CN219542261U - Automatic seek limit location and compress tightly metal calendering material cutting machine - Google Patents

Abstract

The utility model relates to the technical field of cutting machines, in particular to an automatic edge-finding positioning and pressing metal rolled material cutting machine which comprises a processing table, a placing seat and a laser, wherein the placing seat for placing metal rolled materials is arranged in a processing cavity above the processing table; an annular groove is formed in the peripheral side of the mounting end, and an annular sleeve seat is mounted in the annular groove in a limiting rotation mode. According to the utility model, the extrusion head and the micro-touch switch are used for abutting and separating, so that signal transmission is realized, when the guide rod moves to the edge of the metal rolled material and is separated, the edge of the metal rolled material is proved to be reached, the effect of automatic edge searching and positioning is realized, the whole manufacturing cost is low, the production cost is reduced, and the device is worthy of popularization in small enterprises.

Description

Automatic seek limit location and compress tightly metal calendering material cutting machine

Technical Field

The utility model relates to the technical field of cutting machines, in particular to an automatic edge-finding positioning and compacting metal rolled material cutting machine.

Background

The metal rolling means that metal ingots, billets, dies and the like formed by smelting and casting metal raw ores are formed, and then the metal ingots, billets, dies and the like are formed into required shapes or structural forms by external force means such as rolling, forging or extrusion, and finally the metal rolled material is formed.

After the metal rolled material is molded, cutting processing is required, and the metal rolled material is generally cut by using laser cutting equipment, and during cutting processing, edge searching and positioning are required to be performed on the metal rolled material so as to ensure the accuracy of cutting processing.

The edge searching device arranged on the existing laser cutting machine realizes edge searching positioning by adopting a camera shooting positioning visual system and a computer for cooperative processing, namely, an industrial camera with high definition is adopted to search edges in cooperation with an image processing technology, the edge searching technology is matched with high price, the production cost is high, and a common small enterprise is difficult to bear.

Disclosure of Invention

The utility model aims to provide an automatic edge-searching positioning and pressing metal rolled material cutting machine, which realizes edge searching of metal rolled materials by a mechanical pressing principle, has low manufacturing cost, reduces production cost and effectively solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions.

The utility model provides an automatic seek limit location and compress tightly metal calendering material cutting machine, including processing platform, place seat and laser instrument, be used for placing the metal calendering material place the seat install in the processing chamber of processing platform top, install the fixing base through the removal module in the processing chamber, the fixing base upper surface is fixed with electronic jar vertically, the telescopic link of electronic jar runs through and extends to the below of fixing base, be fixed with the installation end on the tip that the telescopic link is located the fixing base below, the laser instrument is installed in the lower extreme of installation end; the circumference of the mounting end is provided with an annular groove, an annular sleeve seat is mounted in the annular groove in a limiting rotation manner, and an outer sleeve with a downward opening is vertically fixed on the circumference of the annular sleeve seat through a mounting arm; the guide rod is retractably arranged in the outer sleeve, the spring is fixed on the top wall in the cavity of the outer sleeve, and the bottom end of the spring is fixed with the top end of the guide rod; the micro-touch switch is arranged on the inner top wall of the cavity, and the extrusion head corresponding to the press contact of the micro-touch switch is arranged on the top of the guide rod.

Therefore, when the metal rolled material is cut, the metal rolled material is firstly placed on the placing seat, then the telescopic rod on the electric cylinder is stretched to work so as to push the mounting end to move downwards and drive the bottom of the guide rod to abut against the upper surface of the metal rolled material, the guide rod is upwards moved along the cavity along with the continuous downward pressing of the electric cylinder against the elastic force of the spring, when the extrusion head contacts the micro-touch switch, a signal is generated to control the electric cylinder to stop working, then the moving module drives the fixing seat to work, when the guide rod is moved to the edge of the metal rolled material and separated from the metal rolled material, the bottom of the guide rod is separated from the metal rolled material, the guide rod is pushed to downwards move and reset under the action of the elastic force of the spring, at the moment, the extrusion head is separated from the micro-touch switch, the micro-touch switch returns data, namely, the corner of the metal rolled material is proved to be reached, so that the effect of automatic edge searching and positioning is realized. According to the utility model, signal transmission is realized by utilizing the interference and separation of the extrusion head and the micro-touch switch, when the guide rod moves to the edge of the metal rolled material and is separated, the edge of the metal rolled material is proved to be reached, so that the effect of automatic edge searching and positioning is realized, the whole manufacturing cost is low, the production cost is reduced, and the device is worthy of popularization in various small enterprises.

Further, a driving mechanism for driving the annular sleeve seat to rotate is arranged in the mounting end head, the driving mechanism comprises a driving motor, a gear and an inner gear ring, and an inner cavity communicated with the annular groove is formed in the mounting end head; the driving motor is fixed in the inner cavity, and the gear is fixed on an output shaft of the driving motor; the inner gear ring is fixed on the inner edge of the annular sleeve seat and is correspondingly meshed with the gear.

The gear is driven to rotate through the work of the driving motor, the rotating gear is meshed with the driving inner gear ring and drives the annular sleeve seat to rotate, so that the outer sleeve and the guide rod are driven to rotate around the laser, the position of the guide rod relative to the laser is adjusted, the edge searching of the metal rolled material in different directions is facilitated, and the practicability is higher.

Further, the moving module comprises an X-axis moving group and a pair of Y-axis moving groups; the Y-axis moving groups are respectively arranged on the inner walls of the two sides of the processing cavity, the X-axis moving groups are arranged above the two Y-axis moving groups, and the fixed seat is arranged on one side of the X-axis moving groups; the X-axis moving group and the two Y-axis moving groups are arranged in an H shape.

The X-axis moving group can be driven to move along the Y-axis direction through the Y-axis moving group, and the fixing seat can be driven to move along the X-axis direction through the X-axis moving group, so that the guide rod and the laser can be driven to move correspondingly.

Further, a concave cavity is formed in the bottom end of the guide rod, a rolling ball is embedded in the concave cavity in a sliding mode, and the rolling ball is exposed from the bottom end of the guide rod.

When the electric cylinder pushes the installation end to move downwards, the rolling ball at the bottom end of the guide rod is abutted against the surface of the metal rolled material, and the rolling effect of the rolling ball in the concave cavity is utilized, so that the relative movement between the end part of the guide rod and the metal rolled material is smoother and smoother, and the stability in edge searching is improved.

Further, the two sides of the upper surface of the placing seat are respectively provided with threaded holes at intervals, the threaded holes are internally provided with fastening bolts in a threaded manner, and the fastening bolts are sleeved with compression blocks in a rotating manner.

After placing the metal rolled material on placing the seat, through screwing up fastening bolt at threaded hole corresponding screw thread, can drive the compact heap and compress tightly metal rolled material both sides, realize the location to metal rolled material, prevent to lead to the fact the influence to cutting accuracy because metal rolled material removes in the cutting process, at the interval design screw hole of placing seat both sides simultaneously, according to actual need, select to screw in suitable threaded hole with fastening bolt to satisfy not unidimensionally and obtain metal rolled material and compress tightly fixedly.

Compared with the prior art, the device has the following beneficial effects.

1. According to the utility model, signal transmission is realized by utilizing the interference and separation of the extrusion head and the micro-touch switch, when the guide rod moves to the edge of the metal rolled material and is separated, the edge of the metal rolled material is proved to be reached, so that the effect of automatic edge searching and positioning is realized, the whole manufacturing cost is low, the production cost is reduced, and the device is worthy of popularization in various small enterprises.

2. According to the utility model, the gear is driven to rotate through the operation of the driving motor, the rotating gear is meshed with the driving inner gear ring and drives the annular sleeve seat to rotate, so that the outer sleeve and the guide rod are driven to rotate around the laser, the position of the guide rod relative to the laser is adjusted, the edge of the metal rolled material is conveniently found in different directions, and the practicability is higher.

Drawings

FIG. 1 is a perspective view of the overall structure of the present utility model;

FIG. 2 is a schematic view of a surface structure of a fixing base according to the present utility model;

FIG. 3 is a schematic cross-sectional view of an outer sleeve according to the present utility model;

FIG. 4 is a schematic cross-sectional view of a mounting head according to the present utility model;

fig. 5 is an enlarged schematic view of the structure at a in fig. 1.

In the figure: 1. a processing table; 11. a processing chamber; 2. a placement seat; 21. a threaded hole; 22. a fastening bolt; 23. a compaction block; 3. a Y-axis moving group; 4. an X-axis moving group; 5. a fixing seat; 51. an electric cylinder; 511. a telescopic rod; 6. installing an end head; 61. an annular groove; 62. an annular sleeve seat; 63. a mounting arm; 64. an inner cavity; 7. a laser; 8. a driving mechanism; 81. a driving motor; 82. a gear; 83. an inner gear ring; 9. an outer sleeve; 901. a bore; 91. a guide rod; 92. a spring; 93. a micro-touch switch; 94. an extrusion head; 911. a cavity; 912. a rolling ball.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the automatic edge-finding positioning compacting metal rolled material cutting machine provided by the utility model comprises a processing table 1, a placing seat 2 and a laser 7, wherein the placing seat 2 for placing metal rolled materials is arranged in a processing cavity 11 above the processing table 1, a fixing seat 5 is arranged in the processing cavity 11 through a moving module, an electric cylinder 51 is vertically fixed on the upper surface of the fixing seat 5, a telescopic rod 511 of the electric cylinder 51 extends to the lower part of the fixing seat 5 in a penetrating way, an installation end 6 is fixed on the end part of the telescopic rod 511 below the fixing seat 5, and the laser 7 is arranged at the lower end of the installation end 6; an annular groove 61 is formed in the periphery of the mounting end 6, an annular sleeve seat 62 is mounted in the annular groove 61 in a limiting rotation mode, and an outer sleeve 9 with a downward opening is vertically fixed on the periphery of the annular sleeve seat 62 through a mounting arm 63; a guide rod 91 is telescopically arranged in the outer sleeve 9, a spring 92 is fixed on the inner top wall of the cavity 901 of the outer sleeve 9, and the bottom end of the spring 92 is fixed with the top end of the guide rod 91; the micro-touch switch 93 is arranged on the inner top wall of the cavity 901, and the extrusion head 94 corresponding to the press contact position of the micro-touch switch 93 is arranged on the top of the guide rod 91.

When the metal rolled material is cut, firstly, the metal rolled material is placed on the placement seat 2, then the telescopic rod 511 on the electric cylinder 51 stretches to work, the mounting end head 6 is pushed to move downwards, the bottom of the guide rod 91 is driven to abut against the upper surface of the metal rolled material, along with the continuous downward pressing of the electric cylinder 51, the guide rod 91 moves upwards along the cavity 901 against the elastic force of the spring 92, when the extrusion head 94 contacts the micro-touch switch 93, a signal is generated, the electric cylinder 51 is controlled to stop working, then the moving module drives the fixing seat 5 to work, when the guide rod 91 moves to the edge of the metal rolled material and breaks away, the bottom of the guide rod 91 is separated from the metal rolled material, the guide rod 91 is pushed to move downwards to reset under the elastic force of the spring 92, at this time, the extrusion head 94 is separated from the micro-touch switch 93 returns data, namely, the corner of the metal rolled material is proved to be reached, thereby realizing the effect of automatic edge positioning, after a plurality of groups of data are returned, the telescopic rod 511 is retracted to drive the mounting end head 6 to move upwards to reset, then the moving module 7 is driven to move, and the laser 7 is driven to move, when the laser 7 moves, and cutting processing is realized on the metal rolled material.

Specifically, a driving mechanism 8 for driving the annular sleeve seat 62 to rotate is arranged in the mounting end head 6, the driving mechanism 8 comprises a driving motor 81, a gear 82 and an inner gear ring 83, and an inner cavity 64 communicated with the annular groove 61 is formed in the mounting end head 6; the driving motor 81 is fixed in the inner cavity 64, and the gear 82 is fixed on the output shaft of the driving motor 81; an inner gear ring 83 is fixed to the inner edge of the annular socket 62 and is correspondingly engaged with the gear 82. The gear 82 is driven to rotate through the operation of the driving motor 81, the rotating gear 82 is meshed with the driving inner gear ring 83 and drives the annular sleeve seat 62 to rotate, so that the outer sleeve 9 and the guide rod 91 are driven to rotate around the laser 7, the position of the guide rod 91 relative to the laser 7 is adjusted, the edge searching of the metal rolled material in different directions is facilitated, and the practicability is higher.

Specifically, the moving module comprises an X-axis moving group 4 and a pair of Y-axis moving groups 3; the Y-axis moving groups 3 are respectively arranged on the inner walls of the two sides of the processing cavity 11, the X-axis moving groups 4 are arranged above the two Y-axis moving groups 3, and the fixed seat 5 is arranged on one side of the X-axis moving groups 4; the X-axis moving group 4 and the two Y-axis moving groups 3 are arranged in an H-shape. The X-axis moving group 4 can be driven to move along the Y-axis direction through the Y-axis moving group 3, and the fixed seat 5 can be driven to move along the X-axis direction through the X-axis moving group 4, so that the guide rod 91 and the laser 7 can be driven to correspondingly move.

Specifically, a concave cavity 911 is formed at the bottom end of the guide rod 91, a rolling ball 912 is slidably mounted in the concave cavity 911, and the rolling ball 912 is exposed from the bottom end of the guide rod 91. When the electric cylinder 51 pushes the mounting end head 6 to move downwards, the rolling ball 912 at the bottom end of the guide rod 91 is abutted against the surface of the metal rolled material, and the rolling effect of the rolling ball 912 in the concave cavity 911 is utilized, so that the end part of the guide rod 91 and the metal rolled material move relatively smoothly and smoothly, and the stability in edge searching is improved.

Specifically, the upper surface both sides of placing seat 2 interval respectively are equipped with screw hole 21, and the fastening bolt 22 is installed to the screw hole 21 internal thread, and the cover is equipped with compact heap 23 on the fastening bolt 22 rotation. After the metal rolled material is placed on the placement seat 2, the corresponding threads of the fastening bolts 22 are screwed into the threaded holes 21, so that the pressing blocks 23 can be driven to press the two sides of the metal rolled material, the metal rolled material is positioned, the influence on cutting accuracy caused by movement of the metal rolled material in the cutting process is prevented, meanwhile, the threaded holes 21 are designed at intervals on the two sides of the placement seat 2, and the fastening bolts 22 are screwed into the threaded holes 21 appropriately according to actual needs, so that the metal rolled materials with different sizes are pressed and fixed.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. The utility model provides an automatic seek limit location and compress tightly metal calendering material cutting machine, includes processing platform (1), places seat (2) and laser instrument (7), is used for placing metal calendering material place seat (2) install in processing chamber (11) of processing platform (1) top, install fixing base (5), its characterized in that through the removal module in processing chamber (11).

An electric cylinder (51) is vertically fixed on the upper surface of the fixed seat (5), a telescopic rod (511) of the electric cylinder (51) penetrates through and extends to the lower side of the fixed seat (5), an installation end (6) is fixed on the end part of the telescopic rod (511) located below the fixed seat (5), and the laser (7) is installed at the lower end of the installation end (6);

an annular groove (61) is formed in the peripheral side of the mounting end (6), an annular sleeve seat (62) is mounted in the annular groove (61) in a limiting rotation mode, and an outer sleeve (9) with a downward opening is vertically fixed on the peripheral side of the annular sleeve seat (62) through a mounting arm (63);

a guide rod (91) is telescopically arranged in the outer sleeve (9), a spring (92) is fixed on the inner top wall of the cavity (901) of the outer sleeve (9), and the bottom end of the spring (92) is fixed with the top end of the guide rod (91);

the micro-touch switch (93) is arranged on the inner top wall of the cavity (901), and the extrusion head (94) corresponding to the press contact position of the micro-touch switch (93) is arranged on the top of the guide rod (91).

2. The automatic edge-finding positioning and pressing metal rolled material cutting machine according to claim 1, wherein the cutting machine comprises the following components:

a driving mechanism (8) for driving the annular sleeve seat (62) to rotate is arranged in the mounting end head (6), the driving mechanism (8) comprises a driving motor (81), a gear (82) and an inner gear ring (83), and an inner cavity (64) communicated with the annular groove (61) is formed in the mounting end head (6);

the driving motor (81) is fixed in the inner cavity (64), and the gear (82) is fixed on an output shaft of the driving motor (81);

the inner gear ring (83) is fixed on the inner edge of the annular sleeve seat (62) and is correspondingly meshed with the gear (82).

3. The automatic edge-finding positioning and pressing metal rolled material cutting machine according to claim 1, wherein the cutting machine comprises the following components:

the mobile module comprises an X-axis mobile group (4) and a pair of Y-axis mobile groups (3);

the Y-axis moving groups (3) are respectively arranged on the inner walls of the two sides of the processing cavity (11), the X-axis moving groups (4) are arranged above the two Y-axis moving groups (3), and the fixing seat (5) is arranged on one side of the X-axis moving groups (4);

the X-axis moving group (4) and the two Y-axis moving groups (3) are arranged in an H shape.

4. The automatic edge-finding positioning and pressing metal rolled material cutting machine according to claim 1, wherein the cutting machine comprises the following components:

the bottom end of the guide rod (91) is provided with a concave cavity (911), a rolling ball (912) is embedded in the concave cavity (911) in a sliding manner, and the rolling ball (912) is exposed from the bottom end of the guide rod (91).

5. The automatic edge-finding positioning and pressing metal rolled material cutting machine according to claim 1, wherein the cutting machine comprises the following components:

screw holes (21) are respectively formed in two sides of the upper surface of the placement seat (2) at intervals, fastening bolts (22) are installed in the screw holes (21) in a threaded mode, and compression blocks (23) are sleeved on the fastening bolts (22) in a rotating mode.