drilling.

Description

Metal workpiece machining tool

Technical Field

The application relates to the field of machining tools, in particular to a metal workpiece machining tool.

Background

A metal workpiece comprises a first section and a second section, wherein the first section is perpendicular to the second section, and a plurality of support rods are fixedly connected between the first section and the second section. The second section needs to drill a plurality of positions, wherein the drilling positions comprise a first drilling position, a second drilling position, a third drilling position and a fourth drilling position. The first drilling position, the second drilling position and the third drilling position are arranged in pairs, the paired first drilling position, second drilling position and third drilling position are parallel to the first section, the first drilling position, second drilling position and third drilling position of the same pair are respectively positioned at two ends of the second section adjacent to the first section, the first drilling position is arranged close to the first section, the third drilling position is arranged far away from the first section, and the second drilling position is positioned between the first drilling position and the third drilling position; the fourth drilling position is located between the second drilling position and the third drilling position, and the fourth drilling position is located between the paired second drilling positions. The second section is of a rod structure between the adjacent second drilling position and the third drilling position, and the position of the first section far away from the second section. In the related processing tool capable of clamping the workpiece, in order to enable the boring cutter to smoothly drill a plurality of positions of the workpiece, the workpiece can be clamped only from the end parts of the first section and the second section of the metal workpiece.

In view of the above-mentioned related art, if only the end portions of the first section and the second section of the metal workpiece are clamped, the metal workpiece is extremely unstable in the drilling process, which affects the machining effect. At present, the machining tool which is completely matched with the metal workpiece is difficult to be used for firmly clamping the workpiece so as to drill the workpiece.

SUMMERY OF THE UTILITY MODEL

In order to firmly clamp the existing metal workpiece, the boring cutter can drill holes with high precision, and the application provides a metal workpiece machining tool.

The application provides a metal workpiece processing frock adopts following technical scheme:

a metal workpiece machining tool comprises:

the metal workpiece fixing device comprises a connecting plate, a fixing plate and a baffle plate are fixedly connected to one side of the connecting plate, a first section of the metal workpiece can abut against the baffle plate, and a second section of the metal workpiece can abut against the fixing plate;

the corner cylinder, the corner cylinder sets up to a plurality ofly, four the corner cylinder rigid coupling in the fixed plate, the fixed plate corresponds four corner cylinders can the butt keep away from in the second section fixed plate one side, two the corner cylinder rigid coupling in the baffle, two that the baffle corresponds the corner cylinder can the butt keep away from in first section baffle one side.

Through adopting above-mentioned technical scheme, when the user uses, place metal work piece between connecting plate, baffle and fixed plate, make metal work piece's second section butt in fixed plate, first section butt in the baffle starts the corner cylinder, and a plurality of corner cylinders exert the power that is close to the fixed plate to the second section respectively, exert the power that is close to the baffle to first section, and the corner cylinder presss from both sides tightly first section and second section simultaneously with fixed plate, baffle, makes things convenient for the boring cutter follow-up to drill to metal work piece.

Optionally, the method includes:

the adjusting support is arranged in a plurality of positions, the adjusting support is located at the positions of the rod structures of the first section and the second section, and the adjusting support and the corner cylinder apply forces on the positions of the rod structures of the first section and the second section in opposite directions and on the same straight line.

Through adopting above-mentioned technical scheme, when starting the corner cylinder and pressing from both sides tight metal work piece, if the corner cylinder butt in the rod structure position department of first section or second section, then the corner cylinder exerts the effort that is close to fixed plate or baffle to the rod structure position department of first section or second section, need adjust the regulation support this moment, make and adjust support 33 butt in first section or second section and correspond rod structure position department, adjust the regulation cylinder of support 33 and the rod structure position department that corresponds and exert the effort to first section or second section simultaneously, both opposite direction just are located same straight line, can be when the effort that the corner cylinder applyed first section or second section rod structure position department is too big, exert opposite effort to it, reduce the rupture probability of rod structure position department.

Optionally, the method includes:

the supporting plates are arranged in a plurality of numbers and are respectively connected between the baffle and the connecting plate and between the fixing plate and the connecting plate.

By adopting the technical scheme, the supporting plate can support the baffle and the fixing plate to a certain extent, and the baffle or the connecting surface of the fixing plate and the connecting plate is not broken or bent in the process of clamping and drilling the metal workpiece.

Optionally, the method includes:

the fixed supports are arranged in a plurality of numbers and fixedly connected to the fixed plate, the fixed supports are located at the orthographic projection positions of the first drilling positions on the fixed plate, and the farthest feeding position of the boring cutter at the first drilling position can reach the position, far away from the fixed plate, of the fixed supports.

Through adopting above-mentioned technical scheme, the fixed stay can the butt be close to fixed plate one side in the second section, and the fixed stay can increase the distance between second section and the fixed plate, carries out the in-process of driling at the boring cutter to the second section, to the boring cutter of driling in first drilling position department, the boring cutter of this position department can not contact the fixed plate, and then can not cause the damage to the fixed plate.

Optionally, the method includes:

the abdicating holes are arranged in a plurality of numbers, five abdicating holes are formed in the fixed plate, and the abdicating holes corresponding to the fixed plate are positioned at the orthographic projection positions of the second drilling position, the third drilling position and the fourth drilling position on the fixed plate; one abdicating hole is formed in the supporting plate corresponding to the baffle, and the boring cutter can penetrate through the abdicating hole when drilling is carried out on the metal workpiece.

By adopting the technical scheme, the arrangement of the abdicating hole enables the boring cutter for drilling at the second drilling position, the third drilling position and the fourth drilling position to penetrate the abdicating hole, and the possibility that the joint of the boring cutter and the fixing plate is further damaged can be reduced.

Optionally, the method includes:

the first positioning block is fixedly connected to the connecting plate or the fixing plate and can abut against one end, close to the connecting plate, of the first section or the second section;

the second positioning block is fixedly connected to the fixing plate and can be abutted against one end, far away from the first section, of the second section; when the metal workpiece completely abuts against the first positioning block and the second positioning block, the second drilling position, the third drilling position and the fourth drilling position are completely corresponding to the abdicating hole in the orthographic projection of the fixing plate.

By adopting the technical scheme, when a user installs the metal workpiece, the metal workpiece is pushed along the direction that the baffle plate is close to the fixed plate and is parallel to the fixed plate, so that one end of the second section of the metal workpiece, which is far away from the first section, is abutted against the second positioning block; and pushing the metal workpiece to the direction of the fixing plate close to the connecting plate and parallel to the fixing plate so that one end of the metal workpiece close to the connecting plate abuts against the first positioning block. At the moment, the orthographic projections of the second drilling position, the third drilling position and the fourth drilling position of the metal workpiece on the fixing plate completely correspond to the abdicating hole, so that a user can conveniently determine the mounting position of the metal workpiece, and the phenomenon that the fixing plate is damaged due to the fact that a tool bit of a subsequent boring tool does not correspond to the abdicating hole in the drilling process is avoided.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the baffle, the fixing plate and the corner cylinder can clamp the first section in the direction perpendicular to the first section of the metal workpiece and clamp the second section in the direction perpendicular to the second section of the metal workpiece, and the design can tightly adhere to the shape of the metal workpiece to clamp the metal workpiece in multiple directions, so that the stability of the metal workpiece in the drilling process is enhanced;

2. the adjusting support and the corner cylinder clamp the position of the rod structure of the first section or the second section together, and the stress of the rod structure vertical to the corresponding first section or the second section can be balanced, so that the rod structure is not easy to break off in the clamping process;

3. the fixed support and the abdication hole are arranged, so that the distance between the second section and the fixed plate can be increased, and the feeding vacant positions are reserved for the boring cutters at the second drilling position, the third drilling position and the fourth drilling position, so that the boring cutters cannot contact the fixed plate in the drilling process and further damage the fixed plate.

Drawings

FIG. 1 is an assembly schematic view of a metal workpiece machining tool according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a baffle plate of a metal workpiece machining tool according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a metal workpiece machining tool according to an embodiment of the present application;

fig. 4 is a schematic structural view of a fixing plate of the metal workpiece machining tool according to the embodiment of the application;

fig. 5 is a schematic structural diagram of a support plate of a metal workpiece machining tool according to an embodiment of the application.

Description of the reference numerals: 1. a first stage; 11. a second section; 12. a first drilling location; 13. a second drilling location; 14. a third drilling position; 15. a fourth drilling position; 2. a connecting plate; 21. a support plate; 22. a first positioning block; 3. a fixing plate; 31. a corner cylinder; 32. fixing and supporting; 33. adjusting and supporting; 34. a hole of abdication; 35. a second positioning block; 4. a baffle plate; 41. and a clearance hole.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a metal workpiece machining tool. Referring to fig. 1 and 2, the metal workpiece processing tool comprises a connecting plate 2, wherein a fixing plate 3 is fixedly connected to a position, close to one side, of the connecting plate 2, the fixing plate 3 is perpendicular to the connecting plate 2, and the fixing plate 3 is parallel to one side of the connecting plate 2; the connecting plate 2 is far away from fixed plate 3 position department rigid coupling has baffle 4, and baffle 4 is perpendicular to connecting plate 2 and fixed plate 3 setting simultaneously, and baffle 4 has seted up in the bracing piece position department that corresponds metal work piece and has kept away a hole 41, and metal work piece's bracing piece can pass and keep away a hole 41. The metal workpiece can be positioned among the fixing plate 3, the connecting plate 2 and the baffle 4, one side of the first section 1, which is close to the second section 11, can be abutted against the baffle 4, and one side of the second section 11, which is far away from the first section 1, can be abutted against the fixing plate 3.

Referring to fig. 1 and 3, four corner cylinders 31 and two corner cylinders 31 are respectively fixedly connected to one side of the fixing plate 3 close to the second section 11 and one side of the baffle plate 4 close to the first section 1. The four corner cylinders 31 corresponding to the fixing plate 3 are paired pairwise, the two pairs of corner cylinders 31 can abut against the positions of the corresponding rod structures between the first drilling position 12 and the second drilling position 13 of the second section 11 and between the second drilling position 13 and the third drilling position 14, and the corner cylinders 31 corresponding to the fixing plate 3 can abut against the side, close to the first section 1, of the second section 11. The two corner cylinders 31 corresponding to the baffle 4 can abut against one end of the first section 1, which is far away from the second section 11, and the two corner cylinders 31 corresponding to the baffle 4 can abut against the rod structure position of the first section 1.

Placing a metal workpiece between the fixing plate 3, the connecting plate 2 and the baffle 4, so that one side of the second section 11, which is far away from the first section 1, abuts against the fixing plate 3, and one side of the first section 1, which is close to the second section 11, abuts against the baffle 4; and all the corner cylinders 31 are started, so that the corner cylinder 31 corresponding to the fixing plate 3 abuts against one side of the second section 11, which is close to the first section 1, and the corner cylinder 31 corresponding to the baffle plate 4 abuts against one side of the first section 1, which is far from the second section 11. The four corner cylinders 31 corresponding to the fixing plate 3 and the fixing plate 3 can perform bidirectional clamping on the direction perpendicular to the second section 11 of the metal workpiece, and the baffle plate 4 and the two corresponding corner cylinders 31 can perform bidirectional clamping on the direction perpendicular to the first section 1 of the metal workpiece, so that the metal workpiece can be firmly fixed among the fixing plate 3, the connecting plate 2 and the baffle plate 4, and subsequent stable drilling on the metal workpiece is facilitated.

Referring to fig. 1 and 2, two fixing supports 32 are fixedly connected to the fixing plate 3 near the second section 11, the fixing supports 32 are located at the orthographic projection position of the first drilling position 12 on the fixing plate 3, and the two fixing supports 32 can abut against the second section 11.

Referring to fig. 1 and 4, a plurality of adjusting supports 33 are fixedly connected to one side of the fixing plate 3 close to the second section 11 and one side of the baffle plate 4 close to the first section 1, two adjusting supports 33 corresponding to the fixing plate 3 are provided between the second drilling position 13 and the third drilling position 14, two adjusting supports 33 corresponding to the fixing plate 3 are provided corresponding to the corner cylinder 31, and two adjusting supports 33 corresponding to the fixing plate 3 can abut against the rod structure position of the second section 11. The adjusting supports 33 corresponding to the baffle 4 are arranged in two numbers, the two adjusting supports 33 corresponding to the baffle 4 are arranged corresponding to the two corner cylinders 31 corresponding to the baffle 4, and the two adjusting supports 33 corresponding to the baffle 4 can abut against the rod structure position of the first section 1.

When the second segment 11 abuts against the two fixed supports 32 and the four corner cylinders 31 corresponding to the fixed plate 3, the two adjusting supports 33 corresponding to the fixed plate 3 are adjusted, so that the two adjusting supports 33 corresponding to the baffle 4 abut against the side of the second segment 11 away from the first segment 1. Two adjusting supports 33 corresponding to the baffle 4 and two fixing supports 32 corresponding to the baffle 4 can support the second section 11 close to four vertex positions together, and the stability of the second section 11 is enhanced. The fixed support 32 can increase the distance between the second section 11 and the fixed plate 3, and reduce the possibility that the boring cutter contacts the fixed plate 3 in the drilling process, so that the fixed plate 3 is damaged; in addition, two adjusting supports 33 corresponding to the fixing plate 3 correspond to two corner cylinders 31 located between the second drilling position 13 and the third drilling position 14, and apply supporting forces in opposite directions and on the same straight line to the rod structure position of the second section 11, so that the stability of the second section 11 is enhanced, and the probability of breakage of the rod structure of the second section 11 due to the pressure of the corner cylinders 31 can be reduced. Similarly, the two-way fixing parallel to the second baffle 4 is performed by the corner cylinder 31 and the adjusting support 33 corresponding to the baffle 4 at the position of the rod structure of the first section 1, and the force applied by the adjusting support 33 and the corner cylinder 31 to the rod structure of the first section 1 is opposite in direction and is positioned on the same straight line, so that the breakage probability of the rod structure of the first section 1 is reduced.

Referring to fig. 1 and 5, support plates 21 are fixedly connected between the fixing plate 3 and the connecting plate 2 and between the baffle plate 4 and the connecting plate 2, the support plate 21 corresponding to the fixing plate 3 is located on one side of the fixing plate 3 away from the second section 11, and the support plate 21 corresponding to the baffle plate 4 is located on one side of the baffle plate 4 away from the first section 1. The support plate 21 and the fixing plate 3 corresponding to the baffle 4 are provided with yielding holes 34 corresponding to the second drilling position 13, the third drilling position 14 and the fourth drilling position 15, and the boring cutter can penetrate through the yielding holes 34.

In this design, backup pad 21 can effectively support fixed plate 3 and baffle 4, reduces both at centre gripping metal work's in-process and the cracked probability between connecting plate 2, and the hole 34's of stepping down design has prevented the boring cutter tip of drilling in-process directly and fixed plate 3 or backup pad 21 contact simultaneously, and then damages fixed plate 3 or backup pad 21.

Referring to fig. 2 and 5, the fixing plate 3 and the connecting plate 2 are fixedly connected to a set of first positioning blocks 22 and a set of second positioning blocks 35. The three first positioning blocks 22 form a group, wherein two first positioning blocks 22 are fixedly connected to the connecting plate 2, and the two first positioning blocks 22 corresponding to the connecting plate 2 are respectively located at the position of the first section 1 far away from the second section 11 and the position of the second section 11 far away from the first section 1; the other first positioning block 22 is fixedly connected to the fixing plate 3, the first positioning block 22 corresponding to the fixing plate 3 is located at a position where the first section 1 is close to the second section 11, and the first positioning block 22 corresponding to the fixing plate 3 is far away from the connecting plate 2. One second positioning block 35 is a group, the second positioning block 35 is fixedly connected to the fixing plate 3, and the second positioning block 35 is located at one end of the second section 11 far away from the first section 1.

When the user installs the metal workpiece, the second section 11 is parallel to the fixing plate 3, and the first section 1 is parallel to the baffle 4. Inserting the metal workpiece from the direction of the baffle 4 close to the fixing plate 3, so that one end of the second section 11 far away from the first section 1 abuts against the second positioning block 35, and one side of the second section 11 far away from the first section 1 abuts against the corresponding fixing support 32 of the fixing plate 3; the metal workpiece is pushed towards the direction close to the connecting plate 2, so that the first section 1 and the second section 11 can be abutted against the first positioning block 22. This design has made things convenient for the user to fix a position it before pressing from both sides tight metal work piece, makes first drilling position 12, second drilling position 13, third drilling position 14 and fourth drilling position 15 homoenergetic correspond respective hole 34 of stepping down, has guaranteed that later stage drilling in-process boring cutter can stretch into hole 34 of stepping down.

The implementation principle of the metal workpiece machining tool in the embodiment of the application is as follows: when a user uses the device, the orientation of the metal workpiece is adjusted, the first section 1 is parallel to the baffle 4, the second section 11 is parallel to the fixing plate 3, the metal workpiece is pushed towards the direction of the baffle 4 close to the fixing plate 3, the supporting rod penetrates through the avoiding hole 41, one end, far away from the first section 1, of the second section 11 is abutted to the second positioning block 35, and one end, far away from the first section 1, of the second section 11 is abutted to the two fixing supports 32 and the adjusting support 33 corresponding to the fixing plate 3; the metal workpiece is pushed toward the direction of the baffle 4 approaching the connecting plate 2, so that the first section 1 and the second section 11 are respectively abutted against the corresponding first positioning blocks 22. The corner cylinder 31 is started, the corner cylinder 31 corresponding to the fixing plate 3 clamps the second section 11, the corner cylinder 31 corresponding to the fixing plate 3 and the fixing support 32 and the adjusting support 33 corresponding to the baffle 4 clamp the metal workpiece in a direction perpendicular to the second section 11 in a bidirectional manner; the adjusting support 33 corresponding to the baffle 4 and the corner cylinder 31 clamp the first section 1 simultaneously, and the metal workpiece is clamped in a direction perpendicular to the first section 1 in a bidirectional mode. Meanwhile, the force applied by the adjusting support 33 and the corresponding corner cylinder 31 to the rod structure positions of the first section 1 and the second section 11 is opposite in direction and is positioned on the same straight line, so that the rod structure can be protected from bending to a certain extent. After the metal workpiece is clamped, the boring cutter extends out from the baffle 4 in the direction close to the fixing plate 3, the boring cutter is perpendicular to the fixing plate 3, holes are drilled in the first drilling position 12, the second drilling position 13, the third drilling position 14 and the fourth drilling position 15, and the boring cutter can penetrate into the support plate 21 or the abdicating hole 34 of the fixing plate 3, so that the end part of the boring cutter is prevented from contacting and damaging the fixing plate 3 or the support plate 21.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (6)

1. The utility model provides a metal work piece processing frock which characterized in that includes:

the device comprises a connecting plate (2), wherein a fixing plate (3) and a baffle (4) are fixedly connected to one side of the connecting plate (2) together, a first section (1) of the metal workpiece can abut against the baffle (4), and a second section (11) of the metal workpiece can abut against the fixing plate (3);

corner cylinder (31), corner cylinder (31) sets up to a plurality of, four corner cylinder (31) rigid coupling in fixed plate (3), fixed plate (3) correspond four corner cylinders (31) can the butt keep away from in second section (11) fixed plate (3) one side, two corner cylinder (31) rigid coupling in baffle (4), two that baffle (4) correspond corner cylinder (31) can the butt keep away from in first section (1) baffle (4) one side.

2. The metal workpiece machining tool according to claim 1, characterized by comprising:

the adjusting support (33), the adjusting support (33) is set to be a plurality of, the adjusting support (33) is located at the rod structure position of the first section (1) and the second section (11), and the adjusting support (33) and the corner cylinder (31) apply forces on the rod structure position of the first section (1) or the second section (11) in opposite directions and on the same straight line.

3. The metal workpiece machining tool according to claim 1, characterized by comprising:

the supporting plates (21) are arranged in a plurality of the supporting plates (21), and the supporting plates (21) are respectively connected between the baffle (4) and the connecting plate (2) and between the fixing plate (3) and the connecting plate (2).

4. The metal workpiece machining tool according to claim 1, characterized by comprising:

fixed bolster (32), fixed bolster (32) set up to a plurality ofly, fixed bolster (32) rigid coupling in fixed plate (3), fixed bolster (32) are located first drilling position (12) and are in orthographic projection position on fixed plate (3), and the boring cutter can reach in the farthest feed position of first drilling position (12) fixed bolster (32) is kept away from fixed plate (3) position department.

5. A metal workpiece machining tool according to claim 3, characterized by comprising:

the yielding holes (34) are arranged in a plurality of the yielding holes (34), five of the yielding holes (34) are arranged on the fixing plate (3), and the yielding holes (34) corresponding to the fixing plate (3) are located at orthographic projection positions of a second drilling position (13), a third drilling position (14) and a fourth drilling position (15) on the fixing plate (3); one of the yielding holes (34) is formed in the supporting plate (21) corresponding to the baffle (4), and the boring cutter can penetrate through the yielding hole (34) when drilling is conducted on the metal workpiece.

6. The metal workpiece machining tool according to claim 5, comprising:

the first positioning block (22), the first positioning block (22) is fixedly connected to the connecting plate (2) or the fixing plate (3), and the first positioning block (22) can abut against one end, close to the connecting plate (2), of the first section (1) or the second section (11);

the second positioning block (35), the second positioning block (35) is fixedly connected to the fixing plate (3), and the second positioning block (35) can be abutted against one end, far away from the first section (1), of the second section (11); when the metal workpiece completely abuts against the first positioning block (22) and the second positioning block (35), the orthographic projection of the second drilling position (13), the third drilling position (14) and the fourth drilling position (15) on the fixing plate (3) completely corresponds to the abdicating hole (34).

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