CN209954201U - Integrated laser cutting machine machining assembly - Google Patents
Integrated laser cutting machine machining assembly Download PDFInfo
- Publication number
- CN209954201U CN209954201U CN201920787838.8U CN201920787838U CN209954201U CN 209954201 U CN209954201 U CN 209954201U CN 201920787838 U CN201920787838 U CN 201920787838U CN 209954201 U CN209954201 U CN 209954201U
- Authority
- CN
- China
- Prior art keywords
- laser cutting
- chuck
- nut mechanism
- drill bit
- cutting machine
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Landscapes
- Laser Beam Processing (AREA)
Abstract
The utility model discloses an integrated form laser cutting machine processing subassembly, including feeding motor, the frame, screw nut mechanism, the slide, the board of collecting and assembling, the laser cutting head, first rodless cylinder, first rotating electrical machines seat, first chuck and drill bit, wherein screw nut mechanism installs on the frame, feeding motor be connected with screw nut mechanism, the slide is installed on screw nut mechanism, the board of collecting and assembling is installed on the slide, first rodless cylinder and laser cutting head are all installed on the board of collecting and assembling, first rotating electrical machines seat is connected with first rodless cylinder, on the first rotating electrical machines seat of first rotating electrical machines installation, and be connected with first chuck, first chuck can dismantle with the drill bit and be connected. The utility model discloses can carry out laser cutting and drilling processing simultaneously, perhaps carry out laser cutting, drilling simultaneously and attack tooth processing, the course of working need not to carry to different equipment, and the process velocity is fast, efficient, the precision is high.
Description
Technical Field
The utility model belongs to the technical field of the laser cutting machine design and specifically relates to an integrated form laser cutting machine processing subassembly is related to.
Background
The laser cutting machine is a machine for laser cutting, the conventional laser cutting machine can only cut and process a workpiece, however, in actual production, the processed workpiece often needs to be cut and drilled, and because the conventional laser cutting machine can not be used for drilling, the processed workpiece often needs to be carried to drilling equipment and tapping equipment for secondary processing, and the mode of processing multiple equipment for multiple times is realized, because repeated positioning is needed, the processing precision and the processing efficiency can be reduced, the processing cost is increased, and a certain number of workpieces need to be carried by a crane due to overlarge quality, and more time and labor are consumed.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, provide an integrated form laser cutting machine processing subassembly, this processing subassembly can carry out laser cutting and drilling processing simultaneously, perhaps carries out laser cutting, drilling and attacks tooth processing simultaneously, and the course of working need not to transport to different equipment, and process velocity is fast, efficient, the precision is high.
In order to solve the technical problem, the technical scheme of the utility model is that: the utility model provides an integrated form laser cutting machine processing subassembly, is including feeding motor, frame, screw-nut mechanism, slide, collection dress board, laser cutting head, first no pole cylinder, first rotating electrical machines seat, first chuck and drill bit, screw-nut mechanism installs on the frame, feeding motor be connected with screw-nut mechanism, the slide is installed on screw-nut mechanism, collection dress board is installed on the slide, first no pole cylinder and laser cutting head are all installed on collection dress board, first rotating electrical machines seat is connected with first no pole cylinder, on the first rotating electrical machines seat of first rotating electrical machines installation to be connected with first chuck, first chuck can dismantle with the drill bit and be connected.
In some embodiments, the feed screw and nut mechanism comprises a feed screw mounted on the base, a feed motor connected to the feed screw, and a nut threadedly mounted on the feed screw, and the slide plate is mounted on the nut. Therefore, the screw rod can be driven to rotate along with the rotation of the feeding motor, so that the nut is driven to do linear motion on the screw rod, and the rotation motion is converted into the linear motion. The integrated laser cutting machine machining assembly further comprises a guide rail and a sliding block, the guide rail is installed on the base and is parallel to the screw rod, the sliding block is installed on the guide rail, and the sliding plate is connected with the sliding block. The arrangement of the guide rail and the slide block can ensure that the slide plate is not easy to move and misplace when moving.
In some embodiments, the laser cutting head and drill bit are arranged in parallel. This reduces the number of operations required to be performed when switching between the cutting process and the drilling process.
In some embodiments, the utility model discloses still include second rodless cylinder, second rotating electrical machines seat, second chuck and screw tap, the second rodless cylinder is installed on the board of assembling, the second rotating electrical machines seat is connected with the second rodless cylinder, on the second rotating electrical machines seat of second rotating electrical machines installation to be connected with the second chuck, the screw tap can be dismantled with the second chuck and be connected. Therefore, the utility model discloses can also attack tooth processing, bore the screw hole processing promptly, in order further to increase the utility model discloses a workable scope.
In some embodiments, the laser cutting head, drill bit and tap are arranged in parallel. This reduces the number of operations required to be performed when switching between cutting, drilling, and drilling.
In some embodiments, the utility model discloses still include the layer board, the layer board is connected with the frame, layer board and frame set up perpendicularly. The setting of layer board can be convenient the utility model discloses come the perpendicular to frame installation. The utility model discloses still include the dust cover, the dust cover is installed on the frame. The dust cover can reduce the influence of dust on the feed screw nut mechanism.
The utility model has the advantages that: the utility model discloses in, the feeding motor can drive reciprocating of integrated board through lead screw nut mechanism, thereby make the laser cutting head, drill bit and screw tap can be close to or keep away from the processing work piece, the laser cutting head can carry out cutting process, the drill bit can drill processing, the screw tap can attack tooth processing, and through setting up first rodless cylinder, with this position of controlling the drill bit, through setting up the rodless cylinder of second, with this position of controlling the screw tap, so that when carrying out laser beam machining, the processing position can be kept away from to drill bit and screw tap, with avoiding causing the interference to laser beam machining, and when carrying out drilling processing or attack tooth processing, then can be closer to the processing work piece than laser beam machining head, with the interference of avoiding laser beam machining head to its drilling processing. Therefore, the utility model discloses can accomplish cutting process on the work piece, can accomplish drilling process again and attack tooth processing, and need not additionally to use other processing equipment, reduced transport and the repeated location to the work piece, can effectively improve machining precision and machining efficiency, reduce the processing cost.
Drawings
Fig. 1 is a schematic structural diagram of an integrated laser cutting machine processing assembly according to an embodiment of the present invention.
Fig. 2 is a front view of the integrated laser cutting machining assembly of fig. 1.
Fig. 3 is a schematic structural diagram of a feed screw and nut mechanism of the integrated laser cutting machine processing assembly of fig. 1.
In the figure: 1. the automatic cutting machine comprises a feeding motor, 2 parts of a machine base, 3 parts of a screw rod and nut mechanism, 4 parts of a sliding plate, 5 parts of a collecting plate, 6 parts of a laser cutting head, 7 parts of a first rodless cylinder, 8 parts of a first rotating motor, 9 parts of a first rotating motor base, 10 parts of a first chuck, 101 parts of a drill bit, 102 parts of a guide rail, 103 parts of a sliding block, 104 parts of a second rodless cylinder, 105 parts of a second rotating motor, 106 parts of a second rotating motor base, 107 parts of a second chuck, 108 parts of a screw tap, 109 parts of a supporting plate, 110 parts of a dust cover, 31 parts of a screw rod and 32 parts of a nut.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Referring to fig. 1, 2 and 3, the utility model discloses an integrated form laser cutting machine processing subassembly, including feeding motor 1, frame 2, lead screw nut mechanism 3, slide 4, package board 5, laser cutting head 6, first rodless cylinder 7, first rotating electrical machines 8, first rotating electrical machines seat 9, first chuck 10, drill bit 101, guide rail 102, slider 103, second rodless cylinder 104, second rotating electrical machines 105, second rotating electrical machines seat 106, second chuck 107, screw tap 108, layer board 109 and dust cover 110.
The feed screw-nut mechanism 3 includes a feed screw 31 and a nut 32. The screw rod 31 is installed on the base 2 through a bearing seat, so that the screw rod 31 can rotate on the base 2, one end of the screw rod 31 is fixedly connected with a rotating shaft of the feeding motor 1 through a coupler, a machine body of the feeding motor 1 is fixedly installed on the base 2 through a motor seat, the nut 32 is installed on the screw rod 31 through a threaded connection sleeve, and the sliding plate 4 is fixedly installed on the nut 32 through a screw.
The guide rails 102 are two, the two guide rails 102 are fixedly mounted on the base 2 through bolts, the two guide rails 102 are parallel to the screw rod 31, two sliding blocks 103 are sleeved on each guide rail 102, and all the sliding blocks 103 are fixedly connected with the sliding plate 4 through bolts. The arrangement of the guide rail 102 and the sliding block 103 can facilitate the sliding plate 4 to play a guiding role when the sliding plate 4 moves, so as to avoid the sliding plate 4 from moving and dislocating.
The assembly plate 5 is fixedly installed on the sliding plate 4 through bolts, the laser cutting head 6 is fixedly installed on the assembly plate 5 through bolts, both ends of a guide rail on the first rodless cylinder 7 are fixedly installed on the assembly plate 5 through bolts, a piston of the first rodless cylinder 7 is fixedly connected with the first rotating motor base 9 through bolts, namely, when the piston of the first rodless cylinder 7 moves on the guide rail, the first rotating motor base 9 can move along with the piston, both ends of the guide rail on the second rodless cylinder 104 are also fixedly installed on the assembly plate 5 through bolts, a piston of the second rodless cylinder 104 is fixedly connected with the second rotating motor base 105 through bolts, namely, when the piston of the second rodless cylinder 104 moves on the guide rail, the second rotating motor base 105 can move along with the piston. The first rodless cylinder 7 and the second rodless cylinder 104 are symmetrically arranged on the pallet 5.
The body of the first rotating motor 8 is fixedly mounted on the first rotating motor base 9 through a bolt, the rotating shaft of the first rotating motor 8 is connected with the first chuck 10, and the drill bit 101 is clamped by the first chuck 10 to be detachably connected with the drill bit 101. The body of the second rotating motor 105 is fixedly mounted on the second rotating motor base 106 through bolts, the rotating shaft of the second rotating motor 105 is connected with a second chuck 107, and the second chuck 107 holds the screw tap 108 to realize detachable connection with the screw tap 108. The laser cutting head 6, the drill 101 and the tap 108 are arranged in parallel.
The supporting plate 109 is fixedly connected with the base 2 through welding, and the supporting plate 109 and the base 1 are vertically arranged. The dust cover 110 is fixedly mounted on the base 2 for protecting the screw nut mechanism 3 to a certain extent.
The utility model discloses when using, layer board 109 can pass through bolt fixed mounting in laser beam machining machine's frame for frame 2 perpendicular to laser beam machining machine's frame setting.
The processing method of the integrated laser cutting machine processing assembly comprises the following four steps:
the first processing method comprises the following steps: the processing method of the integrated laser cutting machine processing assembly comprises the following processing steps:
the laser cutting method comprises the following steps:
s1, a first rodless cylinder drives a first rotating motor base to move upwards to drive a first rotating motor, a first chuck and a drill bit to ascend to a set upper limit position;
s2, when the laser cutting head reaches the position above the corresponding cutting position, the feed motor rotates to drive the screw rod nut mechanism to work, the sliding plate and the container plate are driven to move downwards, the laser cutting head arranged on the container plate moves downwards, and when the laser cutting head moves in place, the laser cutting head emits laser to cut and process a workpiece on the laser cutting machine;
s3, after the laser cutting processing is finished, the feeding motor rotates to drive the screw rod nut mechanism to work, and the sliding plate and the container plate are driven to move upwards for resetting;
II, drilling, which specifically comprises the following steps:
s1, a first rodless cylinder drives a first rotating motor base to move downwards to drive a first rotating motor, a first chuck and a drill bit to descend to a set lower limit position, and the position of the drill bit is lower than that of a laser cutting head;
s2, when the drill bit reaches the position above the corresponding drilling machining position, the feeding motor rotates to drive the screw rod nut mechanism to work to drive the sliding plate and the container plate to move downwards, and the first rodless cylinder, the first rotating motor base, the first chuck and the drill bit move downwards along with the downward movement; meanwhile, the first rotating motor rotates to drive the first chuck and the drill bit to rotate, and the workpiece on the laser cutting machine is drilled or hot-melted.
The second processing method comprises the following steps: the processing method of the integrated laser cutting machine processing assembly comprises the following processing steps:
the laser cutting method comprises the following steps:
s1, a first rodless cylinder drives a first rotating motor base to move upwards to drive a first rotating motor, a first chuck and a drill bit to ascend to a set upper limit position;
s2, when the laser cutting head reaches the position above the corresponding cutting position, the feed motor rotates to drive the screw rod nut mechanism to work, the sliding plate and the container plate are driven to move downwards, the laser cutting head arranged on the container plate moves downwards, and when the laser cutting head moves in place, the laser cutting head emits laser to cut and process a workpiece on the laser cutting machine;
s3, after the laser cutting processing is finished, the feeding motor rotates to drive the screw rod nut mechanism to work, and the sliding plate and the container plate are driven to move upwards for resetting;
II, drilling, which specifically comprises the following steps:
s1, enabling a laser cutting head to reach a position above a corresponding drilling machining position, enabling a feeding motor to rotate, driving a screw rod nut mechanism to work, driving a sliding plate and a container plate to move downwards, enabling the laser cutting head arranged on the container plate to move downwards, enabling the laser cutting head to emit laser after the laser cutting head moves in place, performing laser pre-drilling machining on a workpiece on the laser cutting machine, and forming a through hole with the diameter equivalent to that of a laser spot on the workpiece, wherein the diameter of the laser spot is about 1 mm;
s2, the feed motor rotates to drive the screw rod nut mechanism to work, and the sliding plate and the container plate are driven to move upwards for resetting;
s3, driving a first rotating motor base to move downwards by a first rodless cylinder, driving a first rotating motor, a first chuck and a drill bit to descend to a set lower limit position, and enabling the position of the drill bit to be lower than that of a laser cutting head;
s4, enabling the drill bit to reach the position above the corresponding drilling machining position and enabling the drill bit to be aligned with the through hole of the workpiece; the feeding motor rotates to drive the screw rod nut mechanism to work to drive the sliding plate and the container plate to move downwards, and the first rodless cylinder, the first rotating motor base, the first chuck and the drill bit move downwards; meanwhile, the first rotating motor rotates to drive the first chuck and the drill bit to rotate, and hole expanding processing or hot-melting hole processing is carried out on the punched hole of the workpiece.
The third processing method comprises the following steps: the processing method of the integrated laser cutting machine processing assembly comprises the following processing steps:
the laser cutting method comprises the following steps:
s1, a first rodless cylinder drives a first rotating motor base to move upwards to drive a first rotating motor, a first chuck and a drill bit to ascend to a set upper limit position; meanwhile, the second rodless cylinder drives the second rotating motor base to move upwards to drive the second rotating motor, the second chuck and the screw tap to ascend to a set upper limit position;
s2, when the laser cutting head reaches the position above the corresponding cutting position, the feed motor rotates to drive the screw rod nut mechanism to work, the sliding plate and the container plate are driven to move downwards, the laser cutting head arranged on the container plate moves downwards, and when the laser cutting head moves in place, the laser cutting head emits laser to cut and process a workpiece on the laser cutting machine;
s3, after the laser cutting processing is finished, the feeding motor rotates to drive the screw rod nut mechanism to work, and the sliding plate and the container plate are driven to move upwards for resetting;
II, drilling, which specifically comprises the following steps:
s1, a first rodless cylinder drives a first rotating motor base to move downwards to drive a first rotating motor, a first chuck and a drill bit to descend to a set lower limit position, and the position of the drill bit is lower than that of a laser cutting head;
s2, when the drill bit reaches the position above the corresponding drilling machining position, the feeding motor rotates to drive the screw rod nut mechanism to work to drive the sliding plate and the container plate to move downwards, and the first rodless cylinder, the first rotating motor base, the first chuck and the drill bit move downwards along with the downward movement; meanwhile, the first rotating motor rotates to drive the first chuck and the drill bit to rotate, and the workpiece on the laser cutting machine is drilled or hot-melted;
s3, driving a first rotating motor to move upwards by a first rodless cylinder, and driving the first rotating motor, a first chuck and a drill bit to ascend to a set upper limit position for resetting; the feeding motor rotates to drive the screw rod nut mechanism to work, and the sliding plate and the container plate are driven to move upwards for resetting;
and III, tapping, specifically comprising:
s1, a second rodless cylinder drives a second rotating motor base to move downwards to drive a second rotating motor, a second chuck and a screw tap to descend to a set lower limit position, so that the position of the screw tap is lower than that of a laser cutting head;
s2, enabling the screw tap to reach the position above the corresponding tapping machining position, and enabling the screw tap to be aligned to a drilled hole in the workpiece; the feeding motor rotates to drive the screw rod nut mechanism to work to drive the sliding plate and the container plate to move downwards, and the second rodless cylinder, the second rotating motor base, the second chuck and the screw tap move downwards; meanwhile, the second rotating motor rotates to drive the second chuck and the screw tap to rotate, and tapping machining is performed on the drilled hole in the workpiece.
The fourth processing method comprises the following steps: the processing method of the integrated laser cutting machine processing assembly comprises the following processing steps:
the laser cutting method comprises the following steps:
s1, a first rodless cylinder drives a first rotating motor base to move upwards to drive a first rotating motor, a first chuck and a drill bit to ascend to a set upper limit position; meanwhile, the second rodless cylinder drives the second rotating motor base to move upwards to drive the second rotating motor, the second chuck and the screw tap to ascend to a set upper limit position;
s2, when the laser cutting head reaches the position above the corresponding cutting position, the feed motor rotates to drive the screw rod nut mechanism to work, the sliding plate and the container plate are driven to move downwards, the laser cutting head arranged on the container plate moves downwards, and when the laser cutting head moves in place, the laser cutting head emits laser to cut and process a workpiece on the laser cutting machine;
s3, after the laser cutting processing is finished, the feeding motor rotates to drive the screw rod nut mechanism to work, and the sliding plate and the container plate are driven to move upwards for resetting;
II, drilling, which specifically comprises the following steps:
s1, enabling a laser cutting head to reach a position above a corresponding drilling machining position, enabling a feeding motor to rotate, driving a screw rod nut mechanism to work, driving a sliding plate and a container plate to move downwards, enabling the laser cutting head arranged on the container plate to move downwards, enabling the laser cutting head to emit laser after the laser cutting head moves in place, performing laser pre-drilling machining on a workpiece on the laser cutting machine, and forming a through hole with the diameter equivalent to that of a laser spot on the workpiece, wherein the diameter of the laser spot is about 1 mm;
s2, the feed motor rotates to drive the screw rod nut mechanism to work, and the sliding plate and the container plate are driven to move upwards for resetting;
s3, driving a first rotating motor base to move downwards by a first rodless cylinder, driving a first rotating motor, a first chuck and a drill bit to descend to a set lower limit position, and enabling the position of the drill bit to be lower than that of a laser cutting head;
s4, enabling the drill bit to reach the position above the corresponding drilling machining position and enabling the drill bit to be aligned with the through hole of the workpiece; the feeding motor rotates to drive the screw rod nut mechanism to work to drive the sliding plate and the container plate to move downwards, and the first rodless cylinder, the first rotating motor base, the first chuck and the drill bit move downwards; meanwhile, the first rotating motor rotates to drive the first chuck and the drill bit to rotate, and the through hole of the workpiece is subjected to reaming processing or hot-melt hole processing;
s5, driving a first rotating motor to move upwards by a first rodless cylinder, and driving the first rotating motor, a first chuck and a drill bit to ascend to a set upper limit position for resetting; the feeding motor rotates to drive the screw rod nut mechanism to work, and the sliding plate and the container plate are driven to move upwards for resetting;
and III, tapping, specifically comprising:
s1, a first rodless cylinder drives a first rotating motor base to move upwards to drive a first rotating motor, a first chuck and a drill bit to ascend to a set upper limit position; meanwhile, the second rodless cylinder drives the second rotating motor base to move downwards to drive the second rotating motor, the second chuck and the screw tap to descend to a set lower limit position, so that the position of the screw tap is lower than that of the laser cutting head;
s2, enabling the screw tap to reach the position above the corresponding tapping machining position, and enabling the screw tap to be aligned to a drilled hole in the workpiece; the feeding motor rotates to drive the screw rod nut mechanism to work to drive the sliding plate and the container plate to move downwards, and the second rodless cylinder, the second rotating motor base, the second chuck and the screw tap move downwards; meanwhile, the second rotating motor rotates to drive the second chuck and the screw tap to rotate, and tapping machining is performed on the drilled hole in the workpiece.
What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.
Claims (6)
1. The utility model provides an integrated form laser cutting machine processing subassembly which characterized in that: including feeding motor, frame, lead screw nut mechanism, slide, integrated board, laser cutting head, first no pole cylinder, first rotating electrical machines seat, first chuck and drill bit, lead screw nut mechanism installs on the frame, the feeding motor be connected with lead screw nut mechanism, the slide is installed on lead screw nut mechanism, integrated board is installed on the slide, first no pole cylinder and laser cutting head are all installed on integrated board, first rotating electrical machines seat is connected with first no pole cylinder, on the first rotating electrical machines seat of first rotating electrical machines installation to be connected with first chuck, first chuck can dismantle with the drill bit and be connected.
2. The integrated laser cutting machine processing assembly of claim 1, wherein: the screw rod and nut mechanism comprises a screw rod and a nut, the screw rod is arranged on the base, the feeding motor is connected with the screw rod, the nut is sleeved on the screw rod through threads, and the sliding plate is arranged on the nut; the integrated laser cutting machine machining assembly further comprises a guide rail and a sliding block, the guide rail is installed on the base and is parallel to the screw rod, the sliding block is installed on the guide rail, and the sliding plate is connected with the sliding block.
3. The integrated laser cutting machine processing assembly of claim 1, wherein: the laser cutting head and the drill bit are arranged in parallel.
4. The integrated laser cutting machine processing assembly of claim 1, wherein: the dustproof cover is arranged on the base, and the dustproof cover is arranged on the base; the dustproof cover is arranged on the base and used for protecting the screw rod nut mechanism from dust.
5. The integrated laser cutting machine processing assembly of claim 1, wherein: the screw tap is characterized by further comprising a second rodless cylinder, a second rotating motor base, a second chuck and a screw tap, wherein the second rodless cylinder is installed on the assembling plate, the second rotating motor base is connected with the second rodless cylinder, the second rotating motor is installed on the second rotating motor base and is connected with the second chuck, and the screw tap is detachably connected with the second chuck.
6. The integrated laser cutting machine processing assembly of claim 5, wherein: the laser cutting head, the drill bit and the screw tap are arranged in parallel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920787838.8U CN209954201U (en) | 2019-05-29 | 2019-05-29 | Integrated laser cutting machine machining assembly |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920787838.8U CN209954201U (en) | 2019-05-29 | 2019-05-29 | Integrated laser cutting machine machining assembly |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209954201U true CN209954201U (en) | 2020-01-17 |
Family
ID=69247190
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201920787838.8U Active CN209954201U (en) | 2019-05-29 | 2019-05-29 | Integrated laser cutting machine machining assembly |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209954201U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110091179A (en) * | 2019-05-29 | 2019-08-06 | 东莞市力星激光科技有限公司 | A kind of integrated laser cutting machine processing assembly and processing method |
-
2019
- 2019-05-29 CN CN201920787838.8U patent/CN209954201U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110091179A (en) * | 2019-05-29 | 2019-08-06 | 东莞市力星激光科技有限公司 | A kind of integrated laser cutting machine processing assembly and processing method |
CN110091179B (en) * | 2019-05-29 | 2024-09-24 | 东莞市力星激光科技有限公司 | Integrated laser cutting machine machining assembly and machining method |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102935591B (en) | A kind of complex numerical control machine tool | |
CN110091179B (en) | Integrated laser cutting machine machining assembly and machining method | |
CN110539015B (en) | Special drilling machine with multiple combination drill bits and working method thereof | |
CN103801774A (en) | Numerical control gantry type multi-head linear cutting machine tool | |
CN101905336A (en) | Drilling machine used for drilling on lockset | |
CN104907603A (en) | Shaft processing device | |
CN201728390U (en) | Drilling machine for drilling holes on locks | |
CN203141100U (en) | Combined type numerical control machine tool | |
CN202317104U (en) | Centre drilling machine tool | |
CN209954201U (en) | Integrated laser cutting machine machining assembly | |
CN202517335U (en) | Up and down rotational type multifunctional drilling machine | |
CN202162413U (en) | Numerical control high-speed hole puncher | |
CN111331371A (en) | Multifunctional novel deep hole drilling machine | |
CN205996532U (en) | A kind of tool magazine lathe | |
CN210208821U (en) | Double housing planer capable of bidirectional planing | |
CN203765120U (en) | Numerical control gantry type wire cut electrical discharge machine | |
CN107962394B (en) | Multifunctional drilling and tapping milling machine and operation method thereof | |
CN214922196U (en) | Multi-station drilling and tapping integrated machine | |
CN210524422U (en) | All-in-one is attacked to brill for laser pipe cutting machine | |
CN204603363U (en) | A kind of vertical miniature numerical control drilling machine | |
CN204700345U (en) | A kind of axis machining apparatus | |
CN211028155U (en) | Automatic drilling machine for aluminum template | |
CN101829820A (en) | High-speed wire electrical discharge machine tool driven by linear stepped motors | |
CN202861450U (en) | Automatic drilling machine | |
CN207914632U (en) | A kind of multi spindle drilling machine being equipped with workpiece automatic fixer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |