CN213888686U - 3D glass CNC CNC engraving and milling machine - Google Patents

Abstract

The utility model discloses a belong to glass processing technology field, specifically be a 3D glass CNC CNC engraving and milling machine, it includes: the improved multifunctional cabinet comprises a cabinet body, a framework, an exhaust fan, a vacuum pump, a controller and a communication module, wherein a control panel and a display screen are installed on the external front wall of the cabinet body, the framework is installed on the external top end of the cabinet body, a frame door is installed on the front wall of the framework, a sealing layer is installed on the outer side wall of the frame door, the frame door is connected with the framework through a door lock, mechanical arm carving modules are all installed on two sides of the top end inside the framework, a glass adsorption module is installed in the middle of the bottom end inside the framework, the exhaust fan is installed on one side of the top end inside the cabinet body, and one end of the exhaust fan is connected with a dust collecting chamber. This 3D glass CNC CNC engraving and milling machine not only can make inside keep vacuum, improves the accuracy of sculpture processing, can get rid of inside dust moreover, prevents that the dust from influencing sculpture work.

Description

3D glass CNC CNC engraving and milling machine

Technical Field

The utility model relates to a glass processing technology field specifically is a 3D glass CNC CNC engraving and milling machine.

Background

At cell-phone accessory manufacturing enterprise, need use the CNC CNC engraving and milling machine. CNC CNC engraving and milling machine it is the kind of digit control machine tool. The metal engraving and milling machine can perform non-contact cutting and punching on metal or non-metal plates and pipes, and is particularly suitable for laser cutting processing of stainless steel plates, iron plates, silicon wafers, ceramic plates, titanium alloys, epoxy, A3 steel, diamond and other materials. The equipment has stable and reliable operation, good processing quality, high efficiency, simple operation and convenient maintenance. However, the existing device is often easily influenced by the flow of outside air when engraving with high precision, and the inner dust easily influences the engraving function and the engraving precision.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section and in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems that exist in the prior art of glass processing.

Therefore, the utility model aims at providing a 3D glass CNC CNC engraving and milling machine not only can make inside keep vacuum, improves the accuracy of sculpture processing, can get rid of inside dust moreover, prevents that the dust from influencing sculpture work.

For solving the technical problem, according to the utility model discloses an aspect, the utility model provides a following technical scheme:

the utility model provides a 3D glass CNC CNC engraving and milling machine, it includes: the multifunctional cabinet comprises a cabinet body, a frame body, an exhaust fan, a vacuum pump, a controller and a communication module, wherein a control panel and a display screen are installed on the front wall outside the cabinet body, the frame body is installed on the top end outside the cabinet body, a frame door is installed on the front wall of the frame body, a sealing layer is installed on the outer side wall of the frame door, the frame door is connected with the frame body through a door lock, mechanical arm carving modules are installed on two sides of the top end inside the frame body, a glass adsorption module is installed in the middle of the bottom end inside the frame body, the exhaust fan is installed on one side of the top end inside the cabinet body, one end of the exhaust fan is connected with a dust collecting chamber, a filter screen is installed inside the dust collecting chamber, a pipeline connected with one side wall of the dust collecting chamber penetrates through the cabinet body, the top end of the exhaust fan is connected with an exhaust pipe, a valve is installed on the exhaust pipe, and the vacuum pump is installed on the other side of the top end inside the cabinet body, the pipeline that the top and a lateral wall of vacuum pump are connected runs through framework and the cabinet body respectively, controller and communication module are installed to the inside bottom of the cabinet body.

As an optimal selection scheme of 3D glass CNC CNC engraving and milling machine, wherein: a handle is installed on one lateral wall of the outer portion of the cabinet body, and an anti-skidding sleeve is installed on the handle.

As an optimal selection scheme of 3D glass CNC CNC engraving and milling machine, wherein: the inside lateral wall of the cabinet body has been seted up the louvre, and is three all install the dust screen in the louvre.

As an optimal selection scheme of 3D glass CNC CNC engraving and milling machine, wherein: the bottom four corners of the cabinet body are all provided with support columns, and four the bottom of each support column is movably connected with a wheel.

As an optimal selection scheme of 3D glass CNC CNC engraving and milling machine, wherein: the front wall of the frame door is provided with a buckling groove, and the front wall of the frame door is provided with an observation window.

Compared with the prior art: through opening the frame door, to treat that glyptic glass places on the glass adsorbs the module, send control command to the controller through control panel in, controller control glass adsorbs the module and opens and adsorbs glass, close the cabinet door, open the vacuum pump simultaneously, make the inside vacuum environment that is in of framework, rethread controller control arm sculpture module carves, after the sculpture is accomplished, open the valve, pump the inside air of framework and dust through the air exhauster and send the dust collection chamber in, make the dust stop in the dust collection chamber through the filter screen, thereby get rid of the dust in the framework, this 3D glass CNC CNC engraving and milling machine, not only can make inside keep vacuum, improve the accuracy of sculpture processing, and can get rid of inside dust, prevent that the dust from influencing the sculpture work.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor. Wherein:

fig. 1 is a front view of the present invention;

fig. 2 is a cross-sectional view of the present invention.

In the figure: 100 cabinets, 110 control panels, 120 display screens, 130 handles, 131 anti-skidding sleeves, 140 heat dissipation holes, 141 dustproof nets, 150 support columns, 151 wheels, 200 frames, 210 frame doors, 211 sealing layers, 212 door locks, 213 buckle and pull grooves, 214 observation windows, 220 mechanical arm carving modules, 230 glass adsorption modules, 300 exhaust fans, 310 dust collecting chambers, 311 filter screens, 320 exhaust pipes, 321 valves, 400 vacuum pumps, 500 controllers and 600 communication modules.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways than those specifically described herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the schematic drawings, and in the detailed description of the embodiments of the present invention, for convenience of explanation, the sectional view showing the device structure will not be partially enlarged according to the general scale, and the schematic drawings are only examples, and should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The utility model provides a 3D glass CNC CNC engraving and milling machine not only can make inside keep vacuum, improves the accuracy of sculpture processing, can get rid of inside dust moreover, prevents that the dust from influencing sculpture work, please refer to and draw together figure 1 and figure 2, include: the cabinet body 100, the frame body 200, the exhaust fan 300, the vacuum pump 400, the controller 500 and the communication module 600;

referring to fig. 1 and 2 again, a control panel 110 and a display screen 120 are installed on the outer front wall of the cabinet 100, a frame 200 is installed on the outer top end of the cabinet 100, a frame door 210 is installed on the front wall of the frame 200, a sealing layer 211 is installed on the outer side wall of the frame door 210, the frame door 210 is connected to the frame 200 through a door lock 212, mechanical arm carving modules 220 are installed on both sides of the inner top end of the frame 200, a glass adsorption module 230 is installed in the middle of the inner bottom end of the frame 200, an exhaust fan 300 is installed on one side of the inner top end of the cabinet 100, one end of the exhaust fan 300 is connected to a dust collection chamber 310, a filter screen 311 is installed in the dust collection chamber 310, a pipeline connected to one side wall of the dust collection chamber 310 penetrates through the cabinet 100, the top end of the exhaust fan 300 is connected to an exhaust pipe 320, and a valve 321 is installed on the exhaust pipe 320, the vacuum pump 400 is installed on the other side of the top end of the cabinet 100, a pipeline connected with the top end of the vacuum pump 400 and a side wall respectively penetrates through the frame body 200 and the cabinet 100, the controller 500 and the communication module 600 are installed at the bottom end of the inside of the cabinet 100, specifically, the front wall of the outside of the cabinet 100 is connected with the control panel 110 and the display screen 120 through bolt threads, the top end of the outside of the cabinet 100 is connected with the frame body 200 through bolt threads, the front wall of the frame body 200 is connected with the frame door 210 through a hinge, the outer side wall of the frame door 210 is connected with the sealing layer 211 in an adhesive manner, the frame door 210 is connected with the frame body 200 through the door lock 212, the mechanical arm carving module 220 is connected to both sides of the top end of the inside of the frame body 200 through bolt threads, the glass adsorption module 230 is connected to the middle of the bottom end of the inside of the frame body 200 through bolt threads, and the exhaust fan 300 is connected to one side of the top end of the inside of the cabinet 100 through bolt threads, one end of the exhaust fan 300 is connected with a dust collection chamber 310, a filter screen 311 is embedded and connected in the dust collection chamber 310, a pipeline connected with one side wall of the dust collection chamber 310 penetrates through the cabinet body 100, the top end of the exhaust fan 300 is connected with an exhaust pipe 320, a valve 321 is embedded and connected on the exhaust pipe 320, the other side of the top end in the cabinet body 100 is connected with a vacuum pump 400 through a bolt thread, the top end of the vacuum pump 400 and a pipeline connected with one side wall of the cabinet body 100 respectively penetrate through the frame body 200 and the cabinet body 100, the bottom end in the cabinet body 100 is connected with a controller 500 and a communication module 600 through a bolt thread, the cabinet body 100 is used for accommodating and protecting internal devices, the control panel 110 is used for sending a control instruction to the controller 500, the display screen 120 is used for displaying the working condition of the device, the frame body 200 is used for providing a place for carving glass, the frame door 210 is used for sealing the frame body 200, and the mechanical arm carving module 220 is used for carving glass, the glass adsorption module 230 is used for fixing the position of glass to be engraved, the exhaust fan 300 is used for pumping air and dust inside the cabinet 100 into the dust collection chamber 310, the filter screen 311 is used for blocking dust, so that the dust stays in the dust collection chamber 310, the exhaust pipe 320 is used for connecting the exhaust fan 300 and the cabinet 100, the valve 321 is used for controlling the communication of the exhaust pipe 320, the vacuum pump 400 is used for keeping the inside of the frame 200 vacuum, the controller 500 is used for controlling other devices to work, and the communication module 600 is used for sending information to a remote end;

when the glass carving machine is used specifically, by opening the frame door 210, glass to be carved is placed on the glass adsorption module 230, a control instruction is sent to the controller 500 through the control panel 110, the controller 500 controls the glass adsorption module 230 to be opened to adsorb the glass, the cabinet door is closed, the vacuum pump 400 is simultaneously opened, the inside of the frame body 200 is in a vacuum environment, then the controller 500 controls the mechanical arm carving module 220 to carve, after carving is completed, the valve 321 is opened, air and dust inside the frame body 200 are pumped into the dust collection chamber 310 through the exhaust fan 300, the dust is stopped in the dust collection chamber 310 through the filter screen 311, and therefore the dust inside the frame body 200 is removed.

Referring to fig. 1 and 2 again, a handle 130 is installed on one side wall of the exterior of the cabinet 100, and an anti-slip sleeve 131 is installed on the handle 130, specifically, the handle 130 is welded on one side wall of the exterior of the cabinet 100, the anti-slip sleeve 131 is sleeved on the handle 130, the handle 130 is used for facilitating pushing the device, and the anti-slip sleeve 131 is used for facilitating grasping the handle 130.

Referring to fig. 2 again, heat dissipation holes 140 are formed in one side wall of the cabinet 100, dust screens 141 are installed in all three heat dissipation holes 140, specifically, heat dissipation holes 140 are formed in one side wall of the cabinet 100, the dust screens 141 are embedded and connected in all three heat dissipation holes 140, the heat dissipation holes 140 are used for providing a heat dissipation function, and the dust screens 141 are used for preventing dust from passing through the heat dissipation holes 140.

Referring to fig. 1 and 2 again, support columns 150 are installed at four corners of the bottom end of the cabinet 100, wheels 151 are movably connected to the bottom ends of the four support columns 150, specifically, the four corners of the bottom end of the cabinet 100 are connected with the support columns 150 through bolts and threads, the bottom ends of the four support columns 150 are connected with the wheels 151 through shafts in a rotating manner, the support columns 150 are used for connecting the cabinet 100 with the wheels 151, and the wheels 151 are used for enabling the device to move.

Referring to fig. 1 again, the front wall of the door frame 210 is provided with a fastening groove 213, the front wall of the door frame 210 is provided with an observation window 214, specifically, the front wall of the door frame 210 is provided with the fastening groove 213, the front wall of the door frame 210 is embedded and connected with the observation window 214, the fastening groove 213 is used for pulling the door frame 210, and the observation window 214 is used for conveniently observing the condition inside the frame 200.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the non-exhaustive description of these combinations in this specification is merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (5)

1. The utility model provides a 3D glass CNC CNC engraving and milling machine which characterized in that includes: the cabinet comprises a cabinet body (100), a frame body (200), an exhaust fan (300), a vacuum pump (400), a controller (500) and a communication module (600), wherein a control panel (110) and a display screen (120) are installed on the outer front wall of the cabinet body (100), the frame body (200) is installed on the outer top end of the cabinet body (100), a frame door (210) is installed on the front wall of the frame body (200), a sealing layer (211) is installed on the outer side wall of the frame door (210), the frame door (210) is connected with the frame body (200) through a door lock (212), mechanical arm carving modules (220) are installed on two sides of the inner top end of the frame body (200), a glass adsorption module (230) is installed in the middle of the inner bottom end of the frame body (200), the exhaust fan (300) is installed on one side of the inner top end of the cabinet body (100), and one end of the exhaust fan (300) is connected with a dust collection chamber (310), the utility model discloses a cabinet, including cabinet body (100), air exhauster (300), valve (321), vacuum pump (400) are installed to the inside pipeline that a lateral wall of dust collecting chamber (310) is connected with exhaust column (320), the pipeline of the top of vacuum pump (400) and a lateral wall connection runs through framework (200) and cabinet body (100) respectively, controller (500) and communication module (600) are installed to the inside bottom of the cabinet body (100).

2. The 3D glass CNC engraving and milling machine according to claim 1, wherein a handle (130) is installed on one side wall of the outer portion of the cabinet body (100), and an anti-skid sleeve (131) is installed on the handle (130).

3. The 3D glass CNC engraving and milling machine according to claim 1, wherein a heat dissipation hole (140) is formed in one side wall of the cabinet body (100), and a dust screen (141) is installed in each of the three heat dissipation holes (140).

4. The 3D glass CNC engraving and milling machine according to claim 1, wherein four corners of the bottom end of the cabinet body (100) are provided with support columns (150), and the bottom ends of the four support columns (150) are movably connected with wheels (151).

5. The 3D glass CNC engraving and milling machine of claim 1, wherein the front wall of the frame door (210) is provided with a snap groove (213), and the front wall of the frame door (210) is provided with a viewing window (214).

Images