CN215998919U - Aluminum profile cutting precision calibration mechanism - Google Patents

Abstract

The utility model discloses an aluminum profile cutting precision calibrating mechanism which comprises an operating platform, wherein a connecting piece is arranged on the operating platform in a sliding manner, a hydraulic telescopic rod used for driving the connecting piece to slide is fixed on the operating platform, a cutting piece is arranged on the connecting piece in a sliding manner, a first driving piece used for driving the cutting piece to slide is fixed on the connecting piece, a calibrating piece is arranged on the cutting piece, a limiting piece is clamped on the operating platform, a clamping piece is arranged on the operating platform in a sliding manner, a second driving piece used for driving the clamping piece to slide is fixed on the operating platform, and the second driving piece is rotatably connected with the clamping piece. According to the utility model, the calibration part is adjusted to the position of the aluminum material to be cut through the limiting part by the calibration mechanism, the infrared inductor is opened, the second driving part drives the clamping part to clamp the aluminum material tightly, the first driving part drives the cutting part to slide, and when the output end of the infrared inductor is superposed with the receiving end, the cutting knife is driven by the hydraulic telescopic rod to carry out accurate cutting.

Description

Aluminum profile cutting precision calibration mechanism

Technical Field

The utility model relates to a calibrating mechanism, in particular to an aluminum profile cutting precision calibrating mechanism.

Background

Generally, in some aluminum material processing production, due to higher and higher quality requirements on products, in order to reduce waste material cost, a calibration system has been used for processing, and aluminum materials can be precisely cut through calibration, so as to cut out high-quality materials.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an aluminum profile cutting precision calibrating mechanism, which is characterized in that a calibrating piece is adjusted to a position of an aluminum profile to be cut through a limiting piece, an infrared inductor is opened, a clamping piece is driven to clamp and fix the aluminum profile through a second driving piece, a cutting piece is driven to slide through a first driving piece, when the output end of the infrared inductor is superposed with a receiving end, the height of the cutting piece is adjusted through a hydraulic telescopic rod to accurately cut the aluminum profile, the structure is simple, the automation degree is high, the cutting quality is improved, and the cost is reduced.

The purpose of the utility model can be realized by the following technical scheme:

the utility model provides an aluminium alloy cutting accuracy aligning gear, aligning gear include the operation panel, the slip is equipped with the connecting piece on the operation panel, is fixed with on the operation panel to be used for driving the gliding hydraulic telescoping rod of connecting piece, and hydraulic telescoping rod and connecting piece fastening connection slide on the connecting piece and are equipped with the cutting piece.

Be fixed with the gliding first driving piece of drive cutting piece on the connecting piece, the below of cutting piece is equipped with the calibration piece that is used for accurate cutting, and the calibration piece slides on being located the operation panel, and the block has the gliding locating part on being located the calibration piece on the operation panel.

The clamping piece slides on the operating platform, a second driving piece for driving the clamping piece to slide is fixed on the operating platform, and the second driving piece is rotatably connected with the clamping piece.

Further, the operation panel includes the operation panel body, and the both sides of operation panel body are equipped with the first spout of symmetric distribution, and the bottom of operation panel body is equipped with the second spout, is equipped with the third spout with second spout vertical distribution on the operation panel body, is equipped with the spacing groove of array distribution on the third spout perpendicularly.

Furthermore, the connecting piece comprises sliding plates which are symmetrically distributed, a first connecting rod is fixed between the sliding plates, and the connecting piece is located on the operating table body through the matching of the sliding plates and the first sliding grooves and slides.

Furthermore, the cutting piece includes first sliding block, is fixed with the knife rest that is used for the block cutting knife on the first sliding block, and the both ends of knife rest all slide and are equipped with L type baffle, and the cutting piece slides on being located the connecting piece through first sliding block and the cooperation of head rod.

Furthermore, the first driving piece comprises a motor fixed on the sliding plate, a screw rod which is positioned on the sliding plate and rotates is fixed on an output shaft of the motor, and the screw rod is in threaded connection with the first sliding block.

Furthermore, the calibration piece includes the calibration board that the array distributes, and the calibration board slides on being located the operation panel body with the cooperation of third spout, is equipped with the sword groove that is used for the block cutting knife on the calibration board, is equipped with infrared inductor on the sword groove.

Further, the locating part includes the slider, be fixed with on the slider with spacing groove complex limiting plate, the upper end of slider is fixed with the spring of being connected with the calibration board, the locating part passes through the slider and slides on being located the calibration piece with the calibration board cooperation.

Furthermore, the clamping piece includes the symmetric distribution second sliding block, rotates on the second sliding block and is equipped with the connecting plate, is fixed with the clamp plate on the connecting plate, and the clamping piece passes through the second sliding block and slides on the cooperation of second spout is located the operation panel.

Further, the second driving piece is including fixing the cylinder on the operation panel body, and the rotation is equipped with the second connecting rod of symmetric distribution on the output shaft of cylinder, and the second driving piece is located the clamping piece through the cooperation of second connecting rod and second sliding block and rotates.

The utility model has the beneficial effects that:

1. according to the aluminum product cutting device, the calibration part is adjusted to the position of the aluminum product to be cut through the limiting part, the infrared inductor is turned on, and the clamping part is driven by the second driving part to clamp and fix the aluminum product, so that the aluminum product cutting device is simple in structure and high in automation degree;

2. according to the calibrating mechanism, the cutting piece is driven to slide by the first driving piece, when the output end of the infrared inductor is superposed with the receiving end, the height of the cutting piece is adjusted by the hydraulic telescopic rod to accurately cut the aluminum material, the structure is simple, the automation degree is high, the cutting quality is improved, and the cost is reduced.

Drawings

The utility model will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the alignment mechanism of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of the alignment mechanism of the present invention;

fig. 4 is an enlarged schematic view of the structure at B in fig. 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides an aluminium alloy cutting accuracy aligning gear, aligning gear includes operation panel 1, as shown in fig. 1, it is equipped with connecting piece 2 to slide on the operation panel 1, be fixed with on the operation panel 1 and be used for driving the gliding hydraulic telescoping rod 3 of connecting piece 2, hydraulic telescoping rod 3 and the fastening connection of connecting piece 2, it is equipped with cutting piece 4 to slide on the connecting piece 2, be fixed with on the connecting piece 2 and drive the gliding first driving piece 5 of cutting piece 4, the below of cutting piece 4 is equipped with the calibration piece 6 that is used for accurate cutting, calibration piece 6 is located and slides on the operation panel 1, the block has the gliding locating part 7 that is located calibration piece 6 on the operation panel 1, it has clamping piece 8 to slide on the operation panel 1, be fixed with the gliding second driving piece 9 of drive clamping piece 8 on the operation panel 1, second driving piece 9 rotates with clamping piece 8 and is connected.

The operating table 1 includes an operating table body 11, as shown in fig. 1 and fig. 2, first sliding grooves 12 are symmetrically disposed on two sides of the operating table body 11, second sliding grooves 13 are disposed at a bottom end of the operating table body 11, third sliding grooves 14 are disposed on the operating table body 11 and vertically disposed with the second sliding grooves 13, and limiting grooves 15 are vertically disposed on the third sliding grooves 14 and distributed in an array manner.

The connecting element 2 comprises sliding plates 21 which are symmetrically distributed, as shown in fig. 3, a first connecting rod 22 is fixed between the sliding plates 21, and the connecting element 2 is located on the console body 11 to slide by the sliding plates 21 and the first sliding chute 12.

The cutting element 4 comprises a first sliding block 41, as shown in fig. 4, a tool holder 42 for engaging with a cutting blade is fixed on the first sliding block 41, L-shaped baffles 43 are slidably disposed at both ends of the tool holder 42, and the cutting element 4 is located on the connecting element 2 through the first sliding block 41 and the first connecting rod 22.

The first driving member 5 includes a motor 51 fixed on the sliding plate 21, a lead screw 52 fixed on an output shaft of the motor 51 and rotating on the sliding plate 21, the lead screw 52 is in threaded connection with the first sliding block 41, and the first driving member 5 drives the first sliding block 41 to slide on the first connecting rod 22 through the motor 51.

The calibration piece 6 comprises a calibration plate 61 distributed in an array, the calibration plate 61 is matched with the third sliding groove 14 to be located on the operating table body 11 to slide, a cutter groove 62 used for clamping a cutting knife is formed in the calibration plate 61, an infrared inductor 63 is arranged on the cutter groove 62, the output end of the infrared inductor 63 is located in the cutter groove 62, and the receiving end of the infrared inductor is located on the cutter frame 42.

The limiting piece 7 comprises a sliding block 71, a limiting piece 72 matched with the limiting groove 15 is fixed on the sliding block 71, a spring 73 connected with the calibration plate 61 is fixed at the upper end of the sliding block 71, and the limiting piece 7 is matched with the calibration plate 61 through the sliding block 71 and is located on the calibration piece 6 to slide.

The clamping element 8 comprises second sliding blocks 81 which are symmetrically distributed, as shown in fig. 1, a connecting plate 82 is rotatably arranged on the second sliding blocks 81, a clamping plate 83 is fixed on the connecting plate 82, and the clamping element 8 is located on the operating table 1 to slide through the second sliding blocks 81 and the second sliding grooves 13 in a matching manner.

The second driving member 9 includes an air cylinder 91 fixed on the console body 11, as shown in fig. 4, a second connecting rod 92 symmetrically distributed is rotatably disposed on an output shaft of the air cylinder 91, and the second driving member 9 is located on the clamping member 8 to rotate through the second connecting rod 92 and the second sliding block 81.

During the use, adjust the position that the aluminum product needs the cutting through locating part 7 with calibration piece 6, open infrared inductor 63, it is fixed with the aluminum product clamp is tight through second driving piece 9 drive clamping piece 8, slide through 5 drive cutting pieces 4 of first driving piece, when infrared inductor 63's output and receiving terminal coincide, adjust the height of cutting piece 4 through hydraulic telescoping rod 3 and carry out accurate cutting to the aluminum product, moreover, the steam generator is simple in structure, and the automation degree is high, improve the cutting quality, and the cost is reduced.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed.

Claims (9)

1. A calibration mechanism for cutting precision of an aluminum profile comprises an operation table (1) and is characterized in that a connecting piece (2) is arranged on the operation table (1) in a sliding mode, a hydraulic telescopic rod (3) used for driving the connecting piece (2) to slide is fixed on the operation table (1), the hydraulic telescopic rod (3) is fixedly connected with the connecting piece (2), and a cutting piece (4) is arranged on the connecting piece (2) in a sliding mode;

a first driving piece (5) for driving the cutting piece (4) to slide is fixed on the connecting piece (2), a calibrating piece (6) for accurate cutting is arranged below the cutting piece (4), the calibrating piece (6) is positioned on the operating platform (1) to slide, a limiting piece (7) positioned on the calibrating piece (6) to slide is clamped on the operating platform (1),

the clamping piece (8) slides on the operating platform (1), a second driving piece (9) for driving the clamping piece (8) to slide is fixed on the operating platform (1), and the second driving piece (9) is rotatably connected with the clamping piece (8).

2. The aluminum profile cutting accuracy calibrating mechanism according to claim 1, wherein the operating table (1) comprises an operating table body (11), first sliding grooves (12) are symmetrically distributed on two sides of the operating table body (11), a second sliding groove (13) is arranged at the bottom end of the operating table body (11), third sliding grooves (14) which are vertically distributed with the second sliding grooves (13) are arranged on the operating table body (11), and limiting grooves (15) which are distributed in an array manner are vertically arranged on the third sliding grooves (14).

3. The aluminum profile cutting accuracy calibrating mechanism according to claim 2, characterized in that the connecting pieces (2) comprise sliding plates (21) which are symmetrically distributed, a first connecting rod (22) is fixed between the sliding plates (21), and the connecting pieces (2) are matched with the first sliding chute (12) through the sliding plates (21) and are positioned on the operating table body (11) to slide.

4. The aluminum profile cutting accuracy calibrating mechanism according to claim 3, wherein the cutting member (4) comprises a first sliding block (41), a tool rest (42) for clamping the cutting tool is fixed on the first sliding block (41), L-shaped baffles (43) are arranged at two ends of the tool rest (42) in a sliding manner, and the cutting member (4) is matched with the first connecting rod (22) through the first sliding block (41) and is located on the connecting member (2) to slide.

5. The aluminum profile cutting accuracy calibration mechanism according to claim 4, characterized in that the first driving member (5) comprises a motor (51) fixed on the sliding plate (21), a screw rod (52) rotating on the sliding plate (21) is fixed on an output shaft of the motor (51), and the screw rod (52) is in threaded connection with the first sliding block (41).

6. The aluminum profile cutting accuracy calibrating mechanism according to claim 2, characterized in that the calibrating piece (6) comprises calibrating plates (61) distributed in an array, the calibrating plates (61) and the third sliding grooves (14) are matched and located on the operating platform body (11) to slide, a cutter groove (62) for clamping the cutting knife is arranged on the calibrating plates (61), and an infrared sensor (63) is arranged on the cutter groove (62).

7. The aluminum profile cutting accuracy calibrating mechanism according to claim 6, characterized in that the limiting member (7) comprises a sliding block (71), a limiting plate (72) matched with the limiting groove (15) is fixed on the sliding block (71), a spring (73) connected with the calibrating plate (61) is fixed at the upper end of the sliding block (71), and the limiting member (7) is matched with the calibrating plate (61) through the sliding block (71) and is located on the calibrating member (6) to slide.

8. The aluminum profile cutting accuracy calibration mechanism is characterized in that the clamping element (8) comprises second sliding blocks (81) which are symmetrically distributed, a connecting plate (82) is rotatably arranged on the second sliding blocks (81), a clamping plate (83) is fixed on the connecting plate (82), and the clamping element (8) is matched with the second sliding groove (13) through the second sliding blocks (81) and is positioned on the operating platform (1) to slide.

9. The aluminum profile cutting accuracy calibrating mechanism according to claim 8, wherein the second driving member (9) comprises an air cylinder (91) fixed on the operating platform body (11), symmetrically distributed second connecting rods (92) are rotatably arranged on an output shaft of the air cylinder (91), and the second driving member (9) is matched with the second sliding block (81) through the second connecting rods (92) and is positioned on the clamping member (8) to rotate.

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