CN117124200A

CN117124200A - Prevent digit control machine tool that waste material splashes

Info

Publication number: CN117124200A
Application number: CN202311401292.5A
Authority: CN
Inventors: 张楠; 宋杰; 丁暴雨; 乔冠; 孔浩强; 马林
Original assignee: Inner Mongolia University of Technology
Current assignee: Inner Mongolia University of Technology
Priority date: 2023-10-26
Filing date: 2023-10-26
Publication date: 2023-11-28
Anticipated expiration: 2043-10-26
Also published as: CN117124200B

Abstract

The application discloses a numerical control machine tool for preventing waste from splashing, which comprises a workbench and a machine tool, wherein a main shaft is arranged on the machine tool, a cutter is arranged on the main shaft, the cutter polishes a workpiece on the workbench, a splash-proof component is arranged outside the cutter, and the splash-proof component is arranged on the machine tool; the splash-proof assembly comprises a cover body, a lower pull ring, an iron wire net and a lower edge, wherein the cover body is connected to the lower pull ring, the lower pull ring is arranged in a sliding manner relative to the main shaft, the iron wire net is annularly arranged inside the cover body along the wall surface of the cover body, the lower edge is arranged below the cover body, the upper end of the iron wire net is hooked on the cover body, and the lower end of the iron wire net is pressed by the lower edge. The application avoids large-scale shielding, and utilizes the splash-proof component to slide and set around the cutter to perform small-scale shielding, thereby not impeding operators from observing the processing condition of the workpiece so as to facilitate the smooth grinding and polishing, and meanwhile, the splash-proof component can move along with the cutter, thereby avoiding the phenomenon that the grinding process needs to adjust the splash-proof component to drag down the processing progress for many times, and ensuring the smooth grinding and polishing.

Description

Prevent digit control machine tool that waste material splashes

Technical Field

The application relates to the technical field of grinding and polishing machine tools, in particular to a numerical control machine tool capable of preventing waste from splashing.

Background

The numerical control machine tool is short for numerical control machine tool, and is an automatic machine tool with a program control system. Most of the existing machine tools do not have protection shielding when grinding and polishing, so that scraps of waste materials splash and pollute the environment, and great threat is caused to the physical health of operators, in the polishing process, a workbench or a cutter needs to be moved, so that a small number of machine tools with protection are used for shielding the periphery of the workbench, the workpieces are completely shielded in the machine tools in a large range, the operators cannot directly and rapidly observe the processing condition of the workpieces, and therefore the processing degree cannot be judged, and the grinding and polishing are not facilitated.

Disclosure of Invention

The application aims to provide a numerical control machine tool for preventing waste from splashing, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions: the numerical control machine tool for preventing waste from splashing comprises a workbench and a machine tool, wherein a main shaft is arranged on the machine tool, a cutter is arranged on the main shaft and used for polishing a workpiece on the workbench, a splash-proof component is arranged outside the cutter, and the splash-proof component is arranged on the machine tool;

the splash-proof assembly comprises a cover body, a lower pull ring, a wire netting and a lower edge, wherein the cover body is connected to the lower pull ring, the lower pull ring is arranged in a sliding mode relative to a main shaft, the wire netting is annularly arranged inside the cover body along the wall surface of the cover body, the lower edge is arranged below the cover body, the upper end of the wire netting is hooked on the cover body, and the lower end of the wire netting is pressed by the lower edge.

Preferably, the upper end of the cover body is rotationally connected with a connecting ring, and the connecting ring is in threaded connection with the lower pull ring.

Preferably, a plurality of sockets are arranged on the cover body, L-shaped limiting grooves are arranged in the sockets, and one ends of the limiting blocks are connected in the limiting grooves in a sliding mode.

Preferably, the limiting block can be fixedly connected to the spray head, the air pipe, the magnet or the electrode.

Preferably, the cover body is hooked with the upper end of the wire netting through a plurality of hooks, the lower end of the hooks is hooked with the wire netting, the upper end of the hooks is fixedly connected with a lower pressing ring, the lower pressing ring and the hooks are in sliding connection with the cover body, one end of a hook spring is fixedly connected with the lower surface of the lower pressing ring, and the other end of the hook spring is fixed in the cover body.

Preferably, a brush is further arranged in the upper end of the cover body so as to prevent scraps from flying upwards.

Preferably, the lower pull ring upper end fixed connection two slide's lower extreme, slide upper end fixed connection slide upper plate, slide sliding connection solid fixed ring, gu fixed ring passes through the support to be fixed on the lathe, be provided with control mechanism on slide upper plate and the fixed ring.

Preferably, the control mechanism comprises a pawl and a pull-down spring, wherein a ratchet is arranged on the sliding plate and is clamped with the head of the pawl, the middle part of the pawl is hinged with the fixed ring through a torsion spring, the tail part of the pawl extends out of the fixed ring, one end of the pull-down spring is fixedly connected with the sliding plate upper plate, and the other end of the pull-down spring is fixedly connected with the fixed ring.

Preferably, the control mechanism comprises an air cylinder, wherein the air cylinder is fixed on the fixed ring, and the output end of the air cylinder is fixedly connected with the upper plate of the sliding plate.

Preferably, the convex ring is arranged at the outer side of the lower end of the cover body, two side compression rings are symmetrically arranged in the lower edge, each side compression ring is arc-shaped, one end of each side compression ring is hinged in the lower edge, the other end of each side compression ring extends out of the lower edge, one end of each side spring is fixedly connected with one end of each side spring, the other end of each side spring is fixedly connected in the lower edge, each side spring enables the two side compression rings to be close to each other, accordingly, each side compression ring is hung on the convex ring, and a plurality of balls are further arranged at the lower end of the lower edge.

Compared with the prior art, the application has the beneficial effects that: the application avoids large-scale shielding, and utilizes the splash-proof component to slide and set around the cutter to perform small-scale shielding, thereby not impeding operators from observing the processing condition of the workpiece so as to facilitate the smooth grinding and polishing, and meanwhile, the splash-proof component can move along with the cutter, thereby avoiding the phenomenon that the grinding process needs to adjust the splash-proof component to drag down the processing progress for many times, and ensuring the smooth grinding and polishing.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present application;

FIG. 2 is a schematic view of the splash guard assembly of the present application;

FIG. 3 is a schematic view of the interior of the splash guard assembly of the present application;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a partial enlarged view at B of FIG. 3;

FIG. 6 is a schematic view of the structure of the lower edge of the present application;

FIG. 7 is a schematic view of a control mechanism according to an embodiment 1 of the present application;

fig. 8 is a schematic structural view of embodiment 2 of the control mechanism of the present application.

In the figure: 1. the device comprises a workbench, 2, a machine tool, 201, a main shaft, 202, a cutter, 3, a splash-proof component, 31, a cover body, 311, a convex ring, 312, a socket, 313, a limit groove, 314, a limit block, 315, a brush, 316, a connecting ring, 317, a lower pressing ring, 318, a hook spring, 319, a hook, 32, a lower pulling ring, 321, a sliding plate, 322, a fixed ring, 323, a pawl, 324, a pull-down spring, 325, a sliding plate upper plate, 326, a cylinder, 33, a wire netting, 34, a lower edge, 341, a side pressing ring, 342, a side spring, 343, a ball, 4 and a spray head.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1: referring to fig. 1-7, in order to solve the problem that most of the existing machine tools do not have protection shielding when grinding and polishing, so that waste scraps splash and pollute the environment, and great threat is caused to the health of operators, the large-range shielding completely shields the workpiece, so that the operators cannot directly and rapidly observe the processing condition of the workpiece, and thus, the problem that the processing degree cannot be judged is solved, the large-range shielding is avoided, the splash-proof assembly is slidably arranged around the cutter to perform small-range shielding, so that the operators are not prevented from observing the processing condition of the workpiece, so that the grinding and polishing can be smoothly performed, and meanwhile, the splash-proof assembly can move along with the cutter, the phenomenon that the grinding process needs to adjust the processing progress of the splash-proof assembly for many times is avoided, and the smooth grinding and polishing is ensured, the application provides a technical scheme that: the numerical control machine tool capable of preventing waste from splashing comprises a workbench 1 and a machine tool 2, wherein a spindle 201 is arranged on the machine tool 2, a cutter 202 is arranged on the spindle 201, the cutter 202 polishes a workpiece on the workbench 1, a splash-proof component 3 is arranged outside the cutter 202, and the splash-proof component 3 is arranged on the machine tool 2; in the application, the electric elements such as the motor cylinder push rod and the like are all of the existing types. During the use, install work piece and cutter 202, install splash guard assembly 3 on lathe 2, then drop-down splash guard assembly 3 makes splash guard assembly 3 form to cutter 202 and shelters from, and splash guard assembly 3 follows cutter 202 and removes in the course of working to avoid piece waste material to splash everywhere, guaranteed operating personnel's healthy when guaranteeing the cleanness of surrounding environment, simultaneously, according to cutter 202's shape size difference, can change different splash guard assembly 3 and the adaptation thereof, avoid splash guard assembly 3 and cutter 202 to bump.

Referring to fig. 1-3 and 7, for realizing small-range shielding, the splash-proof assembly 3 comprises a cover body 31, a lower pull ring 32, a wire netting 33 and a lower edge 34, wherein the cover body 31 is connected to the lower pull ring 32, the lower pull ring 32 is arranged in a sliding manner relative to a main shaft 201, the wire netting 33 is annularly arranged inside the cover body 31 along the wall surface of the cover body 31, the lower edge 34 is arranged below the cover body 31, the upper end of the wire netting 33 is hooked on the cover body 31, and the lower end of the wire netting is compressed by the lower edge 34. When in use, a proper cover body 31 is connected to the lower pull ring 32, the upper end of the wire netting 33 is hung in the cover body 31, the lower end is wrapped along the edge of the cover body 31, then the lower edge 34 is arranged on the cover body 31, the lower end of the wire netting 33 is pressed tightly, and the wire netting 33 is arranged in the cover body 31; when the novel high-speed cleaning device is used, the wire netting 33 is used for screening the high-speed flying-out scraps and scraps, so that the scraps and scraps are prevented from directly striking the cover body 31 to damage the cover body 31, the service life of the cover body 31 is prolonged, the wire netting 33 is convenient to detach, install and replace, scraps and scraps hung on the wire netting 33 can be taken away when the wire netting 33 is detached, the burden of subsequent cleaning is lightened, and the cover body 31, the lower pull ring 32, the wire netting 33 and the lower edge 34 can be detached and replaced respectively, so that the trouble of subsequent damage and maintenance is lightened.

Referring to fig. 7, in order to enable the cover 31 to be slidably disposed on the spindle 201, the upper end of the cover 31 is rotatably connected to the connecting ring 316, and the connecting ring 316 is screwed to the lower tab 32. The upper ends of the lower pull rings 32 are fixedly connected with the lower ends of the two sliding plates 321, the upper ends of the sliding plates 321 are fixedly connected with the sliding plate upper plate 325, the sliding plates 321 are in sliding connection with the fixed ring 322, the fixed ring 322 is fixed on the machine tool 2 through a bracket, and the sliding plate upper plate 325 and the fixed ring 322 are provided with a control mechanism. The control mechanism comprises a pawl 323 and a pull-down spring 324, wherein a ratchet is arranged on the sliding plate 321, the ratchet is clamped with the head of the pawl 323, the middle part of the pawl 323 is hinged with the fixed ring 322 through a torsion spring, the tail part of the pawl extends out of the fixed ring 322, one end of the pull-down spring 324 is fixedly connected with the sliding plate upper plate 325, and the other end of the pull-down spring is fixedly connected with the fixed ring 322. When in use, the connecting ring 316 is rotated, so that the connecting ring 316 is connected with the lower pull ring 32 in a threaded manner, then the lower pull ring 32 is pulled down, the lower pull ring 32 drives the sliding plate 321 to move, the sliding plate 321 drives the sliding plate upper plate 325 to move, the sliding plate upper plate 325 compresses the pull-down spring 324, and simultaneously, the cover body 31 is stopped at a proper height through the cooperation of the pawl 323 and the ratchet teeth; when the use is completed, the pawl 323 is pressed, the pawl 323 releases the ratchet, the upper plate 325 of the sliding plate moves upwards under the action of the pull-down spring 324, and the upper plate 325 of the sliding plate drives the cover body 31 to move upwards for resetting, so that the resetting is not required to be manually pushed, and the use is convenient.

Referring to fig. 3 and 5, in order to further facilitate the collection of the scraps and the auxiliary grinding, the cover 31 is provided with a plurality of sockets 312, the sockets 312 are provided with L-shaped limiting grooves 313, and one ends of limiting blocks 314 are slidably connected in the limiting grooves 313. The limiting block 314 can be fixedly connected to the spray head 4, the air pipe, the magnet or the electrode. The spray head 4, the air pipe, the magnet or the electrode is inserted into the socket 312 and limited according to the requirement, and the spray head 4, the air pipe, the magnet or the electrode can be inserted into or contacted with the wire mesh 33 according to the requirement so as to be used; if cooling is needed, a spray head 4 is used; if the scraps are required to be collected in time, an air pipe is used; if the tiny scrap iron is required to be avoided from flying randomly, a magnet is used for adsorbing the tiny scrap iron; if dust removal is required, the electrode is used to electrostatically remove dust from the cover 31.

Referring to fig. 3-4, in order to facilitate installation of the wire netting 33, the cover 31 is hooked to an upper end of the wire netting 33 by a plurality of hooks 319, a lower end of the hooks 319 is hooked to the wire netting 33, an upper end of the hooks 319 is fixedly connected with a lower pressing ring 317, the lower pressing ring 317 and the hooks 319 are slidably connected with the cover 31, a lower surface of the lower pressing ring 317 is fixedly connected with one end of a hook spring 318, and the other end of the hook spring 318 is fixed in the cover 31. A brush 315 is also provided inside the upper end of the housing 31 to prevent the upward escape of waste debris. When the wire netting 33 is hung, the wire netting 33 is placed in the cover body 31, then the pressing ring 317 is pressed down, the plurality of hooks 319 are driven to extend while the hook springs 318 are compressed by the lower pressing ring 317, after the hooks 319 are hooked to the wire netting 33, the lower pressing ring 317 is loosened, the lower pressing ring 317 is reset under the action of the hook springs 318, the hooks 319 are driven to retract by the lower pressing ring 317, and accordingly the wire netting 33 is hooked in the cover body 31, and falling of the wire netting is avoided.

Referring to fig. 6, in order to facilitate installation of the lower edge 34, a convex ring 311 is disposed at the outer side of the lower end of the cover 31, two side compression rings 341 are symmetrically disposed in the lower edge 34, the side compression rings 341 are arc-shaped, one end of each side compression ring is hinged in the lower edge 34, the other end of each side compression ring extends out of the lower edge 34, one side of the extending end is fixedly connected with one end of a side spring 342, the other end of the side spring 342 is fixedly connected in the lower edge 34, the side springs 342 enable the two side compression rings 341 to be close to each other, so that the side compression rings are hung on the convex ring 311, and a plurality of balls 343 are further disposed at the lower end of the lower edge 34. During installation, the extending parts of the two side pressure rings 341 are shifted to be outwards opened, at the moment, the side springs 342 are compressed, then the lower edge 34 is installed at the lower end of the cover body 31, then the side pressure rings 341 are loosened, the side pressure rings 341 are reset under the action of the side springs 342, the side pressure rings 341 clamp the cover body 31 and are hung on the convex rings 311, the lower edge 34 compresses the wire netting 33, and meanwhile the cover body 31 can be assisted to move along with the cutter 202 through the balls 343 when needed.

Example 2: referring to fig. 8, in order to achieve the purpose that the cover 31 can slide up and down for adjustment according to the use requirement, the control mechanism includes an air cylinder 326, the air cylinder 326 is fixed on the fixed ring 322, and the output end thereof is fixedly connected with the upper plate 325 of the slide plate. The cylinder 326 is started, and the cylinder 326 drives the upper plate 325 of the slide plate to move up or down, so that the cover 31 moves up or down, and the cover 31 is not required to be manually moved. The remaining features are the same as in example 1.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a prevent digit control machine tool that waste material splashes, includes workstation (1), lathe (2), installs main shaft (201) on lathe (2), installs cutter (202) on main shaft (201), and cutter (202) polish the work piece on workstation (1), its characterized in that: a splash-proof component (3) is arranged outside the cutter (202), and the splash-proof component (3) is arranged on the machine tool (2);

splash-proof subassembly (3) are including cover body (31), lower pull ring (32), wire netting (33), lower edge (34), cover body (31) are connected on lower pull ring (32), and lower pull ring (32) slide setting relative main shaft (201), cover body (31) are inside to be provided with wire netting (33) along cover body (31) wall annular, install lower edge (34) under cover body (31), and wire netting (33) upper end is hooked on cover body (31), and its lower extreme is compressed tightly by lower edge (34).

2. The numerical control machine for preventing splashing of waste material according to claim 1, wherein: the upper end of the cover body (31) is rotationally connected with a connecting ring (316), and the connecting ring (316) is in threaded connection with a lower pull ring (32).

3. The numerical control machine for preventing splashing of waste material according to claim 1, wherein: a plurality of sockets (312) are arranged on the cover body (31), L-shaped limiting grooves (313) are arranged in the sockets (312), and one ends of limiting blocks (314) are connected in the limiting grooves (313) in a sliding mode.

4. A numerically controlled machine tool for preventing splashing of scrap in accordance with claim 3, wherein: the limiting block (314) can be fixedly connected to the spray head (4), the air pipe, the magnet or the electrode.

5. The numerical control machine for preventing splashing of waste material according to claim 1, wherein: the cover body (31) is hooked with the upper end of the wire netting (33) through a plurality of hooks (319), the lower end of each hook (319) is hooked with the wire netting (33), the upper end of each hook is fixedly connected with the lower pressing ring (317), the lower pressing ring (317) and the hooks (319) are in sliding connection with the cover body (31), one end of each hook spring (318) is fixedly connected with the lower surface of each lower pressing ring (317), and the other end of each hook spring (318) is fixed in the cover body (31).

6. The numerical control machine for preventing splashing of waste material according to claim 1, wherein: a brush (315) is further arranged in the upper end of the cover body (31) so as to prevent scraps and scraps from flying upwards.

7. The numerical control machine for preventing splashing of waste material according to claim 2, wherein: the upper ends of the lower pull rings (32) are fixedly connected with the lower ends of the two sliding plates (321), the upper ends of the sliding plates (321) are fixedly connected with the sliding plate upper plate (325), the sliding plates (321) are connected with the fixed ring (322) in a sliding manner, the fixed ring (322) is fixed on the machine tool (2) through a bracket, and a control mechanism is arranged on the sliding plate upper plate (325) and the fixed ring (322).

8. The numerical control machine for preventing splashing of waste material according to claim 7, wherein: the control mechanism comprises a pawl (323) and a pull-down spring (324), wherein a ratchet is arranged on the sliding plate (321), the ratchet is clamped with the head of the pawl (323), the middle of the pawl (323) is hinged with the fixed ring (322) through a torsion spring, the tail of the pawl stretches out of the fixed ring (322), one end of the pull-down spring (324) is fixedly connected with the sliding plate upper plate (325), and the other end of the pull-down spring is fixedly connected with the fixed ring (322).

9. The numerical control machine for preventing splashing of waste material according to claim 7, wherein: the control mechanism comprises an air cylinder (326), the air cylinder (326) is fixed on the fixed ring (322), and the output end of the air cylinder is fixedly connected with the upper plate (325) of the sliding plate.

10. The numerical control machine for preventing splashing of waste material according to claim 1, wherein: the cover body (31) lower extreme outside is provided with bulge loop (311), symmetrically is provided with two side clamping rings (341) in lower edge (34), side clamping rings (341) are the arc, and its one end articulates in lower edge (34), and the other end stretches out lower edge (34), and one end fixed connection side spring (342)'s of one end one side that stretches out one end, and side spring (342)'s the other end fixed connection is in lower edge (34), and side spring (342) make two side clamping rings (341) be close to each other to hang on bulge loop (311), lower edge (34) lower extreme still is provided with a plurality of balls (343).