CN214489899U - Thin-wall cylinder welding part drilling device with automatic laser centering detection function - Google Patents

Abstract

The utility model relates to a thin-wall cylinder welding part drilling device with laser automatic centering detection in the technical field of cranes, which comprises a supporting base, wherein the upper end surface of the supporting base is provided with a transverse slide rail arranged along the length direction of the supporting base, the transverse slide rail is matched with two longitudinal slide seats capable of transversely moving in a sliding way, and the upper end surfaces of the two longitudinal slide seats are both provided with longitudinal slide rails; every vertical slide rail all sliding fit has two sliding seats that can vertically move, and the opposite side top of two sliding seats rotates and is connected with the gyro wheel. The utility model discloses a to the function of the automatic school of material detection of detecting solved artifical the detection, lead to the technical problem that detection error is great and processing intensity of labour is great, the setting of horizontal slide rail and vertical slide has realized can to the material of different length carry out the school work; due to the arrangement of the longitudinal slide rail and the slide seat, the centering work of materials with different diameters can be realized.

Description

Thin-wall cylinder welding part drilling device with automatic laser centering detection function

Technical Field

The utility model relates to a hoist technical field especially relates to a thin wall drum welding spare drilling equipment with detection in laser automatic school.

Background

The drums and drums on the crane and the mining machine products are mostly welded by large-diameter long thin-wall drums, and the welding process can cause ellipse and length bending deformation of the drums, so that the drums need to be straightened and corrected when the center holes of the ends of the drums are manufactured, and center hole punching is finished under the condition that the machining allowance of the outer diameters of the drums is guaranteed.

At present, all existing centering detection devices are manually detected, so that detection errors are large and machining labor intensity is large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a thin wall drum welding spare drilling equipment with detect in order to solve above-mentioned problem in the automatic school of laser.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a thin-wall cylinder welding part drilling device with automatic laser centering detection comprises a supporting base, wherein a transverse slide rail is arranged on the upper end face of the supporting base along the length direction of the supporting base, the transverse slide rail is in sliding fit with two longitudinal slide seats capable of moving transversely, and longitudinal slide rails are arranged on the upper end faces of the two longitudinal slide seats; each longitudinal sliding rail is matched with two sliding seats capable of longitudinally moving in a sliding mode, the tops of the opposite sides of the two sliding seats are rotatably connected with rollers, and the wheel shaft of each roller is connected with the output end of a motor arranged on the corresponding sliding seat; the two end faces of each longitudinal sliding seat are respectively provided with a vertical detection scale which is arranged oppositely, the body of each detection scale is in sliding fit with a sliding block which can move up and down, the sliding block is matched with a locking screw for fixing the position of the sliding block, and the opposite faces of the two sliding blocks are respectively provided with a laser generator; and one end of the supporting base is provided with a drilling device for processing a material center hole.

Preferably, the upper end face of the longitudinal sliding seat is also provided with a first driving assembly for driving the sliding seat to move longitudinally.

Preferably, the upper end face of the supporting base is also provided with a second driving assembly for driving the corresponding longitudinal sliding seat to transversely move.

Preferably, two second driving assemblies are provided, and each second driving assembly drives one longitudinal sliding seat to move correspondingly.

Preferably, the first driving assembly is a motor positive and negative lead screw direct-drive mechanism, a bidirectional electric telescopic rod or a bidirectional air cylinder.

Preferably, the drilling device comprises a mounting seat, the mounting seat is mounted on the supporting base, a vertical sliding rail pair is mounted on the upper end face of the mounting seat, a drilling device body is mounted on a movable portion in the vertical sliding rail pair, and the distance from the central axis of an output shaft of the drilling device body to two rollers on the same longitudinal sliding seat is consistent.

Preferably, the wheel body of the roller is provided with rubber coating.

Has the advantages that:

1. can be through setting up the height position of laser generator on two corresponding detection scales, make to have certain difference in height between two laser generators, this difference in height is not more than the twice of material lateral wall processing allowance, then through the starter motor, the motor drives the gyro wheel and rotates, and then drive the material and roll, and in the process that the material rolls, through observing the laser of two corresponding laser generator launches, when the laser of the laser generator transmission of upper side is located the material top, when the laser of the laser generator transmission of lower side is shot on the material lateral wall, accomplish school's work, this device has solved manual detection, lead to the technical problem that detection error is great and processing intensity of labour is great;

2. the arrangement of the transverse slide rail and the longitudinal slide seat realizes the centering work of materials with different lengths;

3. due to the arrangement of the longitudinal slide rail and the slide seat, the centering work of materials with different diameters can be realized.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged view of section I of FIG. 1;

fig. 3 is a partial enlarged view of II in fig. 1.

The reference numerals are explained below:

1. a support base; 2. a transverse slide rail; 3. a longitudinal slide; 4. a longitudinal slide rail; 5. a sliding seat; 6. a roller; 7. a motor; 8. a first drive assembly; 9. detecting a scale; 10. a slider; 11. a laser generator; 12. a second drive assembly; 13. a drilling device; 131. a mounting seat; 132. a vertical slide rail pair; 133. a drilling device body; 14. and locking the screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the first embodiment, as shown in fig. 1, 2, and 3, a drilling device for a thin-walled cylinder weld assembly with laser automatic centering detection includes a support base 1, a transverse slide rail 2 arranged along the length direction of the support base 1 is installed on the upper end surface of the support base 1, two longitudinal slide bases 3 capable of moving transversely are slidably matched with the transverse slide rail 2, and longitudinal slide rails 4 are installed on the upper end surfaces of the two longitudinal slide bases 3; each longitudinal slide rail 4 is matched with two slide seats 5 capable of longitudinally moving in a sliding mode, the tops of the opposite sides of the two slide seats 5 are rotatably connected with rollers 6, and the wheel shaft of each roller 6 is connected to the output end of a motor 7 arranged on the corresponding slide seat 5; the two end faces of each longitudinal sliding seat 3 are respectively provided with a vertical and opposite detection scale 9, the zero scale heights of all the detection scales 9 are consistent, so that the height difference between the laser generators 11 can be calculated more conveniently, the body of each detection scale 9 is in sliding fit with a sliding block 10 capable of moving up and down, the sliding block 10 is matched with a locking screw 14 for fixing the position of the sliding block 10, and the laser generators 11 are arranged on the opposite faces of the two sliding blocks 10 on the same longitudinal sliding seat 3; one end of the supporting base 1 is provided with a drilling device 13 for processing a material center hole;

thus, the height position of the laser generator 11 on the two corresponding detection scales 9 can be set, so that a certain height difference exists between the two laser generators 11, the height difference is not more than two times of the processing allowance of the material side wall, the laser emitted by the laser generator 11 above is positioned above the material, the laser emitted by the laser generator 11 below is emitted on the material side wall, then the motor 7 is started, the motor 7 drives the roller 6 to rotate, further the material is driven to roll, in the process of rolling the material, the laser emitted by the two corresponding laser generators 11 is observed, when the laser emitted by the laser generator 11 above is always positioned above the material, the laser emitted by the laser generator 11 below is always emitted on the material side wall, the centering work is completed, the device solves the technical problems of manual detection, larger detection error and larger processing labor intensity, the arrangement of the transverse slide rail 2 and the longitudinal slide seat 3 realizes the centering work of materials with different lengths; the arrangement of the longitudinal slide rail 4 and the slide seat 5 realizes the centering work of materials with different diameters.

In the second embodiment, on the basis of the first embodiment, as shown in fig. 2, the first driving assembly 8 for driving the sliding seat 5 to move longitudinally is further installed on the upper end surface of the longitudinal sliding seat 3, so that the sliding seat 5 can be driven by the first driving assembly 8 to move longitudinally, and the roller 6 is further driven to move longitudinally, thereby realizing the function of automatically adjusting the longitudinal position of the roller 6;

the first driving assembly 8 is a motor positive and negative lead screw direct-drive mechanism, a bidirectional electric telescopic rod or a bidirectional cylinder, and the arrangement can ensure that the two corresponding sliding seats 5 synchronously and reversely move.

In the third embodiment, on the basis of the first embodiment, as shown in fig. 1, a second driving assembly 12 for driving the corresponding longitudinal sliding base 3 to move transversely is further installed on the upper end surface of the supporting base 1, and the second driving assembly 12 is a motor lead screw direct-drive mechanism, a unidirectional electric telescopic rod or a unidirectional cylinder, so that the second driving assembly 12 can drive the longitudinal sliding base 3 to move transversely, and the function of automatically adjusting the transverse position of the longitudinal sliding base 3 is realized.

In a fourth embodiment, on the basis of the third embodiment, as shown in fig. 1, two second driving assemblies 12 are provided, and each second driving assembly 12 correspondingly drives one longitudinal slide 3 to move, so that the two longitudinal slides 3 can move independently.

Fifth embodiment, on the basis of the first embodiment, as shown in fig. 1, the drilling device 13 includes an installation seat 131, the installation seat 131 is installed on the supporting base 1, a vertical sliding rail pair 132 is installed on the upper end surface of the installation seat 131, a drilling device body 133 is installed on a movable portion in the vertical sliding rail pair 132, and the distance from the central axis of the output shaft of the drilling device body 133 to the two rollers 6 on the same longitudinal sliding base 3 is consistent, so that the drilling device body 133 can be adjusted in height, materials with different diameters can be drilled, and the position of the drilled hole can be located on the central axis of the materials.

Sixth embodiment, on the basis of the first embodiment, as shown in fig. 2, the wheel body of the roller 6 is provided with the rubber coating, so that the friction between the roller 6 and the material can be effectively increased, and the material can roll smoothly.

In the structure, when in use, firstly, the positions of the two longitudinal sliding seats 3 are adjusted according to materials, then the distance between the two corresponding idler wheels 6 is adjusted according to the diameters of the materials, the materials are placed, two ends of the materials are supported on the idler wheels 6, then the heights of the two corresponding laser generators 11 are adjusted according to the diameters of the materials and the distance between the two corresponding idler wheels 6, the height difference of the two corresponding laser generators 11 is not more than twice of the machining allowance of the side wall of the materials, the laser emitted by the upper laser generator 11 is positioned above the materials, the laser emitted by the lower laser generator 11 is irradiated on the side wall of the materials, then, the motors 7 drive the idler wheels 6 to rotate by starting the motors 7, the materials are driven to roll, and in the process of rolling the materials, the laser emitted by the two corresponding laser generators 11 is observed, when the laser emitted by the laser generator 11 above is always positioned above the material and the laser emitted by the laser generator 11 below is always emitted on the side wall of the material, the centering work is completed, and then the center hole of the material is processed through the drilling device 13.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a thin wall cylinder welding spare drilling equipment with detection in automatic school of laser which characterized in that: the device comprises a supporting base (1), wherein a transverse sliding rail (2) arranged along the length direction of the supporting base (1) is arranged on the upper end surface of the supporting base (1), two longitudinal sliding seats (3) capable of moving transversely are in sliding fit with the transverse sliding rail (2), and longitudinal sliding rails (4) are arranged on the upper end surfaces of the two longitudinal sliding seats (3); each longitudinal sliding rail (4) is in sliding fit with two sliding seats (5) capable of moving longitudinally, the tops of the opposite sides of the two sliding seats (5) are rotatably connected with rollers (6), and the wheel shaft of each roller (6) is connected with the output end of a motor (7) arranged on the corresponding sliding seat (5); the two end faces of each longitudinal sliding seat (3) are respectively provided with a vertical and opposite detection scale (9), the body of each detection scale (9) is in sliding fit with a sliding block (10) capable of moving up and down, the sliding blocks (10) are matched with locking screws (14) for fixing the positions of the sliding blocks (10), and the opposite faces of the two sliding blocks (10) are respectively provided with a laser generator (11); one end of the supporting base (1) is provided with a drilling device (13) for processing a material center hole.

2. The drilling device for the thin-wall cylindrical weldment with the laser automatic centering detection function as claimed in claim 1, wherein the drilling device comprises: the upper end surface of the longitudinal sliding seat (3) is also provided with a first driving component (8) for driving the sliding seat (5) to move longitudinally.

3. The drilling device for the thin-wall cylindrical weldment with the laser automatic centering detection function as claimed in claim 1, wherein the drilling device comprises: and the upper end surface of the supporting base (1) is also provided with a second driving component (12) for driving the corresponding longitudinal sliding seat (3) to transversely move.

4. The drilling device for the thin-wall cylindrical weldment with the laser automatic centering detection function as claimed in claim 3, wherein the drilling device comprises: two second driving assemblies (12) are provided, and each second driving assembly (12) correspondingly drives one longitudinal sliding seat (3) to move.

5. The drilling device for the thin-wall cylindrical weldment with the laser automatic centering detection function as claimed in claim 2, wherein the drilling device comprises: the first driving assembly (8) is a motor positive and negative lead screw direct-drive mechanism, a bidirectional electric telescopic rod or a bidirectional air cylinder.

6. The drilling device for the thin-wall cylindrical weldment with the laser automatic centering detection function as claimed in claim 1, wherein the drilling device comprises: drilling equipment (13) are including mount pad (131), and mount pad (131) are installed on supporting base (1), and vertical slide rail pair (132) is installed to mount pad (131) up end, installs drilling equipment body (133) on the movable part in vertical slide rail pair (132), and the central axis of the output shaft of drilling equipment body (133) is unanimous to the distance that is located two gyro wheels (6) on same vertical slide (3).

7. The drilling device for the thin-wall cylindrical weldment with the laser automatic centering detection function as claimed in claim 1, wherein the drilling device comprises: the wheel body of the roller (6) is provided with rubber coating.

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