CN108581152B

CN108581152B - Plasma hole cutting machine

Info

Publication number: CN108581152B
Application number: CN201810470119.3A
Authority: CN
Inventors: 魏传知
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-05-16
Filing date: 2018-05-16
Publication date: 2020-12-01
Anticipated expiration: 2038-05-16
Also published as: CN108581152A

Abstract

The invention relates to a plasma hole cutting machine, which comprises a main bracket (100), a rotating device (200), a translation device (300), a vertical driving device (400) and a plasma cutting head (500); the main support (100) comprises a main support (101), a baffle plate (102) and a guide plate (103), wherein the baffle plate (102) is welded on the main support (101), the guide plate (103) is connected to the top of the main support (101) through threads, scale marks (104) are arranged on the guide plate (103), the plasma hole cutting machine is simple in structure and stable in work, and hole cutting operation can be achieved on plates and tube products through a plasma cutting head (500).

Description

Plasma hole cutting machine

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of mechanical cutting equipment, in particular to a plasma hole cutting machine.

[ background of the invention ]

The plasma cutting is a processing method which utilizes the heat of a high-temperature plasma arc to locally melt (and evaporate) the metal at the notch of a workpiece and removes the molten metal by virtue of the momentum of high-speed plasma to form the notch, the plasma cutting has a strong effect in industrial production, the existing plasma cutting equipment mainly can cut various shapes, the application range is wide, the price is high, many manufacturers in the prior art only need to use the hole cutting function of the plasma in production, the plasma equipment with full-function cutting is not needed, the cost can be saved, and the existing equipment with only the hole cutting function of the plasma is few.

[ summary of the invention ]

Aiming at the defects in the prior art, the invention provides a plasma hole cutting machine.

The technical scheme adopted by the invention for solving the technical problem is as follows: comprises a general bracket 100, a rotating device 200, a translation device 300, a vertical driving device 400 and a plasma cutting head 500; the main support 100 comprises a main support 101, a baffle plate 102 and a guide plate 103, wherein the baffle plate 102 is welded on the main support 101, the guide plate 103 is connected to the top of the main support 101 through threads, and the guide plate 103 is provided with scale marks 104.

The plasma hole cutting machine comprises a driving motor 201, a speed reducer 202, a first synchronous wheel 203, a second synchronous wheel 205, a synchronous belt 204, a transmission shaft 206 and a first bearingSeat207. A second bearing seat 208, a third bearing seat 209, a turntable 210, a pipe clamping mechanism 211, the first bearingSeat207 and second bearing frame 208 are provided with connecting hole 212, utilize the bolt to pass connecting hole 212 connects on main support 101, be equipped with fixed orifices 213 on the third bearing frame 209, through fixed orifices 213 utilize bolted connection in baffle 102 bottom, tubular product clamping mechanism 211 includes support body 215 and first tight set screw 216, be equipped with inverted pentagonal groove 217 on the support body 215, inverted pentagonal groove 217 bottom is the V-arrangement, evenly distributed mounting and connecting hole 214 on carousel 210, carousel (210) can various needs of mounting and connecting cut through mounting and connecting hole 214The pipe clamping mechanism 211 is arranged on the turntable 210, the position of the pipe clamping mechanism is adjustable, a pipe penetrates through an inverted pentagonal groove 217 in the pipe clamping mechanism 211, and the pipe can be clamped and fixed by rotating the first fastening screw 216.

In the plasma hole cutting machine of the present invention, the translation device 300 includes a connecting frame 301, a first guiding block 302, a second guiding block 303, and a screw nut 304, four corners of the connecting frame 301 are respectively provided with a rolling bearing set, centers of the first guiding block 302 and the second guiding block 303 are respectively provided with a guiding hole, the rolling bearing set includes a first bearing 305, a second bearing 306, and a third bearing 307, two sides of the connecting frame 301 are respectively provided with a second fastening screw 308, one end of the connecting frame 301 is provided with a scale pointing arrow 309, the translation device 300 is clamped on the guiding plate 103 of the main bracket 100 through the rolling bearing sets at the four corners of the connecting frame 301, three different bearings on each rolling bearing set are respectively tangent to three different surfaces of the guiding plate 103, i.e. the first bearing 305 is connected to the top surface of the guiding plate 103, the second bearing 306 and the third bearing 307 are respectively tangent to two side surfaces of the guiding plate 103, the translation device 300 can move on the general bracket 100 through the rolling bearing sets on four corners, after the required distance is moved, the movement of the general bracket 100 is prevented by rotating the second fastening screw 308 and enabling the second fastening screw 308 to be pressed against the side surface of the guide plate 103, and the moving distance of the translation device 300 can be measured by utilizing the indication of the scale mark 104 side of the scale pointing arrow 309 on the guide plate 103.

The plasma hole cutting machine comprises a support frame 401, a driving motor 402, a coupler 403, a first guide rod 405, a second guide rod 406 and a screw rod 404, wherein a cutting head mounting hole 407 is formed in one side of the lower end of the support frame 401, the vertical driving device 400 penetrates through a guide hole in a first guide block 302 and a guide hole in a second guide block 303 on a translation device 300 through the first guide rod 405 and the second guide rod 406 respectively and is connected with the translation device (300) in a sliding mode, and the screw rod 404 is connected with a screw rod nut 304 on the translation device 300.

The plasma hole cutting machine has the following beneficial effects: the plasma hole cutting machine is simple in structure and stable in work, and hole cutting operation can be achieved on plates and pipe products through the plasma cutting head 500.

[ description of the drawings ]

Fig. 1 is a perspective view of a plasma hole cutting machine according to the present invention.

Fig. 2 is a perspective view of another perspective view of the plasma hole cutting machine according to the present invention.

Fig. 3 is a front view of the plasma perforator of the present invention.

Fig. 4 is a partially enlarged view of fig. 1.

Fig. 5 is a perspective view of the rotating device of the present invention.

Fig. 6 is a perspective view of the translation device of the present invention.

Fig. 7 is a perspective view of the vertical driving apparatus according to the present invention.

[ detailed description ] embodiments

A plasma perforator according to the present invention is further described with reference to fig. 1 to 7.

In a preferred embodiment of the plasma hole cutting machine of the present invention, the plasma hole cutting machine comprises a main frame 100, a rotating device 200, a translating device 300, a vertical driving device 400, a plasma cutting head 500; the main support 100 comprises a main support 101, a baffle plate 102 and a guide plate 103, wherein the baffle plate 102 is welded on the main support 101, the guide plate 103 is connected to the top of the main support 101 through threads, and the guide plate 103 is provided with scale marks 104.

In a preferred embodiment of the plasma hole cutting machine of the present invention, the plasma hole cutting machine comprises a driving motor 201, a speed reducer 202, a first synchronous wheel 203, a second synchronous wheel 205, a synchronous belt 204, a transmission shaft 206, and a first bearingSeat207. A second bearing seat 208, a third bearing seat 209, a turntable 210, a pipe clamping mechanism 211, the first bearingSeat207 and the second bearing seat 208 are provided with connecting holes 212 which are connected on the main bracket 101 by bolts penetrating through the connecting holes 212, the third bearing seat 209 is provided with fixing holes 213 which are connected at the bottom of the baffle plate 102 by bolts through the fixing holes 213, and the pipe clamping mechanism 211 comprisesSupport body 215 and first tight set screw 216, be equipped with inverted pentagonal groove 217 on the support body 215, inverted pentagonal groove 217 bottom is the V-arrangement, evenly distributed mounting hole 214 on the carousel 210, various board type materials that need the cutting hole can be installed and connected through mounting hole 214 in carousel (210), pipe clamping mechanism 211 is installed on the carousel 210, and the position is adjustable, passes pipe material in the inverted pentagonal groove 217 on pipe clamping mechanism 211, can realize fixing the clamp of pipe through rotatory first tight set screw 216.

In a preferred embodiment of the plasma hole cutting machine of the present invention, the translation device 300 includes a connecting frame 301, a first guiding block 302, a second guiding block 303, and a screw nut 304, four corners of the connecting frame 301 are provided with rolling bearing sets, centers of the first guiding block 302 and the second guiding block 303 are provided with guiding holes, the rolling bearing sets include a first bearing 305, a second bearing 306, and a third bearing 307, two sides of the connecting frame 301 are provided with second fastening screws 308, one end of the connecting frame 301 is provided with a scale pointing arrow 309, the translation device 300 is clamped on the guiding plate 103 of the main frame 100 through the rolling bearing sets at the four corners of the connecting frame 301, three different bearings on each rolling bearing set are respectively tangent to three different surfaces of the guiding plate 103, that is, the first bearing 305 is connected to the top surface of the guiding plate 103, the second bearing 306 and the third bearing 307 are respectively tangent to two side surfaces of the guiding plate 103, the translation device 300 can move on the general bracket 100 through the rolling bearing sets on four corners, after the required distance is moved, the movement of the general bracket 100 is prevented by rotating the second fastening screw 308 and enabling the second fastening screw 308 to be pressed against the side surface of the guide plate 103, and the moving distance of the translation device 300 can be measured by utilizing the indication of the scale mark 104 side of the scale pointing arrow 309 on the guide plate 103.

In a preferred embodiment of the plasma hole cutting machine of the present invention, the plasma hole cutting machine comprises a support frame 401, a driving motor 402, a coupling 403, a first guide rod 405, a second guide rod 406, and a screw rod 404, wherein a cutting head mounting hole 407 is formed at one side of a lower end of the support frame 401, the vertical driving device 400 is slidably connected to the translation device (300) by the first guide rod 405 and the second guide rod 406 respectively passing through a guide hole of a first guide block 302 and a guide hole of a second guide block 303 on the translation device 300, and the screw rod 404 is connected to a screw nut 304 on the translation device 300.

The above embodiments only express the preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention; it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which are within the protection scope of the present invention; therefore, all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims

1. The plasma hole cutting machine is characterized by comprising a main support (100), a rotating device (200), a translation device (300), a vertical driving device (400) and a plasma cutting head (500), wherein the main support (100) comprises a main support (101), a baffle (102) and a guide plate (103), the baffle (102) is welded on the main support (101), the guide plate (103) is connected to the top of the main support (101) through threads, a scale mark (104) is arranged on the guide plate (103), the rotating device (200) comprises a driving motor (201), a speed reducer (202), a first synchronous wheel (203), a second synchronous wheel (205), a synchronous belt (204), a transmission shaft (206), a first bearing seat (207), a second bearing seat (208), a third bearing seat (209), a rotary table (210) and a pipe clamping mechanism (211), the pipe clamping mechanism comprises a first bearing seat (207) and a second bearing seat (208), wherein a connecting hole (212) is formed in the first bearing seat (207) and the second bearing seat (208), a bolt penetrates through the connecting hole (212) and is connected to a main support (101), a fixing hole (213) is formed in the third bearing seat (209), the fixing hole (213) is connected to the bottom of a baffle plate (102) through the bolt, the pipe clamping mechanism (211) comprises a frame body (215) and a first fastening screw (216), an inverted five-edge groove (217) is formed in the frame body (215), the bottom of the inverted five-edge groove (217) is V-shaped, mounting connecting holes (214) are uniformly distributed in a rotary table (210), the rotary table (210) can mount and connect various plate type materials needing to be cut through the mounting connecting holes (214), the pipe clamping mechanism (211) is mounted on the rotary table (210) and is adjustable in position, and penetrates through the inverted five-edge groove (217, the pipe can be clamped and fixed by rotating a first fastening screw (216), the translation device (300) comprises a connecting frame (301), a first guide square block (302), a second guide square block (303) and a screw nut (304), rolling bearing sets are arranged at four corners of the connecting frame (301), guide holes are formed in the centers of the first guide square block (302) and the second guide square block (303), each rolling bearing set comprises a first bearing (305), a second bearing (306) and a third bearing (307), the second fastening screws (308) are arranged on two sides of the connecting frame (301), one end of the connecting frame (301) is provided with a scale pointing arrow (309), the translation device (300) is clamped on a guide plate (103) of a main support (100) through the rolling bearing sets at the four corners of the connecting frame (301), three different bearings on each rolling bearing set are respectively tangent to three different surfaces of the guide plate (103), namely, a first bearing (305) is connected to the top surface of the guide plate (103) in a tangent mode, a second bearing (306) and a third bearing (307) are respectively tangent to two side surfaces of the guide plate (103), the translation device (300) can move on the total bracket (100) through rolling bearing sets on four corners, after the translation device moves for a required distance, the translation device (300) can prevent the movement of the total bracket (100) by rotating a second tightening screw rod (308) and enabling the second tightening screw rod (308) to be pressed against the side surface of the guide plate (103), the movement distance of the translation device (300) can be measured by indicating on one side of a scale mark (104) on the guide plate (103) through a scale pointing arrow (309), and the vertical driving device (400) comprises a support frame (401), a driving motor (402), a coupler (403), a first guide rod (405), a second guide rod (406) and a screw rod (404), a cutting head mounting hole (407) is formed in one side of the lower end of the support frame (401), the vertical driving device (400) penetrates through a guide hole in a first guide block (302) and a guide hole in a second guide block (303) in the translation device (300) through a first guide rod (405) and a second guide rod (406) to be connected with the translation device (300) in a sliding mode, and the screw rod (404) is connected with a screw rod nut (304) in the translation device (300).