CN221019837U

CN221019837U - Beam part machining tool

Info

Publication number: CN221019837U
Application number: CN202322569479.8U
Authority: CN
Inventors: 黄玺; 王伟
Original assignee: Wuxi Quanyi Machinery Manufacturing Co ltd
Current assignee: Wuxi Quanyi Machinery Manufacturing Co ltd
Priority date: 2023-09-21
Filing date: 2023-09-21
Publication date: 2024-05-28
Anticipated expiration: 2033-09-21

Abstract

The utility model provides a beam part machining tool which comprises a bottom plate, a first tool assembly, a second tool assembly and a third tool assembly, wherein the first tool assembly, the second tool assembly and the third tool assembly are arranged on the bottom plate in parallel; the first tooling assembly comprises two first fixing assemblies which are arranged on the bottom plate at intervals along the axial direction of the first part of the cross beam and are respectively used for fixing the two axial ends of the first part of the cross beam; each first fixing component comprises a first base, a first fixing column, a first supporting column, a first pressing strip and a first V-shaped pressing block; the upper end of the first fixing column passes through the middle part of the first pressing bar and is connected with the upper end of the first fixing column through a nut so that the first pressing bar is assembled above the first fixing column and the first supporting column; one end of the first pressing strip is rotationally connected with the root of the first V-shaped pressing block, and the other end of the first pressing strip can be borne on the upper end of the first support column; the two bifurcation parts of the first V-shaped pressing block are used for abutting against and pressing the end part of the first beam; the tool is beneficial to keeping equal length of the three parts after being processed.

Description

Beam part machining tool

Technical Field

The utility model relates to a clamping tool, in particular to a beam part machining tool.

Background

A cross beam includes a plurality of cross beam parts, three of which are required to be machined to equal lengths; if three beam parts are clamped separately, the beam parts are processed separately, so that the processing efficiency is low on one hand, and certain difficulties exist in ensuring equal length on the other hand.

In order to improve the machining efficiency, a clamping tool is needed, three beam parts can be clamped at a time, and the end faces of the beam parts are convenient to machine.

Disclosure of Invention

Aiming at the defects in the prior art, the embodiment of the utility model provides the beam part machining tool which can clamp three beam parts simultaneously, provides machining efficiency and is beneficial to keeping the three beam parts equal in length after machining. In order to achieve the technical purpose, the technical scheme adopted by the embodiment of the utility model is as follows:

The embodiment of the utility model provides a beam part machining tool, which comprises a bottom plate, a first tool assembly, a second tool assembly and a third tool assembly, wherein the first tool assembly, the second tool assembly and the third tool assembly are arranged on the bottom plate in parallel;

The first tooling assembly comprises two first fixing assemblies which are arranged on the bottom plate at intervals along the axial direction of the first part of the cross beam and are respectively used for fixing the two axial ends of the first part of the cross beam; each first fixing component comprises a first base, a first fixing column, a first supporting column, a first pressing strip and a first V-shaped pressing block; the first base, the first fixing column and the first support column are fixed on the bottom plate, and the first fixing column is positioned between the first base and the first support column; the first base is used for bearing the end part of the first part of the beam; the upper end of the first fixing column passes through the middle part of the first pressing bar and is connected with the upper end of the first fixing column through a nut so that the first pressing bar is assembled above the first fixing column and the first supporting column; one end of the first pressing strip is rotationally connected with the root of the first V-shaped pressing block, and the other end of the first pressing strip can be borne on the upper end of the first support column; the two bifurcation parts of the first V-shaped pressing block are used for abutting against and pressing the end part of the first beam;

The second tooling assembly comprises two second fixing assemblies which are arranged on the bottom plate at intervals along the axial direction of the second part of the cross beam and are respectively used for fixing the two axial ends of the second part of the cross beam; each second fixing assembly comprises a second base, a second fixing column, a second supporting column and a second pressing strip; the second base, the second fixing column and the second supporting column are fixed on the bottom plate, and the second fixing column is positioned between the second base and the second supporting column; the top of the second base is provided with a V-shaped groove for bearing the end part of the second part of the cross beam; the upper end of the second fixing column passes through the middle part of the second pressing bar and is connected with the upper end of the second fixing column through a nut so that the second pressing bar is assembled above the second fixing column and the second supporting column; one end of the second pressing bar is used for abutting against and pressing the end part of the second part of the cross beam, and the other end of the second pressing bar can be borne on the upper end of the second support column;

The third tool assembly comprises two third fixing assemblies which are arranged on the bottom plate at intervals along the axial direction of the third part of the cross beam and are respectively used for fixing the two axial ends of the third part of the cross beam; each third fixing assembly comprises a third base, a third fixing column, a third supporting column, a third pressing strip and a third V-shaped pressing block; the third base, the third fixing column and the third supporting column are fixed on the bottom plate, and the third fixing column is positioned between the third base and the third supporting column; the third base is used for bearing the end part of a third part of the beam; the upper end of the third fixing column passes through the middle part of the third pressing bar and is connected with the upper end of the third fixing column through a nut so that the third pressing bar is assembled above the third fixing column and the third supporting column; one end of the third pressing strip is rotationally connected with the root of the third V-shaped pressing block, and the other end of the third pressing strip can be borne on the upper end of the third support column; the two bifurcation parts of the third V-shaped pressing block are used for abutting and pressing the end part of the third part of the cross beam.

Further, an angle between two bifurcation portions of the first V-shaped pressing block 215 is smaller than 90 degrees, and a reinforcing bar is connected between the two bifurcation portions of the first V-shaped pressing block.

Further, the first tooling assembly further comprises at least one first locating pin; the first locating pin is fixed on the bottom plate, and the upper end of the first locating pin is used for penetrating into a process locating hole in the first part of the cross beam.

Further, one end of the first pressing strip corresponding to the first supporting column is provided with a positioning groove.

Further, the second tooling assembly further comprises at least one second locating pin; the second locating pin is fixed on the bottom plate, and the upper end of the second locating pin is used for penetrating into a process locating hole on a second part of the cross beam.

Further, the angle between the two prongs of the third V-block is greater than 90 degrees but less than 180 degrees.

Further, the third tool assembly further comprises at least one third locating pin; the third locating pin is fixed on the bottom plate, and the upper end of the third locating pin is used for penetrating into a process locating hole on a third part of the cross beam.

Further, a positioning groove is formed in one end of the third pressing bar, corresponding to the third supporting column.

The technical scheme provided by the embodiment of the utility model has the beneficial effects that: the utility model can clamp three beam parts at a time, improves the processing efficiency, and is beneficial to keeping the three beam parts equal in length after processing.

Drawings

Fig. 1 is a schematic diagram of a tooling structure in an embodiment of the utility model.

Fig. 2 is a schematic diagram of a tooling clamping beam part in an embodiment of the utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1, an embodiment of the present utility model proposes a beam part machining tool, including a base plate 1, a first tool assembly 2, a second tool assembly 3 and a third tool assembly 4 mounted on the base plate 1 in parallel;

the first tooling assembly 2 comprises two first fixing assemblies 210, wherein the two first fixing assemblies 210 are arranged on the bottom plate 1 at intervals along the axial direction of the first part 5 of the cross beam and are respectively used for fixing the two axial ends of the first part 5 of the cross beam; each first fixing assembly 210 includes a first base 211, a first fixing column 212, a first support column 213, a first molding 214, and a first V-shaped pressing block 215; the first base 211, the first fixing column 212 and the first supporting column 213 are fixed on the bottom plate 1, and the first fixing column 212 is located in the middle of the first base 211 and the first supporting column 213; the first base 211 is used for bearing the end of the first part 5 of the beam; the upper end of the first fixing column 212 passes through the middle of the first pressing bar 214, and is connected with the upper end of the first fixing column 212 through a nut so that the first pressing bar 214 is assembled above the first fixing column 212 and the first supporting column 213; one end of the first pressing bar 214 is rotationally connected with the root of the first V-shaped pressing block 215, and the other end of the first pressing bar can be borne on the upper end of the first supporting column 213; the two bifurcation of the first V-shaped press block 215 is used to abut and press the end of the first part 5 of the first beam;

When the novel cross beam is used, two ends of the first part 5 of the cross beam can be respectively placed on the two first bases 211, then two bifurcation parts of the first V-shaped pressing block 215 are pressed on two sides above the end part of the first part 5 of the cross beam, the locking nut enables the first pressing bar 214 to be pressed down, and the two bifurcation parts of the first V-shaped pressing block 215 press the end part of the first part 5 of the cross beam, so that the first part 5 of the cross beam is prevented from rotating and axially displacing;

More preferably, the angle between the two bifurcation parts of the first V-shaped pressing block 215 is smaller than 90 degrees, and a reinforcing strip 216 is connected between the two bifurcation parts of the first V-shaped pressing block 215; the phenomenon of separation deformation generated when the stress of the two bifurcation parts of the first V-shaped pressing block 215 is large can be prevented;

More preferably, the first tooling assembly 2 further comprises at least one first positioning pin 220; the first positioning pin 220 is fixed on the bottom plate 1, and the upper end of the first positioning pin is used for penetrating into a process positioning hole on the first part 5 of the cross beam; the cross beam first part 5 can be prevented from moving in the axial direction;

More preferably, a positioning groove is arranged at one end of the first pressing bar 214 corresponding to the first supporting column 213; when the first pressing bar 214 is pressed down, the top end of the first supporting column 213 enters the positioning groove of the first pressing bar 214, so that the first pressing bar 214 can be prevented from rotating;

The second tooling assembly 3 comprises two second fixing assemblies 310, wherein the two second fixing assemblies 310 are arranged on the bottom plate 1 at intervals along the axial direction of the beam second part 6 and are respectively used for fixing the two axial ends of the beam second part 6; each second fixing assembly 310 includes a second base 311, a second fixing post 312, a second support post 313, and a second molding 314; the second base 311, the second fixing column 312 and the second supporting column 313 are fixed on the bottom plate 1, and the second fixing column 312 is located between the second base 311 and the second supporting column 313; the top of the second base 311 is provided with a V-shaped groove for bearing the end part of the second part 6 of the beam; the upper end of the second fixing post 312 passes through the middle of the second pressing bar 314, and is connected with the upper end of the second fixing post 312 by a nut so that the second pressing bar 314 is assembled above the second fixing post 312 and the second supporting post 313; one end of the second pressing bar 314 is used for abutting against and pressing the end of the second part 6 of the cross beam, and the other end can be borne on the upper end of the second support column 313;

When the novel cross beam is used, two ends of the cross beam second part 6 can be respectively placed in the V-shaped grooves of the two second bases 311, then one end of the second pressing strip 314 is pressed right above the end of the cross beam second part 6, the locking nut enables the second pressing strip 314 to be pressed down, the end of the cross beam second part 6 is pressed, and the cross beam second part 6 is prevented from rotating and axially displacing;

more preferably, the second tooling assembly 3 further comprises at least one second positioning pin 320; the second positioning pin 320 is fixed on the bottom plate 1, and the upper end of the second positioning pin is used for penetrating into a process positioning hole on the second part 6 of the cross beam; the cross beam second part 6 can be prevented from moving in the axial direction;

The third tooling assembly 4 comprises two third fixing assemblies 410, wherein the two third fixing assemblies 410 are arranged on the bottom plate 1 at intervals along the axial direction of the third part 7 of the cross beam and are respectively used for fixing the two axial ends of the third part 7 of the cross beam; each third fixing assembly 410 includes a third base 411, a third fixing post 412, a third support post 413, a third bead 414, and a third V-shaped press block 415; the third base 411, the third fixing column 412 and the third support column 413 are fixed on the bottom plate 1, and the third fixing column 412 is located in the middle of the third base 411 and the third support column 413; the third base 411 is used for bearing the end of the third part 7 of the beam; the upper end of the third fixing post 412 passes through the middle of the third pressing bar 414, and is connected with the upper end of the third fixing post 412 through a nut so that the third pressing bar 414 is assembled above the third fixing post 412 and the third supporting post 413; one end of the third pressing strip 414 is rotationally connected with the root of the third V-shaped pressing block 415, and the other end of the third pressing strip can be borne on the upper end of the third support column 413; the two prongs of the third V-block 415 are adapted to abut and press against the ends of the third part 7 of the cross-beam;

When the novel cross beam is used, two ends of the cross beam third part 7 can be respectively placed on the two third bases 411, then two bifurcation parts of the third V-shaped pressing block 415 are pressed on two sides above the end part of the cross beam third part 7, the locking nut enables the third pressing bar 414 to be pressed down, and the end part of the cross beam third part 7 is pressed by the two bifurcation parts of the third V-shaped pressing block 415, so that the cross beam third part 7 is prevented from rotating and axially displacing;

More preferably, the angle between the two branches of the third V-block 415 is greater than 90 degrees but less than 180 degrees, whereby the third V-block 415 can be used for a wider beam third part 7;

more preferably, the third tool assembly 4 further comprises at least one third positioning pin 420; the third positioning pin 420 is fixed on the bottom plate 1, and the upper end of the third positioning pin is used for penetrating into a process positioning hole on the third part 7 of the cross beam; the cross beam third part 7 can be prevented from moving in the axial direction;

More preferably, a positioning groove is arranged at one end of the third pressing bar 414 corresponding to the third supporting column 413; when the third pressing bar 414 is pressed down, the top end of the third support column 413 enters a positioning groove of the third pressing bar 414, so that the third pressing bar 414 can be prevented from rotating;

after the beam first part 5, the beam second part 6 and the beam third part 7 are all fixed, the processing equipment can process the end surfaces of the beam first part, the beam second part and the beam third part together; the base plate 1 can be fixed on a rotary seat 8 of the processing equipment; then after the end surfaces of one side of the first part 5, the second part 6 and the third part 7 of the cross beam are machined, the bottom plate 1 is rotated 180 degrees, so that the end surfaces of the other side of the first part 5, the second part 6 and the third part 7 of the cross beam can be machined; the machining efficiency can be improved, and the three beam parts can be kept equal in length after machining.

Finally, it should be noted that the above-mentioned embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same, and although the present utility model has been described in detail with reference to the examples, it should be understood by those skilled in the art that modifications and equivalents may be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model, and all such modifications and equivalents are intended to be encompassed in the scope of the claims of the present utility model.

Claims

1. The beam part machining tool is characterized by comprising a bottom plate (1), a first tool assembly (2), a second tool assembly (3) and a third tool assembly (4), wherein the first tool assembly (2), the second tool assembly (3) and the third tool assembly (4) are arranged on the bottom plate (1) in parallel;

The first tooling assembly (2) comprises two first fixing assemblies (210), wherein the two first fixing assemblies (210) are arranged on the bottom plate (1) at intervals along the axial direction of the first part (5) of the cross beam and are respectively used for fixing the two axial ends of the first part (5) of the cross beam; each first fixing assembly (210) comprises a first base (211), a first fixing column (212), a first supporting column (213), a first pressing strip (214) and a first V-shaped pressing block (215); the first base (211), the first fixing column (212) and the first supporting column (213) are fixed on the bottom plate (1), and the first fixing column (212) is positioned between the first base (211) and the first supporting column (213); the first base (211) is used for bearing the end part of the first part (5) of the beam; the upper end of the first fixing column (212) passes through the middle part of the first pressing bar (214), and is connected with the upper end of the first fixing column (212) through a nut so that the first pressing bar (214) is assembled above the first fixing column (212) and the first supporting column (213); one end of the first pressing strip (214) is rotationally connected with the root of the first V-shaped pressing block (215), and the other end of the first pressing strip can be borne on the upper end of the first supporting column (213); two bifurcation parts of the first V-shaped pressing block (215) are used for abutting and pressing the end part of the first part (5) of the first beam;

The second tooling assembly (3) comprises two second fixing assemblies (310), wherein the two second fixing assemblies (310) are arranged on the bottom plate (1) at intervals along the axial direction of the second part (6) of the cross beam and are respectively used for fixing the two axial ends of the second part (6) of the cross beam; each second fixing assembly (310) comprises a second base (311), a second fixing column (312), a second support column (313) and a second pressing bar (314); the second base (311), the second fixing column (312) and the second support column (313) are fixed on the bottom plate (1), and the second fixing column (312) is positioned between the second base (311) and the second support column (313); the top of the second base (311) is provided with a V-shaped groove for bearing the end part of the second part (6) of the cross beam; the upper end of the second fixing column (312) passes through the middle part of the second pressing bar (314), and is connected with the upper end of the second fixing column (312) through a nut so that the second pressing bar (314) is assembled above the second fixing column (312) and the second supporting column (313); one end of the second pressing bar (314) is used for abutting against and pressing the end part of the second part (6) of the cross beam, and the other end of the second pressing bar can be borne on the upper end of the second supporting column (313);

The third tool assembly (4) comprises two third fixing assemblies (410), and the two third fixing assemblies (410) are arranged on the bottom plate (1) at intervals along the axial direction of the third part (7) of the cross beam and are respectively used for fixing the two axial ends of the third part (7) of the cross beam; each third fixing assembly (410) comprises a third base (411), a third fixing column (412), a third supporting column (413), a third pressing strip (414) and a third V-shaped pressing block (415); the third base (411), the third fixing column (412) and the third support column (413) are fixed on the bottom plate (1), and the third fixing column (412) is positioned between the third base (411) and the third support column (413); the third base (411) is used for bearing the end part of a third part (7) of the cross beam; the upper end of the third fixing column (412) passes through the middle part of the third pressing bar (414), and is connected with the upper end of the third fixing column (412) through a nut so that the third pressing bar (414) is assembled above the third fixing column (412) and the third supporting column (413); one end of the third pressing strip (414) is rotationally connected with the root of the third V-shaped pressing block (415), and the other end of the third pressing strip can be borne on the upper end of the third support column (413); two bifurcation parts of the third V-shaped pressing block (415) are used for abutting and pressing the end part of the third part (7) of the cross beam.

2. The beam part machining tool according to claim 1, wherein,

The angle between the two bifurcation parts of the first V-shaped pressing block (215) is smaller than 90 degrees, and a reinforcing strip (216) is connected between the two bifurcation parts of the first V-shaped pressing block (215).

3. The beam part machining tool according to claim 1, wherein,

The first tool assembly (2) further comprises at least one first locating pin (220); the first locating pin (220) is fixed on the bottom plate (1), and the upper end of the first locating pin is used for penetrating into a process locating hole on the first part (5) of the cross beam.

4. The beam part machining tool according to claim 1, wherein,

One end of the first pressing strip (214) corresponding to the first supporting column (213) is provided with a positioning groove.

5. The beam part machining tool according to claim 1, wherein,

The second tool assembly (3) further comprises at least one second locating pin (320); the second locating pin (320) is fixed on the bottom plate (1), and the upper end of the second locating pin is used for penetrating into a process locating hole on the second part (6) of the cross beam.

6. The beam part machining tool according to claim 1, wherein,

The angle between the two prongs of the third V-shaped briquette (415) is greater than 90 degrees but less than 180 degrees.

7. The beam part machining tool according to claim 1, wherein,

The third tool assembly (4) further comprises at least one third locating pin (420); the third locating pin (420) is fixed on the bottom plate (1), and the upper end of the third locating pin is used for penetrating into a process locating hole on the third part (7) of the cross beam.

8. The beam part machining tool according to claim 1, wherein,

One end of the third pressing strip (414) corresponding to the third supporting column (413) is provided with a positioning groove.