LU502268B1 - High-efficiency cutting apparatus for stainless steel plate processing - Google Patents

Abstract

The present invention relates to the technical field of stainless steel plate processing, in particular to a high-efficiency cutting apparatus for stainless steel plate processing, wherein on bottom portions of the left base and of the right base are fixed a plurality of support legs, a sliding plate is slidably connected on the left base and the right base, a threaded rod mechanism is connected to a lower end of the sliding plate, a clamping mechanism and a cutting mechanism are connected to an upper end surface of the sliding plate, a stainless steel plate is provided directly below the clamping mechanism, the stainless steel plate is placed on a platform, the platform is arranged above the sliding plate, two support plates are fixedly connected to a lower end of the platform, and the support plates are respectively fixed on the left base and the right base.

Description

DESCRIPTION LU502268 HIGH-EFFICIENCY CUTTING APPARATUS FOR STAINLESS STEEL

PLATE PROCESSING Technical Field The present invention relates to the technical field of stainless steel plate processing, in particular to a high-efficiency cutting apparatus for stainless steel plate processing. Background Technology At present, the cutting apparatuses used for stainless steel plate processing are low in working efficiency and cannot complete corresponding production cutting tasks well; furthermore, the existing cutting apparatuses are poor in flexibility and low in degree of automation. Summary of the Invention The present invention aims to provide a high-efficiency cutting apparatus for stainless steel plate processing, so as to solve problems that the existing cutting apparatuses used for stainless steel plate processing are low in working efficiency and cannot complete corresponding production and cutting tasks well due to poor flexibility and a low degree of automation. In order to achieve above purposes, the present invention offers following technical solutions: A high-efficiency cutting apparatus for stainless steel plate processing, comprises a left base and a right base, wherein on bottom portions of the left base and of the right base are fixed a plurality of support legs, a sliding plate is slidably connected on the left base and the right base, a threaded rod mechanism is connected to a lower end of the sliding plate, a clamping mechanism and a cutting mechanism are connected to an upper end surface of the sliding plate, a stainless steel plate is provided directly below the clamping mechanism, the stainless steel plate is placed on a platform, the platform is arranged above the sliding plate, two support plates are fixedly connected to a lower end of the platform, and the support plates are arranged respectively on the left base and the right base. As a further technical solution of the present invention, the threaded rod mechanism comprises a first rotary seat and a second rotary seat fixed on a right side of the left base, the first rotary seat is fixed with a first motor, the first motor is connected with a threaded rod, a threaded section on the threaded rod is sleeved with a movable base, and the movable base is fixed at a left side of a bottom end of the sliding plate. As a further technical solution of the present invention, the clamping mechanism comprises two first brackets symmetrically fixed on the upper end surface of the sliding plate, a second bracket is connected between the two first brackets, a lower end of the second bracket is symmetrically connected with two third brackets, lower ends of the third brackets are fixedly connected with a fourth bracket, bottom ends of LU502268 both ends of the fourth bracket are fixedly connected to two symmetrically arranged L-shaped brackets, and between the second bracket and the fourth bracket is fixedly connected a first telescopic rod.

As a further technical solution of the present invention, a movable column below the first telescopic is connected with a double-sided rack, on both sides of the double-sided rack are symmetrically meshed two first sector gears, the first sector gears are hinged at right-angled corners of the L-shaped brackets , the first sector gears are fixedly connected with fifth brackets, lower ends of the fifth brackets are hinged to middle sections of horizontally arranged sixth brackets, right ends of the sixth brackets are rotationally connected to seventh brackets, upper ends of the seventh brackets are hinged to right ends of the L-shaped brackets, and left ends of the sixth brackets are fixedly connected to K-shaped card boards.

As a further technical solution of the present invention, the cutting mechanism comprises an oblique fixing plate, one side of the oblique fixing plate is fixed on the first bracket, on a downward side of the oblique fixing plate is provided a triangular inverted groove, on an upward side of the oblique fixing plate is opened a U-shaped groove that communicates with the triangular inverted groove, inside the triangular inverted groove is slidably connected a triangular sliding plate, the triangular sliding plate is connected with a rack, the rack meshes with a second sector gear, the second sector gear is connected with a rotating shaft, a shaft sleeve is sleeved on the rotating shaft, between the rotating shaft and the shaft sleeve are arranged bearings, and between the shaft sleeve and a front surface of the oblique fixing plate is fixedly connected a foldable plate for connection.

As a further technical solution of the present invention, at one end of the rotating shaft is fixedly connected a rocker, a lower end of the rocker is hinged to a second telescopic rod, a lower end of the second telescopic rod is hinged to a hinge seat, the hinge seat is fixed on an inclined surface of a triangular wedge-shaped block, and the triangular wedge-shaped block is fixed on the upper end surface of the sliding plate.

As a further technical solution of the present invention, an upward side of an upper end of the triangular sliding plate is fixed with an eighth bracket, a lower end of the eighth bracket is connected to a ninth bracket, inside a lower end of the ninth bracket is provided a rotating groove, inside the rotating groove is rotationally connected a connecting shaft, the connecting shaft is connected with a first gear, the first gear is meshed with a second gear, and the second gear is connected with a motor shaft, the motor shaft is connected with a second motor, the second motor is parallel to the ninth bracket and is fixed on a tenth bracket, the tenth bracket is fixed on the ninth bracket, and a U-shaped bracket is fixedly connected to a right side of the first gear, inside the U-shaped bracket is rotationally connected a cutting wheel, a third motor is coaxially connected to the cutting wheel, and the third motor is fixed on one side of the

U-shaped bracket . LU502268 Embodiments of the present invention disclose a high-efficiency cutting apparatus for stainless steel plate processing which is so high in cutting efficiency that it can well complete corresponding production and cutting tasks, and is so flexible that cutting directions and depths can be adjusted.

And the present invention is of a high degree of automation.

Brief Description of the Drawings Figure 1 is a structural diagram of a high-efficiency cutting apparatus for stainless steel plate processing offered in an embodiment of the present invention.

Figure 2 is a top view of figure 1. Figure 3 is an enlarged view of a clamping mechanism.

Figure 4 is a partial connection structure of a cutting mechanism.

Figure 5 is an enlarged view of an “A” part of figure 4. The markups in the drawings are indicated as follows: 1-left base; 2-right base; 3-support leg; 4-sliding plate; 5-threaded rod mechanism; 51-first rotary seat; 52-second rotary seat; 53-first motor; 54-threaded rod; 55-movable base; 6-clamping mechanism; 61-first bracket; 62-second bracket; 63-two third bracket: 64-fourth bracket; 65-L-shaped bracket; 66-first telescopic rod; 67-double-sided rack; 68-first sector gear; 69-fifth bracket; 610-sixth bracket;

611-seventh bracket; LU502268 612-K-shaped card board; 7-cutting mechanism; 71-oblique fixing plate; 72-triangular inverted groove; 73-U-shaped groove; 74-triangular sliding plate; 75-rack; 76-second sector gear; 77-rotating shaft; 78-shaft sleeve; 79-bearing; 710-foldable plate; 711-rocker; 712-second telescopic rod; 713-hinge seat; 714-triangular wedge-shaped block; 715-eighth bracket; 716-ninth bracket; 717-rotating groove, 718-connecting shaft; 719-first gear; 720-second gear; 721-motor shaft; 722-second motor; 723-tenth bracket; 724-U-shaped bracket; 725-cutting wheel, 726-third motor; 8-stainless steel plate; 9-platform; and 10- support plate.

Specific Embodiments The following is a further detailed description of technical solutions of the present invention in combination with specific embodiments.

Embodiments of the present invention are described in detail below.

Examples of the embodiments are shown in attached drawings where identical or similar markups throughout indicate identical or similar elements or elements having identical or similar functions.

The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present invention, but should not be construed as a limitation on the present invention.

Embodiment 1 LU502268 An embodiment of the present invention is as shown in figures 1~5, disclosed is a high-efficiency cutting apparatus for stainless steel plate processing, comprising a left base 1 and a right base 2, wherein on bottom portions of the left base 1 and of the right base 2 are fixed a plurality of support legs 3, a sliding plate 4 is slidably connected on the left base 1 and the right base 2, a threaded rod mechanism 5 is connected to a lower end of the sliding plate 4, a clamping mechanism 6 and a cutting mechanism 7 are connected to an upper end surface of the sliding plate 4, a stainless steel plate 8 is provided directly below the clamping mechanism 6, the stainless steel plate 8 is placed on a platform 9, the platform 9 is arranged above the sliding plate 4, two support plates 10 are fixedly connected to a lower end of the platform 9, and the support plates 10 are respectively fixed on the left base 1 and the right base 2. In the present embodiment of the present invention, the working principle comprises following steps: step 1- the threaded rod mechanism 5 controls the sliding plate 4 to move to a designated position, then the clamping mechanism 6 on the sliding plate 4 changes from a free state to a clamping state, the clamping mechanism 6 clamps the stainless steel plate 8, and the cutting mechanism 7 does not work at this time; step 2- the threaded rod mechanism 5 controls the sliding plate 4 to return to its original position, the clamping mechanism 6, the cutting mechanism 7 and the clamped stainless steel plate 8 move with the sliding plate 4, thereby making the stainless steel plate 8 move forward for a certain distance; and step 3-on a basis of step 2, the cutting mechanism 7 is activated to generate a cutting motion, and the stainless steel plate 8 is cut, after the cutting is completed, the clamping mechanism 6 releases the stainless steel plate 8, the stainless steel plate 8 is placed on the platform 9, the clamping mechanism 6 goes back to the free state, and automatic cutting operations are achieved via cyclic operations from step 1 to step 3. Embodiment 2 An embodiment of the present invention is as shown in figures 1-5, the threaded rod mechanism 5 comprises a first rotary seat 51 and a second rotary seat 52 fixed on a right side of the left base 1, the first rotary seat 51 is fixed with a first motor 53, the first motor 53 is connected with a threaded rod 54, a threaded section on the threaded rod 54 is sleeved with a movable base 55, and the movable base 55 is fixed at a left side of a bottom end of the sliding plate 4. In the present embodiment of the present invention, the sliding principle that the screw mechanism 5 drives the sliding plate 4 is as follows: the first motor 53 rotates forward and reverse to control forward and reverse rotation of the threaded rod 54, so that the movable base 55 moves forward or backward with the forward and reverse rotation of the threaded rod 54, thereby making the sliding plate 4 slide on the left base 1 and the right base 2. Embodiment 3

Another embodiment of the present invention is as shown in figures 1~5, the LU502268 clamping mechanism 6 comprises two first brackets 61 symmetrically fixed on the upper end surface of the sliding plate 4, a second bracket 62 is connected between the two first brackets 61, a lower end of the second bracket 62 is symmetrically connected with two third brackets 63, lower ends of the third brackets 63 are fixedly connected with a fourth bracket 64, bottom ends of both ends of the fourth bracket 64 are fixedly connected to two symmetrically arranged L-shaped brackets 65, and between the second bracket 62 and the fourth bracket 64 is fixedly connected a first telescopic rod

66. In the present embodiment of the present invention, the clamping mechanism 6 clamps in accordance with the following principle: the first telescopic rod 66 retracts, and the movable column moves up to drive the double-sided rack 67 to move up, and then the meshed first sector gears 68 are lifted up, thereby making the fifth bracket 69 move closer to the center. Embodiment 4 Another embodiment of the present invention is as shown in figures 1-5, a movable column below the first telescopic rod 66 is connected with a double-sided rack 67, on both sides of the double-sided rack 67 are symmetrically meshed two first sector gears 68, the first sector gears 68 are hinged at right-angled corners of the L-shaped brackets 65, the first sector gears 68 are fixedly connected with fifth brackets 69, lower ends of the fifth brackets 69 are hinged to middle sections of horizontally arranged sixth brackets 610, right ends of the sixth brackets 610 are rotationally connected to seventh brackets 611, upper ends of the seventh brackets 611 are hinged to right ends of the L-shaped brackets 65, and left ends of the sixth brackets 610 are fixedly connected to K-shaped card boards 612 . In the embodiment of the present invention, the fifth bracket 69, lower half portions of the L-shaped brackets 65, the seventh bracket 611 and the sixth bracket 610 form a parallelogram mechanism, when a lower end of the fifth bracket 69 moves toward the left, the sixth bracket 610 moves horizontally to the left, and then the K-shaped clamping plate 612 moves to the left, and then the K- shaped clamping plates 612 on both sides move toward the center, forming a clamping state. Embodiment 5 A fifth embodiments of the present invention is as shown in figures 1-5, the cutting mechanism 7 comprises an oblique fixing plate 71, one side of the oblique fixing plate 71 is fixed on the first bracket 61, on a downward side of the oblique fixing plate 71 is provided a triangular inverted groove 72, on an upward side of the oblique fixing plate 71 is opened a U-shaped groove 73 that communicates with the triangular inverted groove 72, inside the triangular inverted groove 72 is slidably connected a triangular sliding plate 74 , the triangular sliding plate 74 is connected with a rack 75, the rack 75 meshes with a second sector gear 76, the second sector gear 76 is connected with a rotating shaft 77, a shaft sleeve 78 is sleeved on the rotating shaft 77, LU502268 between the rotating shaft 77 and the shaft sleeve 78 are arranged bearings 79, and between the shaft sleeve 78 and a front surface of the oblique fixing plate 71 is fixedly connected a foldable plate 710 for connection.

In the present embodiment of the present invention, the cutting mechanism has following control principle: the second telescopic rod 712 extends to rotate the rocker rod 711 clockwise, then the rotating shaft 77 rotates clockwise with the second sector gear 76, after then the rack 75 and the triangular sliding plate 74 inside the triangular inverted groove 72 slide to a lower right side, the eighth bracket 715 moves accordingly, and the ninth bracket 716, the connecting shaft 718, the first gear 719, the second gear 720, the motor shaft 721, the second motor 722, the tenth bracket 723, the U-shaped bracket 724, the cutting wheel 725 and the third motor 726 connected thereto all move in a tilted direction, so that the cutting wheel 725 starts to cut when touching the stainless steel plate 8, and a cutting depth is indirectly controlled by a distance that the second telescopic rod 712 extends.

Embodiment 6 A sixth embodiment of the present invention is as shown in figures 1~5, at one end of the rotating shaft 77 is fixedly connected a rocker 711, a lower end of the rocker 711 is hinged to a second telescopic rod 712, a lower end of the second telescopic rod 712 is hinged to a hinge seat 713, the hinge seat 713 is fixed on an inclined surface of a triangular wedge-shaped block 714, and the triangular wedge-shaped block 714 is fixed on the upper end surface of the sliding plate 4. In the present embodiment of the present invention, the third motor 726 provides the cutting wheel 725 with power required for cutting, and the second motor 722 rotates to change a cutting orientation of the cutting wheel 725. Embodiment 7 A seventh embodiment of the present invention is as shown in figures 1-5, an upward side of an upper end of the triangular sliding plate 74 is fixed with an eighth bracket 715, a lower end of the eighth bracket 715 is connected to a ninth bracket 716, inside a lower end of the ninth bracket 716 is provided a rotating groove 717, inside the rotating groove 717 is rotationally connected a connecting shaft 718, the connecting shaft 718 is connected with a first gear 719, the first gear 719 is meshed with a second gear 720, and the second gear 720 is connected with a motor shaft 721, the motor shaft 721 is connected with a second motor 722, the second motor 722 is parallel to the ninth bracket 716 and is fixed on a tenth bracket 723, the tenth bracket 723 is fixed on the ninth bracket 716, and a U-shaped bracket 724 is fixedly connected to a right side of the first gear 719, inside the U-shaped bracket (724) is rotationally connected a cutting wheel 725, a third motor 726 is coaxially connected to the cutting wheel 725, and the third motor 726 is fixed on one side of the U-shaped bracket 724.

In the present embodiment of the present invention, the second motor 722 rotates to LU502268 drive the motor shaft 721, and then the second gear 720 rotates, the first gear 719 meshing thereto rotates accordingly, the connecting shaft 718 rotates in the rotation groove 717, the U-shaped bracket 724 rotates synchronously by a certain angle, and the cutting wheel 725 1s then rotated by a certain angle, so that the cutting direction of the cutting wheel 725 changes.

Embodiments of the present invention disclose a high-efficiency cutting apparatus for stainless steel plate processing which is so high in cutting efficiency that it can well complete corresponding production and cutting tasks, and is so flexible that cutting directions and depths can be adjusted.

And the present invention is of a high degree of automation.

The above are only preferred embodiments of the present invention.

It should be pointed out that for those skilled in the art, without departing from the concept of the present invention, several modifications and improvements can be made, which should also be regarded as falling within protection scope of the present invention, which will have no effect on implementation and practicability of the present invention.

Claims (7)

CLAIMS LU502268

1. A high-efficiency cutting apparatus for stainless steel plate processing, comprising a left base (1) and a right base (2), wherein on bottom portions of the left base (1) and of the right base (2) are fixed a plurality of support legs (3), a sliding plate (4) is slidably connected on the left base (1) and the right base (2), a threaded rod mechanism (5) is connected to a lower end of the sliding plate (4), a clamping mechanism (6) and a cutting mechanism (7) are connected to an upper end surface of the sliding plate (4), a stainless steel plate (8) 1s provided directly below the clamping mechanism (6), the stainless steel plate (8) is placed on a platform (9), the platform (9) is arranged above the sliding plate (4), two support plates (10) are fixedly connected to a lower end of the platform (9), and the support plates (10) are respectively fixed on the left base (1) and the right base (2).

2. The high-efficiency cutting apparatus for stainless steel plate processing according to claim 1, wherein the threaded rod mechanism (5) comprises a first rotary seat (51) and a second rotary seat (52) fixed on a right side of the left base (1), the first rotary seat (51) is fixed with a first motor (53), the first motor (53) is connected with a threaded rod (54), a threaded section on the threaded rod (54) is sleeved with a movable base (55), and the movable base (55) is fixed at a left side of a bottom end of the sliding plate (4).

3. The high-efficiency cutting apparatus for stainless steel plate processing according to claim 1, wherein the clamping mechanism (6) comprises two first brackets (61) symmetrically fixed on the upper end surface of the sliding plate (4), a second bracket (62) is connected between the two first brackets (61), a lower end of the second bracket (62) is symmetrically connected with two third brackets (63), lower ends of the third brackets (63) are fixedly connected with a fourth bracket (64), bottom ends of both ends of the fourth bracket (64) are fixedly connected to two symmetrically arranged L-shaped brackets (65), and between the second bracket (62) and the fourth bracket (64) is fixedly connected a first telescopic rod (66).

4. The high-efficiency cutting apparatus for stainless steel plate processing according to claim 3, wherein a movable column below the first telescopic rod (66) is connected with a double-sided rack (67), on both sides of the double-sided rack (67) are symmetrically meshed two first sector gears (68), the first sector gears (68) are hinged at right-angled corners of the L-shaped brackets (65), the first sector gears (68) are fixedly connected with fifth brackets (69), lower ends of the fifth brackets (69) are hinged to middle sections of horizontally arranged sixth brackets (610), right ends of the sixth brackets (610) are rotationally connected to seventh brackets (611), upper ends of the seventh brackets (611) are hinged to right ends of the L-shaped brackets (65), and left ends of the sixth brackets (610) are fixedly connected to K-shaped card boards (612).

5. The high-efficiency cutting apparatus for stainless steel plate processing according to claim 1, wherein the cutting mechanism (7) comprises an oblique fixing plate (71), one side of the oblique fixing plate (71) is fixed on the first bracket (61), on a downward side of the oblique fixing plate (71) is provided a triangular inverted groove (72), on an upward side of the oblique fixing plate (71) is opened a U-shaped groove (73) that communicates with the triangular inverted groove (72), inside the triangular inverted groove (72) is slidably connected a triangular sliding plate (74) , the triangular sliding plate (74) is connected with a rack (75), the rack (75) meshes with a second sector gear (76), the second sector gear (76) is connected with a rotating shaft (77), a shaft sleeve (78) is sleeved on the rotating shaft (77), between the rotating shaft (77) and the shaft sleeve (78) are arranged bearings (79), and between the shaft sleeve (78) and a front surface of the oblique fixing plate (71) is fixedly connected a foldable plate (710) for connection.

6. The high-efficiency cutting apparatus for stainless steel plate processing according to claim 5, wherein at one end of the rotating shaft (77) is fixedly connected a rocker (711), a lower end of the rocker (711) is hinged to a second telescopic rod (712), a lower end of the second telescopic rod (712) is hinged to a hinge seat (713), the hinge seat (713) is fixed on an inclined surface of a triangular wedge-shaped block (714), and the triangular wedge-shaped block (714) is fixed on the upper end surface of the sliding plate (4).

7. The high-efficiency cutting apparatus for stainless steel plate processing according to claim 5, wherein an upward side of an upper end of the triangular sliding plate (74) 1s fixed with an eighth bracket (715), a lower end of the eighth bracket (715) is connected to a ninth bracket (716), inside a lower end of the ninth bracket (716) is provided a rotating groove (717), inside the rotating groove (717) is rotationally connected a connecting shaft (718), the connecting shaft (718) is connected with a first gear (719), the first gear (719) is meshed with a second gear (720), and the second gear (720) is connected with a motor shaft (721), the motor shaft (721) is connected with a second motor (722), the second motor (722) is parallel to the ninth bracket (716) and is fixed on a tenth bracket (723), the tenth bracket (723) is fixed on the ninth bracket (716), and a U-shaped bracket (724) is fixedly connected to a right side of the first gear (719), inside the U-shaped bracket (724) is rotationally connected a cutting wheel (725), a third motor (726) is coaxially connected to the cutting wheel (725), and the third motor (726) is fixed on one side of the U-shaped bracket (724).