CN216227126U

CN216227126U - Numerical control high-speed engraving and milling machine

Info

Publication number: CN216227126U
Application number: CN202122802480.1U
Authority: CN
Inventors: 汪贤贵
Original assignee: Dongguan Guanhao Machinery Co ltd
Current assignee: Dongguan Guanhao Machinery Co ltd
Priority date: 2021-11-16
Filing date: 2021-11-16
Publication date: 2022-04-08
Anticipated expiration: 2031-11-16

Abstract

The utility model discloses a numerical control high-speed engraving and milling machine, which comprises a machine table and an engraving and milling mechanism fixedly arranged on the machine table, wherein a cooling blowing nozzle is fixedly arranged on one side of an engraving and milling cutter on a Z-axis moving table of the engraving and milling mechanism, a cold air box is fixedly arranged on the machine table, a plurality of groups of air inlets are arranged on the cold air box, a semiconductor refrigerating device is fixedly arranged on the cold air box, a high-pressure air pump is fixedly connected on a engraving and milling machine frame, the air inlet of the high-pressure air pump is connected with the cold air box through a first pipeline, the air outlet of the high-pressure air pump is connected with the cooling blowing nozzle through a second pipeline, one side of the Z-axis motion table, which is positioned on the carving milling cutter, is fixedly provided with a dust hood, the machine table is fixedly provided with a dust collection box, the carving milling mechanism is fixedly provided with an exhaust fan, an air outlet of the exhaust fan is connected with the dust collection box through a third pipeline, and an air inlet of the exhaust fan is connected with the dust hood through a fourth pipeline. The utility model relates to the technical field of engraving and milling machines, which has the advantages of saving water resources and facilitating chip treatment.

Description

Numerical control high-speed engraving and milling machine

Technical Field

The utility model relates to the technical field of engraving and milling machines, in particular to a numerical control high-speed engraving and milling machine.

Background

The engraving and milling machine is one kind of numerically controlled machine tool. Engraving and milling machines are generally considered to be numerically controlled milling machines that use small tools, high power and high speed spindle motors. Carving mills the machine when carrying out the during operation, and carving milling cutter can produce a large amount of heats because of fast-speed and machined part collision, and can produce the piece, consequently need cool down and clastic processing.

For cooling the carving milling cutter and handling the piece among the prior art, generally all wash the cooling to the carving milling cutter through high-pressure water pump pumping water, also wash out the piece simultaneously, and such mode needs a large amount of water to make the big waste of water resource source.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide the numerical control high-speed engraving and milling machine which can save water resources and is convenient for chip treatment.

The technical scheme adopted by the utility model for realizing the purpose is as follows: a numerical control high-speed engraving and milling machine comprises a machine table and an engraving and milling mechanism fixedly installed on the machine table, wherein the engraving and milling mechanism comprises an engraving and milling rack, a Y-axis motion mechanism, an X-axis motion mechanism and a Z-axis motion mechanism;

the cutting tool mechanism comprises a driving motor and a carving and milling cutter in power connection with the driving motor, a cooling blowing nozzle is fixedly mounted on one side, located on the carving and milling cutter, of the Z-axis moving table, a cold air box is fixedly mounted on the table and provided with a plurality of groups of air inlets, a semiconductor refrigerating device is fixedly mounted on the cold air box, a high-pressure air pump is fixedly connected to the carving and milling machine frame, the air inlets of the high-pressure air pump are connected with the cold air box through first pipelines, and the air outlets of the high-pressure air pump are connected with the cooling blowing nozzle through second pipelines;

the Z-axis motion bench is located one side fixed mounting of carving milling cutter has the suction hood, fixed mounting has the dust collection box on the board, carving mills fixed mounting has the air exhauster on the mechanism, the air outlet of air exhauster with through third pipe connection between the dust collection box, the air intake of air exhauster with the suction hood passes through fourth pipe connection.

Y axle motion includes Y axle slip table, Y axle motion platform, Y axle screw and Y axle motor, it is two sets of to carve the fixedly connected with that is parallel to each other on the bottom surface of milling the frame Y axle slip table, it is two sets of sliding connection has on the Y axle slip table Y axle motion platform, threaded connection has on the Y axle motion platform Y axle screw, it has to carve milling fixed mounting in the frame Y axle motor, Y axle motor with Y axle screw power connection.

The fixture includes centre gripping platform and centre gripping slip table, the fixedly connected with that is parallel to each other on the Y axle motion platform is two sets of centre gripping slip table, it is two sets of sliding connection has two sets ofly on the centre gripping slip table the centre gripping platform, every group equal threaded connection has a set of centre gripping lead screw on the centre gripping platform, and is two sets of the screw thread opposite direction of centre gripping lead screw is two sets of through connecting piece fixed connection between the centre gripping lead screw, fixed mounting has the centre gripping motor on the Y axle motion platform, the centre gripping motor is a set of with wherein centre gripping lead screw power is connected.

X axle motion is including X axle mounting bracket, X axle motion platform, X axle lead screw and X axle motor, X axle mounting bracket fixed mounting be in on the carving mills the frame, sliding connection has on the X axle mounting bracket the X axle motion platform, threaded connection has on the X axle motion platform the X axle lead screw, fixed mounting has on the X axle mounting bracket the X axle motor, the X axle motor with X axle lead screw power is connected.

Z axle motion still includes Z axle slip table, Z axle screw and Z axle motor, on the X axle motion platform fore-and-aft fixedly connected with is two sets of Z axle slip table is two sets of sliding connection has on the Z axle slip table Z axle motion platform, threaded connection has on the Z axle motion platform the Z axle screw rod, fixed mounting has on the X axle motion platform Z axle motor, Z axle motor with Z axle screw power is connected.

The cooling blow gun comprises an air blowing box and an air inlet pipe, wherein the air blowing box corresponds to a plurality of groups of air outlet holes formed in the surface of the carving milling cutter, the air blowing box is fixedly connected with the air inlet pipe, the air inlet pipe is fixedly connected to the Z-axis moving table, and the second pipeline is fixedly connected with the air inlet pipe.

The dust collection box is provided with a cleaning opening, and a closed door is hinged to one side of the cleaning opening.

Fixedly connected with sound-proof box on the board, the carving mills the mechanism and is located in the sound-proof box, just be provided with the operation mouth on the sound-proof box, operation mouth one side hinged joint has the closing cap, be provided with the glass observation window on the closing cap.

The utility model has the beneficial effects that: according to the utility model, the cooling blowing nozzles and the dust collecting cover are respectively arranged on the two sides of the engraving and milling cutter, so that when the engraving and milling cutter is used for engraving and milling operation, cold air in the cold air box can be pumped by the high-pressure air pump to be sprayed out of the cooling blowing nozzles, the engraving and milling cutter can be cooled, engraved and milled chips can be blown out when the cold air is blown out, and the blown chips can be sucked into the dust collecting box by the exhaust fan, so that water is not needed for cooling and processing the engraved and milling cutter, and water resources can be saved and the chip processing is facilitated.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the engraving and milling mechanism of the present invention;

FIG. 3 is a schematic view of a cooling tuyere according to the present invention.

In the figure: 1 machine table, 201 engraving and milling machine frame, 202Y-axis motion mechanism, 2021Y-axis sliding table, 2022Y-axis motion table, 2023Y-axis screw rod, 2024Y-axis motor, 203X-axis motion mechanism, 2031X-axis mounting rack, 2032X-axis motion table, 2033X-axis screw rod, 2034X-axis motor, 204Z-axis motion mechanism, 2041Z-axis sliding table, 2042Z-axis motion table, 2043Z-axis screw rod, 2044Z-axis motor, 205 clamping mechanism, 2051 clamping table, 2052 clamping sliding table, 2053 clamping screw rod and 2054 clamping motor, 206 cutter mechanism, 2061 driving motor, 2062 carving milling cutter, 207 cooling blowing nozzle, 2071 blowing box, 2072 air inlet pipe, 2073 air outlet hole, 208 cold air box, 209 air inlet, 210 semiconductor refrigerating device, 211 high-pressure air pump, 212 first pipeline, 213 second pipeline, 214 dust hood, 215 exhaust fan, 216 third pipeline, 217 fourth pipeline, 218 sealing door, 219 sound insulation box, 220 sealing cover and 221 dust collection box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, a numerical control high-speed engraving and milling machine includes a machine table 1 and an engraving and milling mechanism fixedly mounted on the machine table 1;

the engraving and milling mechanism comprises an engraving and milling rack 201, a Y-axis motion mechanism 202, an X-axis motion mechanism 203 and a Z-axis motion mechanism 204, the engraving and milling rack 201 is fixedly connected to the top surface of the machine table 1, the Y-axis motion mechanism 202 comprises Y-axis sliding tables 2021, Y-axis motion tables 2022, Y-axis lead screws 2023 and Y-axis motors 2024, two groups of Y-axis sliding tables 2021 are fixedly connected to the bottom surface of the engraving and milling rack 201 in parallel, the Y-axis motion tables 2022 are connected to the two groups of Y-axis sliding tables 2021 in a sliding mode, the Y-axis lead screws 2023 are connected to the Y-axis motion tables 2022 in a threaded mode, Y-axis motors 2024 are fixedly mounted on the engraving and milling rack 201, the Y-axis motors 2024 are in power connection with the Y-axis lead screws 2023, and therefore the Y-axis lead screws 2023 can be driven to rotate through the Y-axis motors 2024, and the Y-axis motion tables 2022 can linearly reciprocate along the Y-axis direction;

the Y-axis movement mechanism 202 is fixedly provided with a clamping mechanism 205, the clamping mechanism 205 comprises a clamping table 2051 and a clamping sliding table 2052, the Y-axis movement table 2022 is fixedly connected with two groups of clamping sliding tables 2052 which are parallel to each other, the two groups of clamping sliding tables 2052 are connected with two groups of clamping tables 2051 in a sliding way, each group of clamping table 2051 is connected with a group of clamping screw rods 2053 in a threaded way, and the thread directions of the two groups of clamping screw rods 2053 are opposite, the two groups of clamping screw rods 2053 are fixedly connected through a connecting piece, a clamping motor 2054 is fixedly arranged on the Y-axis motion table 2022, the clamping motor 2054 is in power connection with one group of clamping screw rods 2053, therefore, the two groups of clamping screw rods 2053 can be driven to rotate by the clamping motor 2054, and the two groups of clamping screw rods 2053 have opposite thread directions, so that the two groups of clamping tables 2051 can move linearly close to each other or move linearly away from each other, and a workpiece can be clamped and fixed by the two groups of clamping tables 2051;

an X-axis movement mechanism 203 is fixedly connected to the upper portion of the Y-axis movement mechanism 202 on the engraving and milling rack 201, the X-axis movement mechanism 203 comprises an X-axis mounting frame 2031, an X-axis movement table 2032, an X-axis lead screw 2033 and an X-axis motor 2034, the X-axis mounting frame 2031 is fixedly mounted on the engraving and milling rack 201, the X-axis mounting frame 2031 is connected with the X-axis movement table 2032 in a sliding manner, the X-axis movement table 2032 is connected with the X-axis lead screw 2033 in a threaded manner, the X-axis motor 2034 is fixedly mounted on the X-axis mounting frame 2031, and the X-axis motor 2034 is in power connection with the X-axis lead screw 3, so that the X-axis lead screw 2033 can be driven to rotate by the X-axis motor 2034, and the X-axis movement table 2032 can make reciprocating linear movement along the X-axis direction;

the X-axis movement mechanism 203 is fixedly provided with a Z-axis movement mechanism 204, the Z-axis movement mechanism 204 comprises Z-axis sliding tables 2041, a Z-axis movement table 2042, a Z-axis lead screw 2043 and a Z-axis motor 2044, the X-axis movement table 2032 is longitudinally and fixedly connected with two groups of Z-axis sliding tables 2041, the two groups of Z-axis sliding tables 2041 are slidably connected with the Z-axis movement table 2042, the Z-axis movement table 2042 is in threaded connection with the Z-axis lead screw 2043, the X-axis movement table 2032 is fixedly provided with the Z-axis motor 2044, and the Z-axis motor 2044 is in power connection with the Z-axis lead screw 2043, so that the Z-axis lead screw 2043 can be driven to rotate by the Z-axis motor 2044, and the Z-axis movement table 2042 can perform linear reciprocating movement along the Z-axis direction;

a cutter mechanism 206 is fixedly installed on the Z-axis motion table 2042, the cutter mechanism 206 includes a driving motor 2061 and an engraving and milling cutter 2062 in power connection with the driving motor 2061, so that the driving motor 2061 can drive the engraving and milling cutter 2062 to rotate stably at a high speed, a cooling blowing nozzle 207 is fixedly installed on the Z-axis motion table 2042 at one side of the engraving and milling cutter 2062, a cold air box 208 is fixedly installed on the machine table 1, a plurality of sets of air inlets 209 are arranged on the cold air box 208, a semiconductor refrigeration device 210 is fixedly installed on the cold air box 208, a high-pressure air pump 211 is fixedly connected on the engraving and milling machine frame 201, the air inlet 209 of the high-pressure air pump 211 is connected with the cold air box 208 through a first pipeline 212, the air outlet of the high-pressure air pump 211 is connected with the cooling blowing nozzle 207 through a second pipeline 213, so that air in the cold air box 208 can be rapidly refrigerated through the semiconductor refrigeration device 210, and then the cold air is pumped from the cold air box 208 to the cooling blowing nozzle 207 through the high-pressure air pump 211, so that the engraving and milling cutter 2062 can be rapidly cooled and the engraved and milled chips can be blown up;

and a dust hood 214 is fixedly installed on one side of the Z-axis moving table 2042, which is located at the engraving and milling cutter 2062, a dust box 221 is fixedly installed on the machine table 1, an exhaust fan 215 is fixedly installed on the engraving and milling mechanism, an air outlet of the exhaust fan 215 is connected with the dust box 221 through a third pipeline 216, and an air inlet of the exhaust fan 215 is connected with the dust hood 214 through a fourth pipeline 217, so that when the debris is blown, the debris can be sucked into the dust box 221 through the exhaust fan 215 and stored.

In the utility model, the cooling blow nozzle 207 comprises a blow box 2071 and an air inlet pipe 2072, a plurality of groups of air outlet holes 2073 are arranged on the surface of the blow box 2071 corresponding to the engraving and milling cutter 2062, the air inlet pipe 2072 is fixedly connected with the blow box 2071 and communicated with the interior of the blow box 2071, the air inlet pipe 2072 is fixedly connected to the Z-axis moving table 2042, and the second pipeline 213 is fixedly connected with the air inlet pipe 2072, so that cold air can enter the blow box 2071 through the air inlet pipe 2072 and then is sprayed out through the air outlet holes 2073.

Further, the dust box 221 is provided with a cleaning opening, and a closing door 218 is hinged to one side of the cleaning opening, so that collected debris can be cleaned after the closing door 218 is opened.

Further, the sound insulation box 219 is fixedly connected to the machine table 1, the engraving and milling mechanism is located in the sound insulation box 219, an operation opening is formed in the sound insulation box 219, a sealing cover 220 is hinged to one side of the operation opening, a glass observation window is formed in the sealing cover 220, and due to the arrangement of the sound insulation box 219, noise generated when the device works can be reduced, so that noise pollution is reduced.

The working principle of the utility model is as follows: during use, a workpiece is clamped and fixed through the clamping mechanism 205, then the engraving and milling operation of the engraving and milling cutter 2062 on the workpiece is realized through the work of the X-axis movement mechanism 203, the Y-axis movement mechanism 202 and the Z-axis movement mechanism 204, during engraving and milling, the semiconductor refrigeration device 210 can rapidly refrigerate air in the cold air box 208, and then the cold air is pumped from the cold air box 208 to the cooling blowing nozzle 207 through the high-pressure air pump 211 to be blown out, so that the engraving and milling cutter 2062 can be rapidly cooled, engraved and milled chips can be blown up, and the blown-up chips can be sucked into the dust collection box 221 through the dust collection cover by the exhaust fan 215.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a high-speed carving of numerical control mills machine, includes board (1) and fixed mounting carves on board (1) and mills mechanism, its characterized in that: the engraving and milling mechanism comprises an engraving and milling rack (201), a Y-axis movement mechanism (202), an X-axis movement mechanism (203) and a Z-axis movement mechanism (204), wherein the engraving and milling rack (201) is fixedly connected to the top surface of the machine table (1), the Y-axis movement mechanism (202) is fixedly connected to the engraving and milling rack (201), a clamping mechanism (205) is fixedly installed on the Y-axis movement mechanism (202), the X-axis movement mechanism (203) is fixedly installed on the engraving and milling rack (201) and positioned at the upper part of the Y-axis movement mechanism (202), the Z-axis movement mechanism (204) is fixedly installed on the X-axis movement mechanism (203), the Z-axis movement mechanism (204) comprises a Z-axis movement table (2042), and a cutter mechanism (206) is fixedly installed on the Z-axis movement table (2042);

the cutter mechanism (206) comprises a driving motor (2061) and an engraving and milling cutter (2062) in power connection with the driving motor (2061), a cooling blowing nozzle (207) is fixedly installed on one side of the engraving and milling cutter (2062) on the Z-axis moving table (2042), a cold air box (208) is fixedly installed on the machine table (1), a plurality of groups of air inlets (209) are formed in the cold air box (208), a semiconductor refrigerating device (210) is fixedly installed on the cold air box (208), a high-pressure air pump (211) is fixedly connected to the engraving and milling machine frame (201), the air inlet (209) of the high-pressure air pump (211) is connected with the cold air box (208) through a first pipeline (212), and the air outlet of the high-pressure air pump (211) is connected with the cooling blowing nozzle (207) through a second pipeline (213);

lie in on Z axle motion platform (2042) one side fixed mounting of carving milling cutter (2062) has suction hood (214), fixed mounting has dust collection box (221) on board (1), fixed mounting has air exhauster (215) on the carving mills the mechanism, the air outlet of air exhauster (215) with connect through third pipeline (216) between dust collection box (221), the air intake of air exhauster (215) with suction hood (214) are connected through fourth pipeline (217).

2. The numerical control high-speed engraving and milling machine according to claim 1, characterized in that: y axle motion (202) include Y axle slip table (2021), Y axle motion table (2022), Y axle lead screw (2023) and Y axle motor (2024), the carving mills fixedly connected with two sets of that is parallel to each other on the bottom surface of frame (201) Y axle slip table (2021), two sets of sliding connection has on Y axle slip table (2021) Y axle motion table (2022), threaded connection has on Y axle motion table (2022) Y axle lead screw (2023), fixed mounting has on the carving mills frame (201) Y axle motor (2024), Y axle motor (2024) with Y axle lead screw (2023) power connection.

3. A numerically controlled high-speed engraving and milling machine according to claim 2, characterized in that: fixture (205) is including centre gripping platform (2051) and centre gripping slip table (2052), the fixedly connected with that is parallel to each other on Y axle motion platform (2022) is two sets of centre gripping slip table (2052), two sets of sliding connection has two sets of on centre gripping slip table (2052) centre gripping platform (2051), every group equal threaded connection has a set of centre gripping lead screw (2053) on centre gripping platform (2051), and two sets of the screw thread opposite direction of centre gripping lead screw (2053), two sets of through connecting piece fixed connection between centre gripping lead screw (2053), fixed mounting has centre gripping motor (2054) on Y axle motion platform (2022), centre gripping motor (2054) is a set of wherein centre gripping lead screw (2053) power is connected.

4. The numerical control high-speed engraving and milling machine according to claim 1, characterized in that: x axle motion (203) is including X axle mounting bracket (2031), X axle motion platform (2032), X axle lead screw (2033) and X axle motor (2034), X axle mounting bracket (2031) fixed mounting be in the carving mills on the frame (201), sliding connection has on X axle mounting bracket (2031) X axle motion platform (2032), threaded connection has on X axle motion platform (2032) X axle lead screw (2033), fixed mounting is gone up in X axle mounting bracket (2031) X axle motor (2034), X axle motor (2034) with X axle lead screw (2033) power is connected.

5. The numerical control high-speed engraving and milling machine according to claim 4, characterized in that: z axle motion (204) still includes Z axle slip table (2041), Z axle lead screw (2043) and Z axle motor (2044), X axle motion table (2032) is gone up fore-and-aft fixedly connected with is two sets of Z axle slip table (2041), two sets of sliding connection has on Z axle slip table (2041) Z axle motion table (2042), threaded connection has on Z axle motion table (2042) Z axle lead screw (2043), fixed mounting has on X axle motion table (2032) Z axle motor (2044), Z axle motor (2044) with Z axle lead screw (2043) power connection.

6. The numerical control high-speed engraving and milling machine according to claim 1, characterized in that: cooling blow gun (207) is including gas blow box (2071) and intake pipe (2072), gas blow box (2071) correspond be provided with multiunit venthole (2073) on the face of carving milling cutter (2062), be connected with rather than the fixedly connected with of inside intercommunication on gas blow box (2071) intake pipe (2072), intake pipe (2072) fixed connection be in on Z axle motion platform (2042), and second pipeline (213) with intake pipe (2072) fixed connection.

7. The numerical control high-speed engraving and milling machine according to claim 1, characterized in that: a cleaning opening is formed in the dust collection box (221), and a sealing door (218) is hinged to one side of the cleaning opening.

8. The numerical control high-speed engraving and milling machine according to claim 1, characterized in that: fixedly connected with sound-proof box (219) on board (1), the carving mills the mechanism and is located in sound-proof box (219), just be provided with the operation mouth on sound-proof box (219), operation mouth one side hinged joint has closing cap (220), be provided with the glass observation window on closing cap (220).