CN215145594U - Conical tube clamping equipment for numerical control plasma cutting machine - Google Patents

Abstract

The utility model discloses a conical duct centre gripping equipment for numerical control plasma cutting machine, include slide bracket and set up the plasma cutting mechanism on slide bracket, still be provided with initiative clamping mechanism and driven clamping mechanism on the slide bracket, initiative clamping mechanism with the toper pipe fitting is held to the centre gripping between the driven clamping mechanism, initiative clamping mechanism is including the initiative clamping mainframe box, set up the initiative clamping chuck on the initiative clamping mainframe box and install the initiative anti-skidding clamping jaw clamp on the initiative clamping chuck, driven clamping mechanism is including the driven clamping mainframe box, set up the driven clamping chuck on the driven clamping mainframe box and install the driven anti-skidding clamping jaw clamp on the driven clamping chuck. The beneficial effects of the utility model are that, can accomplish the quick clamping to the toper pipe through this centre gripping equipment, save man-hour, improve cutting quality and work efficiency.

Description

Conical tube clamping equipment for numerical control plasma cutting machine

Technical Field

The utility model relates to a centre gripping equipment technical field, especially a conical duct centre gripping equipment for numerical control plasma cutting machine.

Background

When the conical tube is cut into intersecting lines, the conventional mode is to lay out a sample by an artificial computer, manually draw lines and position the conical tube, and adopt a manual cutting or semi-automatic cutting mode. The mode is flexible and convenient, but has long time consumption, poor cutting quality, large size error, large material waste, large subsequent processing workload, severe labor condition, low production efficiency and certain safety risk.

Compared with manual and semi-automatic cutting modes, the numerical control cutting method can effectively improve the cutting efficiency and the cutting quality, reduce the labor intensity of operators and reduce the safety risk. However, due to the shape limitation of the tapered tube, a general clamping device cannot completely fix the tapered tube, and the accuracy of the cutting position cannot be ensured during cutting, which may cause an error in the dimension of the machined tapered tube.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem, a conical tube clamping device for a numerical control plasma cutting machine is designed.

The technical scheme of the utility model be, a conical duct centre gripping equipment for numerical control plasma cutting machine, include slide bracket and set up the plasma cutting mechanism on slide bracket, still be provided with initiative clamping mechanism and driven clamping mechanism on the slide bracket, initiative clamping mechanism with the toper pipe fitting is held to the centre gripping between the driven clamping mechanism, initiative clamping mechanism is including the initiative clamping mainframe box, set up the initiative clamping chuck on the initiative clamping mainframe box and install the initiative anti-skidding clamping jaw clamp on the initiative clamping chuck, driven clamping mechanism is including the driven clamping mainframe box, set up the driven clamping chuck on the driven clamping mainframe box and install the driven anti-skidding clamping jaw clamp on the driven clamping chuck.

As a further supplement, the driving clamping mechanism and the driven clamping mechanism are relatively disposed, and the driving clamping mechanism and the driven clamping mechanism are disposed on the same central axis, and the plasma cutting mechanism is disposed on the side of the conical pipe.

As a further supplement to the present invention, the plasma cutting mechanism includes a frame, an angle adjusting device installed on the base, and a plasma cutting device installed on the angle adjusting device.

As a further supplement, the angle adjusting device includes a turntable mounted on the frame, a fixed plate mounted on the turntable, a connecting rod mounted on the fixed plate, and a fixed base mounted on the connecting rod, the connecting rod is hinged to the fixed plate, and the fixed base is hinged to the connecting rod.

As a further supplement, the active anti-slip clamping jaw may be adapted to adjust the slip with respect to the active clamping chuck, and the driven anti-slip clamping jaw may be adapted to adjust the slip with respect to the driven clamping chuck.

As a further supplement, the sliding platform is further provided with a control box.

Its beneficial effects lie in, the utility model provides a big diameter end and the minor diameter end of toper pipe are cliied respectively to centre gripping equipment through initiative clamping mechanism and driven clamping mechanism, then angle and the position of cutting are adjusted to the last plasma cutting device accessible angle adjusting device of plasma cutting mechanism, accomplish the whole body cutting of toper pipe, initiative clamping mechanism can horizontal slip on sliding platform to be applicable to the toper pipe of different length, can accomplish the quick clamping to the toper pipe through this centre gripping equipment, and man-hour is saved, improve cutting quality and work efficiency.

Drawings

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

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

fig. 3 is a schematic structural view of the driving clamping mechanism and the driven clamping mechanism.

In the figure, 1, a sliding platform; 2. a plasma cutting mechanism; 201. a machine base; 202. a turntable; 203. an angle adjusting device; 2031. a fixing plate; 2032. a connecting rod; 2033. a fixed base; 204. a plasma cutting device; 3. an active clamping mechanism; 301. actively clamping the mainframe box; 302. actively clamping the chuck; 303. actively clamping the jaw clamp in an anti-skidding manner; 4. a driven clamping mechanism; 401. the main case is clamped by a driven clamp; 402. a driven clamping chuck; 403. a driven anti-slip clamping jaw; 5. a control box; 6. a tapered tube.

Detailed Description

Because the diameter at conical tube both ends differs, and the size diameter of whole body is also different moreover, adopts general centre gripping and cutting equipment machining efficiency low, in order to solve this problem, needs research and development a numerical control looks transversal plasma cutting machine available, with quick clamping, save man-hour during conical tube cutting looks transversal, improve the quality, improve the equipment of security performance and efficiency, the utility model provides a conical tube centre gripping equipment for numerical control plasma cutting machine.

The present invention is described in detail with reference to the accompanying drawings, as shown in fig. 1-3, the tapered tube clamping apparatus includes a sliding platform 1 and a plasma cutting mechanism 2 disposed on the sliding platform 1, wherein a driving clamping mechanism 3 and a driven clamping mechanism 4 are further disposed on the sliding platform 1, the driving clamping mechanism 3 and the driven clamping mechanism 4 are disposed relatively, and the driving clamping mechanism 3 and the driven clamping mechanism 4 are disposed on the same central axis, a tapered tube 6 to be processed is clamped between the driving clamping mechanism 3 and the driven clamping mechanism 4, and the plasma cutting mechanism 2 is disposed on a side of the tapered tube 6, and is used for cutting the tapered tube 6, and the driving clamping mechanism 3 and the driven clamping mechanism 4 are respectively used for clamping and fixing a large diameter end and a small diameter end of the tapered tube 6, thereby limiting the tapered tube 6

5 degrees of freedom, with conical tube parts only

The degree of freedom, thereby performing rotation in the circumferential direction with the plasma cutter.

The driving clamping mechanism 3 comprises a driving clamping main case 301, a driving clamping chuck 302 arranged on the driving clamping main case 301, and a driving anti-slip clamping jaw clamp 303 arranged on the driving clamping chuck 302, the driven clamping mechanism 4 comprises a driven clamping main case 401, a driven clamping chuck 402 arranged on the driven clamping main case 401, and a driven anti-slip clamping jaw clamp 403 arranged on the driven clamping chuck 402, the driving anti-slip clamping jaw clamp 303 can slide relative to the driving clamping chuck 302, the driven anti-slip clamping jaw clamp 403 can slide relative to the driven clamping chuck 402, the tapered pipe fitting 6 is clamped by outward expansion sliding or inward contraction sliding of the driving anti-slip clamping jaw clamp 303 and the driven anti-slip clamping jaw clamp 403, and the tapered pipe fitting 6 is cut by the plasma cutting mechanism 2 after clamping.

The plasma cutting mechanism 2 comprises a base 201, an angle adjusting device 203 arranged on the base and a plasma cutting device 204 arranged on the angle adjusting device 203, wherein the angle adjusting device 203 comprises a turntable 202 mounted on the base 201, a fixing plate 2031 mounted on the turntable 202, a connecting rod 2032 mounted on the fixing plate 2031, and a fixing base 2033 mounted on the connecting rod 2032, the connecting rod 2032 is hinged with the fixing plate 2031, the fixing base 2033 is hinged with the connecting rod 2032, the plasma cutting device 204 is mounted on the fixing base 2033, during cutting operation, the angle of the plasma cutting device 204 is adjusted by the rotation of the turntable 202, then the front-back distance of the plasma cutting device 204 is adjusted through the connecting rod 2032, so that the cutting of the whole body of the conical pipe fitting 6 is completed, in order to facilitate the control of the above mechanism, a control box 5 is further provided on the sliding platform 1.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims (6)

1. A conical tube clamping device for a numerical control plasma cutting machine comprises a sliding platform (1) and a plasma cutting mechanism (2) arranged on the sliding platform (1), it is characterized in that the sliding platform (1) is also provided with a driving clamping mechanism (3) and a driven clamping mechanism (4), a conical pipe fitting (6) is clamped between the driving clamping mechanism (3) and the driven clamping mechanism (4), the active clamping mechanism (3) comprises an active clamping mainframe box (301), an active clamping chuck (302) arranged on the active clamping mainframe box (301) and an active anti-skid clamping jaw clamp (303) arranged on the active clamping chuck (302), the driven clamping mechanism (4) comprises a driven clamping main case (401), a driven clamping chuck (402) arranged on the driven clamping main case (401) and a driven anti-skidding clamping claw clamp (403) arranged on the driven clamping chuck (402).

2. The conical tube clamping device for the numerical control plasma cutting machine according to claim 1, characterized in that the driving clamping mechanism (3) and the driven clamping mechanism (4) are oppositely arranged, the driving clamping mechanism (3) and the driven clamping mechanism (4) are positioned on the same central axis, and the plasma cutting mechanism (2) is positioned at the side of the conical tube (6).

3. The conical tube holding apparatus for a numerical control plasma cutting machine according to claim 1, wherein the plasma cutting mechanism (2) comprises a base (201), an angle adjusting device (203) installed on the base, and a plasma cutting device (204) installed on the angle adjusting device (203).

4. The tapered pipe clamping apparatus for the NC plasma cutting machine according to claim 3, wherein the angle adjusting device (203) includes a turntable (202) installed on the base (201), a fixing plate (2031) installed on the turntable (202), a connecting rod (2032) installed on the fixing plate (2031), and a fixing base (2033) installed on the connecting rod (2032), the connecting rod (2032) is hinged to the fixing plate (2031), and the fixing base (2033) is hinged to the connecting rod (2032).

5. The conical tube clamping device for the NC plasma cutting machine according to claim 1, wherein the driving anti-slip clamp jaw (303) is adjustable in sliding movement relative to the driving clamp chuck (302), and the driven anti-slip clamp jaw (403) is adjustable in sliding movement relative to the driven clamp chuck (402).

6. The conical tube clamping device for the numerical control plasma cutting machine according to claim 1, characterized in that the sliding platform (1) is further provided with a control box (5).

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