CN210937172U - Manual numerical control lathe for machining connecting elements - Google Patents
Manual numerical control lathe for machining connecting elements Download PDFInfo
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- CN210937172U CN210937172U CN201922123821.5U CN201922123821U CN210937172U CN 210937172 U CN210937172 U CN 210937172U CN 201922123821 U CN201922123821 U CN 201922123821U CN 210937172 U CN210937172 U CN 210937172U
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Abstract
The utility model discloses a manual numerical control lathe for connecting element processing, including sliding door and casing, the sliding door is installed to the front end of casing, be provided with the control cabinet on the casing front end outer wall on sliding door right side, be provided with the fixing base on the casing front end left side inner wall of sliding door rear side, be provided with the light on the casing upper end inner wall of fixing base upside, the casing lower extreme inner wall upside of light downside is provided with the slide bar, the set casing has been cup jointed to the upper end outside of slide bar, through install a piece collection device additional in the inside of lathe, install connecting plate and the flexible cover in the set casing upper segment, can with the part add the piece that produces inside the upper end that falls inside connecting plate and flexible cover, clear up like this and get up will be convenient many, only need with connecting plate and flexible cover take off with the piece of inside can, make this novel piece collection department for connecting element processing's manual numerical control lathe uses after the piece collection department The principle becomes very simple.
Description
Technical Field
The utility model belongs to the technical field of the numerical control lathe is relevant, concretely relates to manual numerical control lathe for connecting element processing.
Background
The numerical control lathe is one of the numerical control machines which are widely used at present, is mainly used for cutting and processing inner and outer cylindrical surfaces of shaft parts or disc parts, inner and outer conical surfaces with any taper angles, inner and outer curved surfaces of complex rotation, cylinders, conical threads and the like, and can perform grooving, drilling, reaming, boring and the like.
The existing manual numerical control lathe technology for processing the connecting element has the following problems: a large amount of parts can be chipped and a lot of debris is produced when the lathe is used for machining the parts, the debris is accumulated in the lathe and needs to be cleaned in time, and the debris is inconvenient to clean due to the fact that the debris is relatively fragmented.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a manual numerical control lathe for connecting element processing to can produce the inconvenient problem of clearing up of a large amount of pieces when solving the lathe work part that proposes in the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: a manual numerical control lathe for processing a connecting element comprises a sliding door and a shell, wherein the sliding door is installed at the front end of the shell, a control console is arranged on the outer wall of the front end of the shell on the right side of the sliding door, a fixed seat is arranged on the inner wall of the left side of the front end of the shell on the rear side of the sliding door, a lighting lamp is arranged on the inner wall of the upper end of the shell on the upper side of the fixed seat, a sliding rod is arranged on the upper side of the inner wall of the lower end of the shell on the lower side of the lighting lamp, a fixed shell is sleeved outside the upper end of the sliding rod, a tool rest table is arranged on the outer wall of the upper end of the fixed shell on the rear side of the tool rest table, a cooling pipe is arranged on the outer wall of the upper end of the fixed shell on the left side of the, the connecting plate is fixedly connected with the fixing shell through the fixing rod, a telescopic sleeve is sleeved outside the left end of the connecting plate, a fixing groove is formed in the outer wall of the front end of the telescopic sleeve, a connecting block is arranged inside the fixing groove, and the telescopic sleeve and the connecting plate are fixedly connected through the connecting block.
Preferably, a glass plate is arranged inside the front end of the sliding door, and the sliding door can slide left and right on the outer wall of the front end of the shell.
Preferably, the telescopic sleeve can move left and right on the outer wall of the lower end of the connecting plate through the connecting block, and the outer wall of the lower end of the telescopic sleeve can be completely attached to the outer wall of the upper end of the fixed shell.
Preferably, the outer wall of the upper end of the cutter holder platform is provided with a counterpoint hole, and different cutter heads are installed and replaced on the cutter holder platform through the counterpoint hole.
Preferably, the outer walls of the front end and the rear end of the connecting plate are respectively provided with a connecting sleeve, and the two connecting sleeves are fixedly connected with the fixed shell through a fixed rod.
Preferably, the inside stopper that is provided with of right-hand member of fixing base, the processing component of different diameters is fixed through the position of adjusting the stopper to the fixing base.
Compared with the prior art, the utility model provides a manual numerical control lathe for connecting element processing possesses following beneficial effect:
the utility model discloses an install a piece collection device in the inside of lathe, install connecting plate and the expansion sleeve in the fixed shell upper segment, can drop the piece that part processing produced in inside the upper end of connecting plate and expansion sleeve, the clearance will be more convenient like this, only need to take off connecting plate and expansion sleeve and pour out the piece of inside, when using, cup joint the fixed slot outside the dead lever through the adapter sleeve, pull out the expansion sleeve from the left end of fixed slot left side through the connecting block, fix the cutter on the tool rest platform and carry out the smear metal to the part, the piece that produces falls in the upper end inside expansion sleeve and connecting plate, pile up a certain amount after taking off the cleaning up through the dead lever with the connecting plate, and cup joint on the dead lever again and use can, mobilizable expansion sleeve can be according to the removal adjusting position of fixed shell, can not extrude the expansion sleeve because the left end inner wall distance of fixed shell and casing is too close, the telescopic sleeve can be pulled out from the left end of the connecting plate again to be used when the fixed shell returns to a far position again, and the chip collecting device enables the chip collecting and processing after the novel manual numerical control lathe for connecting element machining is used to be very simple.
Drawings
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description, do not constitute a limitation of the invention, in which:
fig. 1 is a schematic structural view of a front side of a manual numerically controlled lathe for machining a connecting element according to the present invention;
fig. 2 is a schematic front structural view of the debris collecting device according to the present invention;
fig. 3 is a schematic structural view of a front section of the debris collecting device according to the present invention;
in the figure: 1. a sliding door; 2. a fixed seat; 3. a housing; 4. an illuminating lamp; 5. a cooling tube; 6. a console; 7. a tool holder table; 8. a stationary case; 9. a slide bar; 10. a debris collection device; 11. connecting sleeves; 12. fixing the rod; 13. a connecting plate; 14. a telescopic sleeve; 15. fixing grooves; 16. and (4) connecting the blocks.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-3, the present invention provides a technical solution: a manual numerical control lathe for processing connecting elements comprises a sliding door 1 and a shell 3, wherein the sliding door 1 is installed at the front end of the shell 3, a glass plate is arranged inside the front end of the sliding door 1, the sliding door 1 can slide left and right on the outer wall of the front end of the shell 3, when the sliding door 1 is closed for use, the internal processing process of the lathe can be seen through the glass plate at the front end of the sliding door 1, a control console 6 is arranged on the outer wall of the front end of the shell 3 on the right side of the sliding door 1, a fixed seat 2 is arranged on the inner wall of the left side of the front end of the shell 3 on the rear side of the sliding door 1, a limit block is arranged inside the right end of the fixed seat 2, processing elements with different diameters are fixed by adjusting the position of the limit block, the limit block is used for fixing the right end of a part on the fixed seat 2, a lamp 4, a fixed shell 8 is sleeved outside the upper end of a sliding rod 9, a tool post 7 is arranged on the outer wall of the upper end of the fixed shell 8, a counterpoint hole is formed in the outer wall of the upper end of the tool post 7, different tool bits are installed and replaced through the counterpoint hole by the tool post 7, different parts are processed by replacing different tool bits, a cooling pipe 5 is arranged on the outer wall of the upper end of the fixed shell 8 at the rear side of the tool post 7, a debris collecting device 10 is arranged on the outer wall of the upper end of the fixed shell 8 at the left side of the tool post 7, a connecting plate 13 is arranged on the debris collecting device 10, connecting sleeves 11 are arranged on the outer walls of the front end and the rear end of the connecting plate 13, the two connecting sleeves 11 are fixedly connected with the fixed shell 8 through fixing rods 12, the position of the connecting plate 13 can be more firmly fixed through the two connecting sleeves 11, the lower extreme outer wall of dead lever 12 and the upper end outer wall fixed connection of set casing 8, connecting plate 13 passes through dead lever 12 and 8 fixed connection of set casing, telescopic sleeve 14 has been cup jointed to the left end outside of connecting plate 13, telescopic sleeve 14's front end outer wall inside is provided with fixed slot 15, fixed slot 15's inside is provided with connecting block 16, telescopic sleeve 14 passes through connecting block 16 and can control about on connecting plate 13's lower extreme outer wall, telescopic sleeve 14's lower extreme outer wall can laminate completely with the upper end outer wall of set casing 8, telescopic sleeve 14 that can remove prevents that set casing 8 is when removing near 3 left side inner walls of casing, telescopic sleeve 14 can be extrudeed badly with the contact of casing 3, telescopic sleeve 14 and connecting plate 13 pass through connecting block 16 fixed connection.
The utility model discloses a theory of operation and use flow: after the utility model is installed, the numerical control lathe processes a series of information recorded by an input device in a digital and character coding mode through an internal computer, and sends instructions to a machine tool main shaft and feeding execution mechanisms through a servo system and a programmable controller, the machine tool main body processes various actions required by the workpiece according to the instructions and under the coordination of a detection feedback device, such as the requirements of the movement track, the displacement and the feeding speed of a cutter relative to the workpiece, and the like, so as to realize automatic control, thereby completing the processing of the workpiece, when in use, the fixed groove 15 is sleeved outside the fixed rod 12 through the connecting sleeve 11, the telescopic sleeve 14 is pulled out leftwards from the left end of the fixed groove 15 through the connecting block 16, the cutter is fixed on the cutter holder 7 to scrap the part, and the generated scraps fall inside the upper ends of the telescopic sleeve 14 and the connecting plate 13, after a certain amount of the connecting plates 13 are stacked, the connecting plates are taken down through the fixing rods 12 and cleaned up, and the connecting plates are sleeved on the fixing rods 12 again for use.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. A manual numerically controlled lathe for machining connecting elements, comprising a sliding door (1) and a housing (3), characterized in that: the front end of the shell (3) is provided with a sliding door (1), the outer wall of the front end of the shell (3) on the right side of the sliding door (1) is provided with a control console (6), the inner wall of the left side of the front end of the shell (3) on the rear side of the sliding door (1) is provided with a fixed seat (2), the inner wall of the upper end of the shell (3) on the upper side of the fixed seat (2) is provided with a lighting lamp (4), the upper side of the inner wall of the lower end of the shell (3) on the lower side of the lighting lamp (4) is provided with a sliding rod (9), the outer part of the upper end of the sliding rod (9) is sleeved with a fixed shell (8), the outer wall of the upper end of the fixed shell (8) is provided with a knife rest (7), the outer wall of the upper end of the fixed shell (8) on the rear side of the knife rest (7) is provided with a cooling pipe, be provided with adapter sleeve (11) on the front end right side outer wall of connecting plate (13), dead lever (12) have been cup jointed to the inside of adapter sleeve (11), the upper end outer wall fixed connection of the lower extreme outer wall of dead lever (12) and set casing (8), dead lever (12) and set casing (8) fixed connection are passed through in connecting plate (13), telescope tube (14) have been cup jointed to the left end outside of connecting plate (13), the inside fixed slot (15) that is provided with of the front end outer wall of telescope tube (14), the inside of fixed slot (15) is provided with connecting block (16), telescope tube (14) and connecting plate (13) are through connecting block (16) fixed connection.
2. A manual numerically controlled lathe for machining connecting elements as claimed in claim 1, wherein: the glass plate is arranged inside the front end of the sliding door (1), and the sliding door (1) can slide left and right on the outer wall of the front end of the shell (3).
3. A manual numerically controlled lathe for machining connecting elements as claimed in claim 1, wherein: the telescopic sleeve (14) can move left and right on the outer wall of the lower end of the connecting plate (13) through the connecting block (16), and the outer wall of the lower end of the telescopic sleeve (14) can be completely attached to the outer wall of the upper end of the fixed shell (8).
4. A manual numerically controlled lathe for machining connecting elements as claimed in claim 1, wherein: the outer wall of the upper end of the cutter holder platform (7) is provided with alignment holes, and different cutter bits are installed and replaced on the cutter holder platform (7) through the alignment holes.
5. A manual numerically controlled lathe for machining connecting elements as claimed in claim 1, wherein: connecting sleeves (11) are arranged on the outer walls of the front end and the rear end of the connecting plate (13), and the two connecting sleeves (11) are fixedly connected with the fixed shell (8) through fixed rods (12).
6. A manual numerically controlled lathe for machining connecting elements as claimed in claim 1, wherein: the processing device is characterized in that a limiting block is arranged inside the right end of the fixing seat (2), and the fixing seat (2) fixes processing elements with different diameters by adjusting the position of the limiting block.
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CN201922123821.5U CN210937172U (en) | 2019-12-02 | 2019-12-02 | Manual numerical control lathe for machining connecting elements |
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CN201922123821.5U CN210937172U (en) | 2019-12-02 | 2019-12-02 | Manual numerical control lathe for machining connecting elements |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111843592A (en) * | 2020-07-25 | 2020-10-30 | 广州优易机械科技有限公司 | Compound feed type numerically controlled lathe |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111843592A (en) * | 2020-07-25 | 2020-10-30 | 广州优易机械科技有限公司 | Compound feed type numerically controlled lathe |
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