CN112247600A - A high efficiency cutting device for corrosion resistant plate processing - Google Patents

Abstract

The invention relates to the technical field of stainless steel plate processing, in particular to a high-efficiency cutting device for stainless steel plate processing, which comprises a left base and a right base, wherein a plurality of supporting legs are fixed at the bottom ends of the left base and the right base, sliding plates are connected on the left base and the right base in a sliding manner, the lower ends of the sliding plates are connected with screw mechanisms, the upper end faces of the sliding plates are connected with clamping mechanisms and cutting mechanisms, a stainless steel plate is arranged under the clamping mechanisms, the stainless steel plate is placed on a platform, the platform is positioned above the sliding plates, the lower ends of the platform are fixedly connected with two supporting plates, and the left supporting plates and the right supporting plates are respectively fixed on. The device's cutting efficiency is higher, the corresponding production cutting task of completion that can be fine to the flexibility is higher can control cutting position and degree of depth, and degree of automation is higher.

Description

A high efficiency cutting device for corrosion resistant plate processing

Technical Field

The invention relates to the technical field of stainless steel plate processing, in particular to an efficient cutting device for stainless steel plate processing.

Background

The existing cutting equipment for machining the stainless steel plate is low in efficiency, cannot well complete a corresponding production cutting task, is poor in flexibility and low in automation degree.

Disclosure of Invention

The invention aims to provide an efficient cutting device for stainless steel plate processing, and aims to solve the problems that the existing cutting equipment for stainless steel plate processing is low in efficiency, cannot well complete a corresponding production cutting task, is poor in flexibility and low in automation degree.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a high-efficient cutting device for corrosion resistant plate processing, includes left base and right base, left side base and right base bottom end are fixed with a plurality of supporting legs, sliding connection has the sliding plate on left side base and the right base, the sliding plate lower extreme is connected with screw rod mechanism, the sliding plate up end is connected with clamping mechanism and cutting mechanism, be equipped with corrosion resistant plate under the clamping mechanism, corrosion resistant plate places on the platform, the platform is located the sliding plate top, two backup pads of platform lower extreme fixedly connected with, be fixed in respectively on left base and the right base about the backup pad.

As a further scheme of the invention: the screw mechanism comprises a first rotating seat and a second rotating seat which are fixed on the right side of the left base, the first rotating seat is fixed with a first motor, the first motor is connected with a threaded rod, a movable base is sleeved on a threaded section of the threaded rod, and the movable base is fixed on the left side of the bottom end of the sliding plate.

As a further scheme of the invention: the clamping mechanism comprises two first supports symmetrically fixed on the upper end face of the sliding plate, a second support is connected between the two first supports, the lower end of the second support is symmetrically connected with two third supports, the lower end of each third support is fixedly connected with a fourth support, two L-shaped supports symmetrically arranged are fixedly connected to the bottom ends of two ends of each fourth support, and a first telescopic rod is fixedly connected between the second support and the fourth support.

As a further scheme of the invention: the movable column at the lower end of the first telescopic rod is connected with a double-faced rack, two sides of the double-faced rack are symmetrically meshed with two first fan-shaped teeth, the first fan-shaped teeth are hinged to the right-angle corner of the L-shaped support, a fifth support is fixedly connected with the fan-shaped teeth, the lower end of the fifth support is hinged to the middle section of a sixth support horizontally arranged, the right end of the sixth support is rotatably connected with a seventh support, the upper end of the seventh support is hinged to the right end of the L-shaped support, and a K-shaped clamping plate is fixedly connected to the left end of the sixth.

As a further scheme of the invention: the cutting mechanism comprises an oblique fixed plate, one side of the oblique fixed plate is fixed on the first support, a triangular inverted groove is formed in the downward surface of the oblique fixed plate, a U-shaped groove communicated with the triangular inverted groove is formed in the upward surface of the oblique fixed plate, a triangular sliding plate is connected inside the triangular inverted groove in a sliding mode, the triangular sliding plate is connected with a rack, a second fan-shaped tooth is meshed with the rack, a rotating shaft is connected with the second fan-shaped tooth, an shaft sleeve is sleeved on the rotating shaft, a bearing is arranged between the rotating shaft and the shaft sleeve, and a folded plate for connection is fixedly connected between the shaft sleeve and the front surface of the oblique.

As a further scheme of the invention: one section fixedly connected with rocker of pivot, the rocker lower extreme articulates there is the second telescopic link, the second telescopic link lower extreme articulates in articulated seat, articulated seat is fixed in on the triangle wedge inclined plane, the triangle wedge is fixed in the sliding plate up end.

As a further scheme of the invention: the triangular sliding plate is characterized in that an eighth support is fixed to one side, facing upwards, of the upper end of the triangular sliding plate, a ninth support is connected to the lower end of the eighth support, a rotating groove is formed in the lower end of the ninth support, a connecting shaft is connected to the rotating groove in a rotating mode, the connecting shaft is connected with a first gear, the first gear is meshed with a second gear, the second gear is connected with a motor rotating shaft, the motor rotating shaft is connected with a second motor, the ninth support, parallel to the second motor, is fixed to a tenth support, the tenth support is fixed to the ninth support and located on the U-shaped support, the first gear is fixedly connected with a U-shaped support towards the right side, a cutting wheel is connected to the U-shaped support in a rotating mode, the cutting wheel is coaxially connected with a.

The efficient cutting device for machining the stainless steel plate, provided by the embodiment of the invention, has the advantages that the cutting efficiency is higher, the corresponding production cutting task can be well completed, the flexibility is higher, the cutting direction and depth can be controlled, and the automation degree is higher.

Drawings

Fig. 1 is a structural diagram of an efficient cutting device for processing a stainless steel plate according to an embodiment of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is an enlarged view of the structure of the clamping mechanism;

FIG. 4 is a view of a portion of the linkage of the cutting mechanism;

fig. 5 is an enlarged view of the structure of fig. 4 at a.

In the figure: 1. a left base; 2. a right base; 3. supporting legs; 4. a sliding plate; 5. a screw mechanism; 51. a first rotating base; 52. a second rotating base; 53. a first motor; 54. a threaded rod; 55. a movable base; 6. a clamping mechanism; 61. a first bracket; 62. a second bracket; 63. a third support; 64. a fourth bracket; 65. an L-shaped bracket; 66. a first telescopic rod; 67. a double-sided rack; 68. a first sector tooth; 69. a fifth support; 610. a sixth support; 611. a seventh support; 612. a K-type clamping plate; 7. a cutting mechanism; 71. an oblique fixing plate; 72. a triangular inverted groove; 73. a U-shaped groove; 74. a triangular sliding plate; 75. a rack; 76. a second sector-shaped tooth; 77. a rotating shaft; 78. a shaft sleeve; 79. a bearing; 710. folding the plate; 711. a rocker; 712. a second telescopic rod; 713. a hinged seat; 714. a triangular wedge block; 715. an eighth bracket; 716. a ninth support; 717. a rotating groove; 718. a connecting shaft; 719. a first gear; 720. a second gear; 721. a motor shaft; 722. a second motor; 723. a tenth bracket; 724. a U-shaped bracket; 725. a cutting wheel; 726. a third motor; 8. a stainless steel plate; 9. a platform; 10. and a support plate.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

Example 1:

as shown in fig. 1 to 5, in an embodiment of the present invention, an efficient cutting device for stainless steel plate processing includes a left base 1 and a right base 2, a plurality of support legs 3 are fixed at bottom ends of the left base 1 and the right base 2, a sliding plate 4 is slidably connected on the left base 1 and the right base 2, a screw mechanism 5 is connected at a lower end of the sliding plate 4, a clamping mechanism 6 and a cutting mechanism 7 are connected at an upper end face of the sliding plate 4, a stainless steel plate 8 is arranged under the clamping mechanism 6, the stainless steel plate 8 is placed on a platform 9, the platform 9 is located above the sliding plate 4, two support plates 10 are fixedly connected at a lower end of the platform 9, and the left and right support plates 10 are respectively fixed on the left base 1 and the right base 2.

In the embodiment of the present invention, the working principle can be divided into: the method comprises the following steps: the screw rod mechanism 5 controls the sliding plate 4 to move to a designated position, then the clamping mechanism 6 on the sliding plate 4 is changed from a free state to a clamping state, the clamping mechanism 6 clamps the stainless steel plate 8, and at the moment, the cutting mechanism 7 does not work; step two: the screw mechanism 5 controls the sliding plate 4 to return to the original position, and the clamping mechanism 6, the cutting mechanism 7 and the clamped stainless steel plate 8 move along with the sliding plate 4, so that the stainless steel plate 8 is fed for a certain distance; step three: on the basis of the second step, the cutting mechanism 7 is started to generate cutting motion to cut the stainless steel plate 8, after the cutting is finished, the clamping mechanism 6 releases the stainless steel plate 8, the stainless steel plate 8 is placed on the platform 9, and the clamping mechanism 6 returns to a free state; and (5) circulating from the first step to the third step to finish the purpose of automatic cutting.

Example 2:

as shown in fig. 1-5, in the embodiment of the present invention, the screw mechanism 5 includes a first rotating base 51 and a second rotating base 52 fixed on the right side of the left base 1, the first rotating base 51 is fixed with a first motor 53, the first motor 53 is connected with a threaded rod 54, a threaded section of the threaded rod 54 is sleeved with a movable base 55, and the movable base 55 is fixed on the left side of the bottom end of the sliding plate 4.

In the embodiment of the present invention, the screw mechanism 5 drives the sliding plate 4 to slide according to the principle: the forward and reverse rotation of the first motor 53 controls the forward and reverse rotation of the threaded rod 54, and in turn, causes the movable base 55 to advance or retreat in accordance with the forward and reverse rotation of the threaded rod 54, and in turn, causes the slide plate 4 to slide on the left base 1 and the right base 2.

Example 3:

as shown in fig. 1 to 5, in the embodiment of the present invention, the clamping mechanism 6 includes 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, two third brackets 63 are symmetrically connected to the lower end of the second bracket 62, a fourth bracket 64 is fixedly connected to the lower end of the third bracket 63, two L-shaped brackets 65 symmetrically arranged are fixedly connected to the bottom ends of the two ends of the fourth bracket 64, and a first telescopic rod 66 is fixedly connected between the second bracket 62 and the fourth bracket 64.

In the embodiment of the present invention, the clamping mechanism 6 clamps the principle: the first telescopic rod 66 is contracted, the plunger moves upwards to drive the double-sided rack 67 to move upwards, and then the first fan-shaped teeth 68 meshed with the double-sided rack are lifted upwards, so that the fifth bracket 69 is closed towards the center.

Example 4:

as shown in fig. 1 to 5, in the embodiment of the present invention, a double-sided rack 67 is connected to a movable column at the lower end of the first telescopic rod 66, two first sector-shaped teeth 68 are symmetrically engaged on two sides of the double-sided rack 67, the first sector-shaped teeth 68 are hinged to a right-angled corner of the L-shaped bracket 65, a fifth bracket 69 is fixedly connected to the sector-shaped teeth 68, a lower end of the fifth bracket 69 is hinged to a middle section of a horizontally arranged sixth bracket 610, a seventh bracket 611 is rotatably connected to a right end of the sixth bracket 610, an upper end of the seventh bracket 611 is hinged to a right end of the L-shaped bracket 65, and a K-shaped snap-gauge 612 is fixedly connected to a left end of.

In the embodiment of the invention, as the fifth support 69, the lower half section of the L-shaped support 65, the seventh support 611 and the sixth support 610 form a parallelogram mechanism, when the lower end of the fifth support 69 is closed to the left, the sixth support 610 moves horizontally to the left, then the K-shaped clamping plates 612 move to the left, and then the K-shaped clamping plates 612 on both sides are closed to the center, so as to form a holding state.

Example 5:

as shown in fig. 1 to 5, in the embodiment of the present invention, the cutting mechanism 7 includes an oblique fixing plate 71, one side of the oblique fixing plate 71 is fixed on the first bracket 61, a downward side of the oblique fixing plate 71 is provided with a triangular inverted groove 72, an upward side of the oblique fixing plate 71 is provided with a U-shaped groove 73 communicated with the triangular inverted groove 72, the triangular inverted groove 72 is connected with a triangular sliding plate 74 in a sliding manner, the triangular sliding plate 74 is connected with a rack 75, the rack 75 is engaged with a second sector-shaped tooth 76, the second sector-shaped tooth 76 is connected with a rotating shaft 77, the rotating shaft 77 is sleeved with a shaft sleeve 78, a bearing 79 is disposed between the rotating shaft 77 and the shaft sleeve 78, and a flap 710 for connection is fixedly connected between the shaft sleeve 78 and the front side of the.

In the embodiment of the present invention, the control principle of the cutting mechanism 7 is: the second expansion link 712 is extended to enable the rocker 711 to rotate clockwise, then the rotating shaft 77 drives the second sector-shaped tooth 76 to rotate clockwise, then the rack 75 and the triangular sliding plate 74 slide to the lower right inside the triangular inverted groove 72, then the eighth bracket 715 moves along with the rack, then the ninth bracket 716, the connecting shaft 718 connected with the ninth bracket, the first gear 719, the second gear 720, the motor rotating shaft 721, the second motor 722, the tenth bracket 723, the U-shaped bracket 724, the cutting wheel 725 and the third motor 726 all move in an inclined direction, then the cutting wheel 725 starts to cut when touching the stainless steel plate 8, and the cutting depth is indirectly controlled by the extension distance of the second expansion link 712.

Example 6:

as shown in fig. 1 to 5, in the embodiment of the present invention, a rocker 711 is fixedly connected to a section of the rotating shaft 77, a second telescopic rod 712 is hinged to a lower end of the rocker 711, a lower end of the second telescopic rod 712 is hinged to a hinge seat 713, the hinge seat 713 is fixed to an inclined surface of a triangular wedge-shaped block 714, and the triangular wedge-shaped block 714 is fixed to an upper end surface of the sliding plate 4.

In an embodiment of the present invention, the third motor 726 provides the cutting wheel 725 with the power required for cutting, while the rotation of the second motor 722 may change the cutting orientation of the cutting wheel 725.

Example 7:

as shown in fig. 1 to 5, in the embodiment of the present invention, an eighth support 715 is fixed on one upward side of an upper end of the triangular sliding plate 74, a ninth support 716 is connected to a lower end of the eighth support 715, a rotating groove 717 is formed in a lower end of the ninth support 716, a connecting shaft 718 is rotatably connected in the rotating groove 717, the connecting shaft 718 is connected to a first gear 719, the first gear 719 is engaged with a second gear 720, the second gear 720 is connected to a motor rotating shaft 721, the motor rotating shaft 721 is connected to a second motor 722, the second motor 722 is fixed to a tenth support 723 in parallel with the ninth support 716, the tenth support 716 is fixed to the ninth support 716, a U-shaped support 724 is fixedly connected to a right side of the first gear 719, a cutting wheel 725 is rotatably connected to the U-shaped support 724, and the cutting wheel 725 is coaxially connected to the third motor 726, the third motor 726 is fixed on one side of the U-shaped bracket 724.

In the embodiment of the present invention, the second motor 722 rotates to drive the motor rotating shaft 721, and then the second gear 720 rotates, and the first gear 719 engaged therewith follows, and then the connecting shaft 718 rotates in the rotating groove 717, and then the U-shaped bracket 724 synchronously rotates by a certain angle, and then the cutting wheel 725 rotates by a certain angle, so that the cutting direction of the cutting wheel 725 changes.

The efficient cutting device for machining the stainless steel plate is high in cutting efficiency, capable of well completing corresponding production cutting tasks, high in flexibility, capable of controlling cutting direction and depth and high in automation degree.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several variations and modifications without departing from the concept of the present invention, and these should be considered as the protection scope of the present invention, which will not affect the effect of the implementation of the present invention and the utility of the patent.

Claims (7)

1. An efficient cutting device for processing a stainless steel plate comprises a left base (1) and a right base (2), it is characterized in that a plurality of supporting legs (3) are fixed at the bottom ends of the left base (1) and the right base (2), the left base (1) and the right base (2) are connected with a sliding plate (4) in a sliding way, the lower end of the sliding plate (4) is connected with a screw mechanism (5), the upper end surface of the sliding plate (4) is connected with a clamping mechanism (6) and a cutting mechanism (7), a stainless steel plate (8) is arranged under the clamping mechanism (6), the stainless steel plate (8) is placed on a platform (9), the platform (9) is positioned above the sliding plate (4), the lower end of the platform (9) is fixedly connected with two supporting plates (10), the left and right sides of the supporting plate (10) are respectively fixed on the left base (1) and the right base (2).

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

3. The efficient cutting device 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), two third brackets (63) are symmetrically connected to the lower end of the second bracket (62), a fourth bracket (64) is fixedly connected to the lower end of the third bracket (63), two symmetrically arranged L-shaped brackets (65) are fixedly connected to the lower ends of the fourth bracket (64), and a first telescopic rod (66) is fixedly connected between the second bracket (62) and the fourth bracket (64).

4. The efficient cutting device for the stainless steel plate processing is characterized in that a double-sided rack (67) is movably connected to a lower end of the first telescopic rod (66), two first fan-shaped teeth (68) are symmetrically meshed to two sides of the double-sided rack (67), the first fan-shaped teeth (68) are hinged to right-angled corners of the L-shaped support (65), a fifth support (69) is fixedly connected to the fan-shaped teeth (68), the lower end of the fifth support (69) is hinged to the middle section of a horizontally arranged sixth support (610), a seventh support (611) is rotatably connected to the right end of the sixth support (610), the upper end of the seventh support (611) is hinged to the right end of the L-shaped support (65), and a K-shaped clamping plate (612) is fixedly connected to the left end of the sixth support (610).

5. The efficient cutting device for stainless steel plate processing according to claim 1, wherein the cutting mechanism (7) comprises an inclined fixing plate (71), one side of the inclined fixing plate (71) is fixed on the first bracket (61), a triangular inverted groove (72) is formed in the downward surface of the inclined fixing plate (71), a U-shaped groove (73) communicated with the triangular inverted groove (72) is formed in the upward surface of the inclined fixing plate (71), a triangular sliding plate (74) is slidably connected inside the triangular inverted groove (72), a rack (75) is connected to the triangular sliding plate (74), a second sector-shaped tooth (76) is meshed to the rack (75), a rotating shaft (77) is connected to the second sector-shaped tooth (76), a shaft sleeve (78) is sleeved on the rotating shaft (77), and a bearing (79) is arranged between the rotating shaft (77) and the shaft sleeve (78), a folded plate (710) for connection is fixedly connected between the shaft sleeve (78) and the front surface of the oblique fixing plate (71).

6. The efficient cutting device for machining the stainless steel plate is characterized in that a rocker (711) is fixedly connected to one section of the rotating shaft (77), a second telescopic rod (712) is hinged to the lower end of the rocker (711), the lower end of the second telescopic rod (712) is hinged to a hinge seat (713), the hinge seat (713) is fixed to an inclined surface of a triangular wedge-shaped block (714), and the triangular wedge-shaped block (714) is fixed to the upper end surface of the sliding plate (4).

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

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