CN216326957U - High-precision numerical control lathe - Google Patents

High-precision numerical control lathe Download PDF

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Publication number
CN216326957U
CN216326957U CN202123081370.7U CN202123081370U CN216326957U CN 216326957 U CN216326957 U CN 216326957U CN 202123081370 U CN202123081370 U CN 202123081370U CN 216326957 U CN216326957 U CN 216326957U
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lathe
filter frame
working cavity
assembly
frame
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CN202123081370.7U
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Chinese (zh)
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方展新
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Guangdong Zhaofengtai Electromechanical Technology Co ltd
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Guangdong Zhaofengtai Electromechanical Technology Co ltd
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Abstract

The utility model belongs to the technical field of numerical control machines, and particularly relates to a high-precision numerical control lathe which comprises a lathe, wherein the lathe is provided with a working cavity, the working cavity is provided with a clamping assembly, the working cavity is provided with a cutting assembly, the lathe is provided with a fan, the lathe is provided with a water pump, and the working cavity is provided with a cleaning mechanism and a cooling mechanism; the cleaning mechanism comprises a fixed frame, an air pipe and a filter frame, the fixed frame is arranged in the working cavity, the air pipe is arranged in the fixed frame, the lathe is provided with an assembly groove, the filter frame is arranged in the assembly groove, and a locking assembly is arranged between the filter frame and the lathe; the cooling mechanism comprises a liquid outlet pipe and a connecting pipe; the device passes through the cooperation of fan and a plurality of tuber pipes, can clear up the piece of working chamber bottom, makes the piece pile up inside filtering frame, need not that people are manual to collect the piece, and the people of being convenient for are to piece centralized processing to filtering frame can separate piece and cutting fluid, and the people's reuse of being convenient for cutting fluid reduces extravagantly.

Description

High-precision numerical control lathe
Technical Field
The utility model belongs to the technical field of numerical control machine tools, and particularly relates to a high-precision numerical control lathe.
Background
The numerically controlled lathe is one of the widely used numerically controlled machines at present. The numerical control machine tool 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, complex rotary inner and outer curved surfaces, cylinders, conical threads and the like, and can perform grooving, drilling, reaming, boring and the like. The machining process route, process parameters, tool motion track, displacement, cutting parameters and auxiliary functions of the part are compiled into a machining program list according to instruction codes and program formats specified by the numerical control machine, and then the content in the program list is recorded on a control medium and then input into a numerical control device of the numerical control machine, so that the machine tool is instructed to machine the part.
The back is handled to the spare part to current numerical control lathe, the piece that leaves when can remaining the cutting in the lathe, and these pieces can collect together more in the lathe operation, need in time clear up these pieces, and current numerical control lathe often is inconvenient effectively clears up these pieces for the piece is collected together too much, influences the normal use of lathe, simultaneously because the clearance is inconvenient, need consume a large amount of manpower and materials during the feasible clearance, and cleaning efficiency is low.
SUMMERY OF THE UTILITY MODEL
The purpose of the utility model is: the high-precision numerically controlled lathe is characterized in that the high-precision numerically controlled lathe is matched with the air pipes through the fan, the chips at the bottom of the working cavity can be cleaned, the chips are accumulated inside the filter frame, people do not need to collect the chips manually, people can conveniently concentrate the chips, the filter frame can separate the chips from cutting fluid, the people can conveniently recycle the cutting fluid, and waste is reduced.
In order to achieve the technical purpose, the technical scheme adopted by the utility model is as follows:
a high-precision numerically controlled lathe comprises a lathe, wherein a working cavity is formed in the upper side of the lathe, a clamping assembly is assembled on the left side inside the working cavity, a cutting assembly is assembled on the right side inside the working cavity, a fan is fixedly assembled at the upper end of the lathe, a water pump is fixedly assembled at the rear end of the lathe, and a cleaning mechanism and a cooling mechanism are arranged on the inner side of the working cavity;
the cleaning mechanism comprises a fixing frame, a plurality of air pipes and a filter frame, the fixing frame is fixedly arranged on the upper side of the right end inside the working cavity, the fixing frame is obliquely arranged leftwards and downwards, the air pipes are uniformly and fixedly arranged inside the fixing frame, the air pipes are all inclined leftwards and downwards along the fixing frame, the air pipes are all communicated with the output end of the fan, an assembly groove communicated with the working cavity is formed in the front end of the lathe, the assembly groove is positioned on the left side below the working cavity, the filter frame is slidably arranged inside the assembly groove, and a locking assembly is arranged between the filter frame and the lathe;
the cooling mechanism comprises a liquid outlet pipe and a connecting pipe, a liquid storage cavity communicated with the assembling groove is formed in the lathe, the liquid storage cavity is located below the assembling groove, the liquid storage cavity is communicated with the input end of the water pump, the liquid outlet pipe is fixedly assembled on the left side of the upper end in the working cavity, the connecting pipe is assembled at the rear of the lathe, one end of the connecting pipe is communicated with the liquid outlet pipe, and the other end of the connecting pipe is communicated with the water pump.
The locking subassembly includes locking plate and dwang, the locking plate passes through the damping pivot and rotates to be located the lathe front end, filter frame front end upper side open be equipped with locking plate assorted sector groove, the dwang is fixed to be located locking plate front end downside. The dwang is convenient for people and rotates the locking plate, rotates the locking plate downwards, makes the locking plate get into the fan-shaped inslot portion of crossing the filter frame, just so can prevent to cross the filter frame and pulled out by the maloperation, influences the normal use of lathe.
The upper end of the inner side of the filter frame is annularly provided with a guide inclined plane. The direction inclined plane that the annular set up can prevent that the piece from piling up in the marginal upper end of filter frame, can make the piece at edge slide in filter frame inside through the direction inclined plane, does benefit to the filter frame and collects the piece.
Both ends all are equipped with the gib block about the assembly tank downside, the gib block with filter frame lower extreme phase-match. The gib block can lead and support the filter frame.
The front end of the filter frame is provided with an inner buckle handle. The inner buckle handle is convenient for people to pull out the filter frame, and is convenient to use.
The input of fan is equipped with the filter screen. The filter screen can block off the dust to this operational environment of protection work intracavity portion.
The device passes through the cooperation of fan and a plurality of tuber pipes, can clear up the piece of working chamber bottom, makes the piece pile up inside filtering frame, need not that people are manual to collect the piece, and the people of being convenient for are to piece centralized processing to filtering frame can separate piece and cutting fluid, and the people's reuse of being convenient for cutting fluid reduces extravagantly.
Drawings
The utility model is further illustrated by the non-limiting examples given in the accompanying drawings;
FIG. 1 is a first schematic structural diagram of a high-precision numerically controlled lathe according to an embodiment of the present invention;
FIG. 2 is an enlarged schematic view at A in FIG. 1;
FIG. 3 is a schematic structural diagram of a high-precision numerically controlled lathe according to an embodiment of the present invention;
FIG. 4 is an enlarged schematic view at B of FIG. 3;
FIG. 5 is a schematic structural diagram III of a high-precision numerically controlled lathe according to an embodiment of the present invention;
fig. 6 is a schematic view of a partial structure of a high-precision numerically controlled lathe according to an embodiment of the present invention.
The lathe comprises a lathe 1, a working cavity 11, a fan 12, a water pump 13, a fixing frame 14, an air pipe 15, a filter frame 16, an assembling groove 161, a liquid outlet pipe 17, a liquid storage cavity 171, a connecting pipe 18, a locking plate 21, a fan-shaped groove 211, a rotating rod 22, a guide inclined surface 23, a guide strip 24, an inner buckle handle 25 and a filter screen 26.
Detailed Description
In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.
As shown in fig. 1-6, the high-precision numerically controlled lathe comprises a lathe 1, wherein a working chamber 11 is formed in the upper side of the lathe 1, a clamping assembly is assembled on the left side inside the working chamber 11, a cutting assembly is assembled on the right side inside the working chamber 11, a fan 12 is fixedly assembled at the upper end of the lathe 1, a water pump 13 is fixedly assembled at the rear end of the lathe 1, and a cleaning mechanism and a cooling mechanism are arranged inside the working chamber 11;
the cleaning mechanism comprises a fixing frame 14, a plurality of air pipes 15 and a filter frame 16, the fixing frame 14 is fixedly arranged on the upper side of the right end in the working cavity 11, the fixing frame 14 is obliquely arranged in the left-lower direction, the air pipes 15 are uniformly and fixedly arranged in the fixing frame 14, the air pipes 15 are all obliquely arranged in the left-lower direction along the fixing frame 14, the air pipes 15 are all communicated with the output end of the fan 12, an assembling groove 161 communicated with the working cavity 11 is formed in the front end of the lathe 1, the assembling groove 161 is positioned on the left side below the working cavity 11, the filter frame 16 is slidably arranged in the assembling groove 161, and a locking assembly is arranged between the filter frame 16 and the lathe 1;
cooling body includes drain pipe 17 and connecting pipe 18, and lathe 1 is inside to be seted up the stock solution chamber 171 that is linked together with assembly groove 161, and stock solution chamber 171 is located assembly groove 161 below, and stock solution chamber 171 is linked together with water pump 13's input, and drain pipe 17 is fixed to be assembled in 11 inside upper ends left sides of working chamber, and connecting pipe 18 assembles in lathe 1 rear, and connecting pipe 18 one end is linked together with drain pipe 17, and the connecting pipe 18 other end is linked together with water pump 13.
The filter frame 16 can be fixed in the lathe 1 through the locking assembly, and the filter frame 16 is prevented from being pulled out by misoperation of a user; the fan 12 can blow air into the working cavity 11 through the air pipes 15, and as the fixing frame 14 and the air pipes 15 are both obliquely arranged leftwards and downwards, when the fan 12 runs, debris at the bottom of the working cavity 11 can be blown to the filter frame 16, so that the effect of cleaning the bottom of the working cavity 11 is achieved; the filter frame 16 can store the chippings cut by the cutting assembly and the clamping assembly in a matching way, the filter frame 16 can be pulled out by sliding the filter frame 16 forwards along the assembling groove 161, the operation is simple, and the uniform treatment of the chippings by people is facilitated; the reservoir 171 is used to store cutting fluid for cooling and lubricating the cutting assembly during machining;
when the lathe 1 runs, the cutting assembly is matched with the clamping assembly to process a workpiece to be machined, at the moment, the fan 12 runs to send air into the working cavity 11 through the air pipes 15, so that the bottom of the working cavity 11 is cleaned of chips, excessive accumulation of the chips at the bottom of the working cavity 11 is prevented, normal use of the lathe 1 is influenced, the water pump 13 runs simultaneously, cutting fluid stored in the liquid storage cavity 171 can be discharged through the connecting pipe 18 and the liquid outlet pipe 17, the cutting assembly in machining is cooled and lubricated, the cutting fluid returns to the interior of the liquid storage cavity 171 again through the filter frame 16, repeated use of the cutting fluid is achieved, waste of the cutting fluid is reduced, the filter frame 16 can separate the cutting fluid from the chips, and people can process the chips conveniently;
the utility model provides a high-precision numerically controlled lathe which can clean chips at the bottom of a working cavity through the matching of a fan and a plurality of air pipes, so that the chips are accumulated in a filter frame, people do not need to collect the chips manually, the chips are convenient to intensively treat by people, the chips and cutting fluid can be separated by the filter frame, the cutting fluid is convenient to recycle by people, and the waste is reduced.
Locking subassembly includes locking plate 21 and dwang 22, and locking plate 21 passes through the damping pivot and rotates and locate lathe 1 front end, and filter frame 16 front end upper side is opened and is equipped with locking plate 21 assorted fan-shaped groove 211, and locking plate 22 front end downside is fixed to be located to dwang 22. The rotating rod 22 facilitates the people to rotate the locking plate 21 and rotate the locking plate 21 downwards, so that the locking plate 21 enters the fan-shaped groove 211 of the filter frame 16, and the filter frame 16 can be prevented from being pulled out by misoperation to influence the normal use of the lathe.
The upper end of the inner side of the filter frame 16 is annularly provided with a guide inclined plane 23. The guide slope 23 arranged annularly can prevent the debris from accumulating at the upper end of the edge of the filter frame 16, and the debris at the edge can slide into the filter frame 16 through the guide slope 23, so that the debris collection of the filter frame 16 is facilitated.
Both ends all are equipped with gib block 24 about the mounting groove 161 downside, and gib block 24 and filter frame 16 lower extreme phase-match. The guide strips 24 are capable of guiding and supporting the filter frame 16.
The front end of the filter frame 16 is provided with an inner buckle handle 25. The inner buckle handle 25 is convenient for people to pull out the filter frame 16, and is convenient to use.
The input of the fan 12 is fitted with a filter screen 26. The filter screen 26 can block dust, thereby protecting the working environment inside the working chamber 11.
The foregoing embodiments are merely illustrative of the principles of the present invention and its efficacy, and are not to be construed as limiting the utility model. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (6)

1. The utility model provides a high-accuracy numerical control lathe, includes the lathe, the working chamber has been seted up to the lathe upside, the inside left side of working chamber is equipped with clamping component, the inside right side of working chamber is equipped with cutting assembly, its characterized in that: the upper end of the lathe is fixedly provided with a fan, the rear end of the lathe is fixedly provided with a water pump, and the inner side of the working cavity is provided with a cleaning mechanism and a cooling mechanism;
the cleaning mechanism comprises a fixing frame, a plurality of air pipes and a filter frame, the fixing frame is fixedly arranged on the upper side of the right end inside the working cavity, the fixing frame is obliquely arranged leftwards and downwards, the air pipes are uniformly and fixedly arranged inside the fixing frame, the air pipes are all inclined leftwards and downwards along the fixing frame, the air pipes are all communicated with the output end of the fan, an assembly groove communicated with the working cavity is formed in the front end of the lathe, the assembly groove is positioned on the left side below the working cavity, the filter frame is slidably arranged inside the assembly groove, and a locking assembly is arranged between the filter frame and the lathe;
the cooling mechanism comprises a liquid outlet pipe and a connecting pipe, a liquid storage cavity communicated with the assembling groove is formed in the lathe, the liquid storage cavity is located below the assembling groove, the liquid storage cavity is communicated with the input end of the water pump, the liquid outlet pipe is fixedly assembled on the left side of the upper end in the working cavity, the connecting pipe is assembled at the rear of the lathe, one end of the connecting pipe is communicated with the liquid outlet pipe, and the other end of the connecting pipe is communicated with the water pump.
2. A high precision numerically controlled lathe as claimed in claim 1, wherein: the locking subassembly includes locking plate and dwang, the locking plate passes through the damping pivot and rotates to be located the lathe front end, filter frame front end upper side open be equipped with locking plate assorted sector groove, the dwang is fixed to be located locking plate front end downside.
3. A high precision numerically controlled lathe as claimed in claim 1, wherein: the upper end of the inner side of the filter frame is annularly provided with a guide inclined plane.
4. A high precision numerically controlled lathe as claimed in claim 1, wherein: both ends all are equipped with the gib block about the assembly tank downside, the gib block with filter frame lower extreme phase-match.
5. A high precision numerically controlled lathe as claimed in claim 1, wherein: the front end of the filter frame is provided with an inner buckle handle.
6. A high precision numerically controlled lathe as claimed in claim 1, wherein: the input of fan is equipped with the filter screen.
CN202123081370.7U 2021-12-09 2021-12-09 High-precision numerical control lathe Active CN216326957U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123081370.7U CN216326957U (en) 2021-12-09 2021-12-09 High-precision numerical control lathe

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123081370.7U CN216326957U (en) 2021-12-09 2021-12-09 High-precision numerical control lathe

Publications (1)

Publication Number Publication Date
CN216326957U true CN216326957U (en) 2022-04-19

Family

ID=81161735

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202123081370.7U Active CN216326957U (en) 2021-12-09 2021-12-09 High-precision numerical control lathe

Country Status (1)

Country Link
CN (1) CN216326957U (en)

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