CN217832664U - Intelligent drilling and cutting machine - Google Patents

Abstract

The utility model discloses an intelligence drilling and cutter, which comprises a frame, cutter mechanism, the tool changing mechanism, chamfering mechanism, receiving mechanism, feed mechanism, drilling processing mechanism, automated inspection mechanism, the tool setting mechanism, blown down tank and controller, cutter mechanism, the tool changing mechanism, chamfering mechanism, receiving mechanism, feed mechanism, drilling processing mechanism, the equal fixed mounting of blown down tank and controller is in the frame, cutter mechanism, the tool changing mechanism, chamfering mechanism, receiving mechanism, feed mechanism, drilling processing mechanism, automated inspection mechanism and tool setting mechanism all are connected with the controller phase signal, tool setting mechanism installs on cutter mechanism, automated inspection mechanism installs on drilling processing mechanism, feed mechanism is located cutter mechanism's the place ahead, chamfering mechanism is corresponding with drilling processing mechanism's position, and be located the left and right sides of blown down tank respectively, the one end of blown down tank is located receiving mechanism's top, tool changing mechanism and automated inspection mechanism are located drilling processing mechanism's both sides respectively.

Description

Intelligent drilling and cutting machine

Technical Field

The utility model relates to an accurate five metals is drawn branch material, is extrudeed the material and bores and cut the equipment field, especially relates to an intelligence drilling and cutter.

Background

Machining refers to a process of changing the external dimensions or properties of a workpiece by a mechanical device, and in the machining process, the shape, the size, the relative position and the properties of a blank are qualified parts according to a machining process and the pattern and the size of a drawing. In the machining process, various machine tools are generally required. A drill-cutter is a type of machining machine used to drill or cut a workpiece. Traditional brill machine of cutting exists intellectuality, the lower problem of degree of automation, can not carry out automated inspection to the aperture of processed part, the hole depth, the hole position, its parts machining back, there is the flash of a knife or a sword in the drilling rear end, the deckle edge condition, influence processingquality, and can not carry out the tool setting operation to the cutter after changing in addition, the part after the processing mixes together, can only random selective examination, can't distinguish according to the processing period to the part, in case the part quality problems appear, the volume of scrapping is big, cost loss is big. Therefore, it is necessary to develop an intelligent drilling and cutting machine with high intelligence and automation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligence drilling and cutter.

According to an aspect of the utility model, an intelligence drilling and cutter is provided, which comprises a frame, cutter mechanism, tool changing mechanism, chamfering mechanism, receiving mechanism, feed mechanism, drilling processing agency, automated inspection mechanism, tool setting mechanism, blown down tank and controller, cutter mechanism, tool changing mechanism, chamfering mechanism, receiving mechanism, feed mechanism, drilling processing mechanism, the equal fixed mounting of blown down tank and controller is in the frame, cutter mechanism, tool changing mechanism, chamfering mechanism, receiving mechanism, feed mechanism, drilling processing mechanism, automated inspection mechanism and tool setting mechanism all are connected with controller phase signal, tool setting mechanism installs on cutter mechanism, automated inspection mechanism installs on drilling processing mechanism, feed mechanism is located cutter mechanism's the place ahead, chamfering mechanism is corresponding with drilling processing mechanism's position, and be located the left and right sides of blown down tank respectively, the one end of blown down tank is located receiving mechanism's top, tool changing mechanism and automated inspection mechanism are located drilling processing mechanism's both sides respectively.

In some embodiments, the cutter mechanism includes a cutter mechanism fixing plate, a first linear motion module, a first supporting plate, a first driving structure, a first transmission structure, a first cylinder and a cutter, the cutter mechanism fixing plate is fixedly mounted on the frame, the first fixing plate is perpendicular to the cutter mechanism fixing plate and is fixedly connected to the cutter mechanism fixing plate, the first linear motion module is fixedly mounted on the first fixing plate, the first fixing plate is provided with a long hole, the first linear motion module penetrates through the long hole to be connected to the first supporting plate, the first supporting plate slides up and down along the first fixing plate, the first transmission structure is located on the first supporting plate, one end of the first transmission structure is in belt transmission connection with the first driving structure, the other end of the first linear motion module is in shaft connection with the cutter, and the output end of the first cylinder is perpendicular to the first transmission structure.

In some embodiments, the tool setting mechanism includes the left branch fagging, the right branch fagging, the slide rail fixed plate, the second linear motion module, the locating lever, third linear motion module and regulation pole, the equal fixed mounting of left branch fagging and right branch fagging is on cutter mechanism fixed plate, and left and right symmetry mutually, the both ends of slide rail fixed plate are fixed connection with left branch fagging and right branch fagging respectively, the equal fixed mounting of second linear motion module and third linear motion module is on the slide rail fixed plate, and parallel, the one end of locating lever is connected with the second linear motion module, the other end is equipped with the location end, the one end of adjusting the pole is connected with the third linear motion module, the other end is equipped with the fastener, the fastener is hook-shaped, the location end is located the homonymy of slide rail fixed plate with the fastener.

In some embodiments, the chamfering mechanism includes a fixed table, a fourth linear motion module, a second driving structure, a second transmission structure, a chamfering tool, a fifth linear motion module, a limiting rod, a limiting clamping piece and a limiting striker, the fixed table is fixedly mounted on the frame, the fourth linear motion module is fixedly mounted on the fixed table, the fifth linear motion module is fixedly mounted on the fourth linear motion module, the fourth linear motion module drives the fifth linear motion module to move left and right, the second driving structure and the second transmission structure are both fixedly connected with the fifth linear motion module, the second driving structure and the second transmission structure both move up and down along with the fifth linear motion module, one end of the second transmission structure is in belt transmission connection with the second driving structure, the other end is connected with the chamfering tool, the limiting rod is parallel to the fourth linear motion module, one end of the limiting clamping piece is fixedly connected with the fourth linear motion module, the other end of the limiting clamping piece is provided with a limiting bulge, the limiting clamping piece is matched with the limiting bulge, the limiting clamping piece is positioned on the same straight line, and positioned behind the limiting bulge.

In some embodiments, the tool changing mechanism comprises a tool magazine support, a tool magazine and a tool changing assembly, the tool magazine support is fixedly mounted on the machine frame, the tool magazine and the tool changing assembly are fixedly mounted on the tool magazine support, the machine frame is provided with a first accommodating groove and a second accommodating groove, and the first accommodating groove and the second accommodating groove are parallel to each other.

In some embodiments, receiving mechanism is including connecing the material fixed plate, the chain drive structure, connect material structure and stock structure, connect the material fixed plate to be located between first holding tank and the second holding tank, connect the material structure to clamp on connecing the material fixed plate, and with chain drive structure looks sliding connection, the chain drive structure all holds in the second holding tank with connecing the material structure, the blown down tank is equipped with the exit end, connect the material structure to be located the exit end below, the stock structure stock includes the stock bin, the stock bin is a plurality of, a plurality of stock bins clamp in proper order at first holding tank, and be located and connect the material structure below.

In some embodiments, the chain drive structure includes the slide rail, connect the material structure to include the slider, the cylinder, first fixture block, the second fixture block, connect the material connecting piece, connect material moving member and connect the material frame, first fixture block and the equal fixed mounting of second fixture block are in one side of cylinder, first fixture block and second fixture block clamp in the chain drive structure, connect the material connecting piece and connect the material moving member to all clamp on connecing the material fixed plate, slider and cylinder fixed mounting are in the one side of connecing the material connecting piece, connect material frame fixed mounting in the opposite side of connecing the material connecting piece, the slider is located the slide rail, and with slide rail looks sliding connection, connect the material moving member and connect material connecting piece looks hub connection, the output of cylinder with connect material moving member looks fixed connection, the bottom of connecing the material frame is cavity, connect the material frame to be located the exit end below, it is equipped with the bottom plate to connect the material moving member, the bottom plate is located connects the material frame below, and with connect the material frame to contact.

In some embodiments, the drilling mechanism includes a drilling structure, a lateral shift assembly, and a longitudinal shift assembly, the longitudinal shift assembly is slidably connected to the lateral shift assembly, the longitudinal shift assembly can slide left and right along the lateral shift assembly, the drilling structure and the automatic detection mechanism are both located above the longitudinal shift assembly and are both fixedly connected to the longitudinal shift assembly, and the drilling structure is provided with a tool.

In some embodiments, the automatic detection mechanism includes a magnetic grid detection structure, a connection plate, and a seventh linear motion module, one side of the connection plate is fixedly connected to the drilling structure, the other side of the connection plate is fixedly connected to the seventh linear motion module and the magnetic grid detection structure, and the seventh linear motion module and the magnetic grid detection structure are located on the same side of the connection plate.

In some embodiments, the magnetic grid detection structure includes a base, a first sliding assembly, a second sliding assembly, a third sliding assembly, and a magnetic grid sensor, the first sliding assembly is located above the base and slidably connected to the base, the second sliding assembly is located above the first sliding assembly and slidably connected to the first sliding assembly, the third sliding assembly is located above the second sliding assembly and slidably connected to the second sliding assembly, the magnetic grid sensor is fixedly mounted on the third sliding assembly, and the controller is in signal connection with the magnetic grid sensor.

The utility model has the advantages that: the utility model discloses a drilling and cutter are intelligent, degree of automation is high, through controller control cutter mechanism, the tool changing mechanism, chamfering mechanism, receiving mechanism, feed mechanism, drilling processing agency, automatic checkout mechanism and tool setting mechanism, realize the aperture to the part of having processed, the hole depth, the hole position carries out automated inspection, after the parts machining, carry out the chamfer through chamfering mechanism to the part drilling rear end and handle, remove the flash of a knife or a sword of drilling rear end, deckle edge, improve drilling processingquality, can also carry out the tool setting operation to the cutter after the change, improve the quality of drilling processing, the part after the processing is distinguished according to the processing period, be deposited in the storehouse of depositing of corresponding period respectively, in case the part quality problems appear, can only scrap the processing part of specific period, avoid extravagant, the cost is reduced.

Drawings

Fig. 1 is a schematic structural view of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 2 is a top view of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a cutter mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 4 is an exploded view of a cutter mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 5 is a schematic structural view of a tool setting mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 6 is a top view of a tool setting mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 7 is a schematic structural view of a chamfering mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 8 is a top view of a chamfering mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 9 is a schematic structural view of a receiving mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 10 is an exploded view of a receiving mechanism of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 11 is a schematic structural view of a frame of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 12 is a left side view of the material receiving structure and the chain transmission structure of the intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 13 is a schematic structural view of a chain transmission structure of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 14 is a schematic structural view of the drilling mechanism and the automatic detection mechanism of the intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 15 is a front view of the drilling mechanism and the automatic detection mechanism of the intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 16 is an exploded view of a magnetic grid detection structure of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Fig. 17 is a block diagram of an intelligent drilling and cutting machine according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples.

Referring to fig. 1-17, the utility model provides an intelligence drilling and cutter, which comprises a frame 1, cutter mechanism 2, cutter changing mechanism 3, chamfering mechanism 4, receiving mechanism 5, feed mechanism 7, drilling processing mechanism 8, automatic detection mechanism 9, tool setting mechanism 10, blown down tank 11 and controller 12, cutter mechanism 2, cutter changing mechanism 3, chamfering mechanism 4, receiving mechanism 5, feed mechanism 7, drilling processing mechanism 8, equal fixed mounting in frame 1 of blown down tank 11 and controller 12, cutter mechanism 2, cutter changing mechanism 3, chamfering mechanism 4, receiving mechanism 5, feed mechanism 7, drilling processing mechanism 8, automatic detection mechanism 9 and tool setting mechanism 10 all are connected with controller 12 phase number, tool setting mechanism 10 is installed on cutter mechanism 2, automatic detection mechanism 9 is installed on drilling processing mechanism 8, feed mechanism 7 is located the place ahead of cutter mechanism 2, chamfering mechanism 4 is corresponding with the position of drilling processing mechanism 8, and be located the left and right sides of blown down tank 11 respectively, the one end of blown down tank 11 is located the top of cutter changing mechanism 5, automatic detection mechanism 3 and automatic detection mechanism 10 are located the drilling processing mechanism 8's both sides respectively.

The cutter mechanism 2 comprises a cutter mechanism fixing plate 21, a first fixing plate 22, a first linear motion module 23, a first supporting plate 24, a first driving structure 25, a first transmission structure 26, a first air cylinder 27 and a cutter 28, wherein the cutter mechanism fixing plate 21 is fixedly installed on the rack 1, the first fixing plate 22 is perpendicular to and fixedly connected with the cutter mechanism fixing plate 21, the first linear motion module 23 is fixedly installed on the first fixing plate 22, the first fixing plate 22 is provided with a long hole 221, the first linear motion module 23 penetrates through the long hole 221 to be connected with the first supporting plate 24, the first supporting plate 24 slides up and down along the first fixing plate 22, the first transmission structure 26 is located on the first supporting plate 24, one end of the first transmission structure 26 is in belt transmission connection with the first driving structure 25, the other end of the first transmission structure is in shaft connection with the cutter 28, the output end of the first air cylinder 27 is in vertical connection with the first transmission structure 26, and drives the transmission shaft of the first transmission structure 26 to vertically move up and down.

The tool setting mechanism 10 comprises a left support plate 101, a right support plate 102, a sliding rail fixing plate 103, a second linear motion module 104, a positioning rod 105, a third linear motion module 106 and an adjusting rod 107, wherein the left support plate 101 and the right support plate 102 are fixedly installed on the cutting mechanism fixing plate 21 and are symmetrical left and right, two ends of the sliding rail fixing plate 103 are fixedly connected with the left support plate 101 and the right support plate 102 respectively, the second linear motion module 104 and the third linear motion module 106 are fixedly installed on the sliding rail fixing plate 103 and are parallel to each other, one end of the positioning rod 105 is connected with the second linear motion module 104, the other end of the positioning rod is provided with a positioning end 1051, one end of the adjusting rod 107 is connected with the third linear motion module 106, the other end of the adjusting rod is provided with a clamping piece 1071, the clamping piece 1071 is hooked, and the positioning end 1051 and the clamping piece 1071 are located on the same side of the sliding rail fixing plate 103.

The chamfering mechanism 4 comprises a fixed table 41, a fourth linear motion module 42, a second driving structure 43, a second transmission structure 44, a chamfering tool 45, a fifth linear motion module 46, a limiting rod 47 and a limiting clamping piece 48, wherein the fixed table 41 is fixedly installed on the rack 1, the fourth linear motion module 42 is fixedly installed on the fixed table 41, the fifth linear motion module 46 is fixedly installed on the fourth linear motion module 42, the fourth linear motion module 42 drives the fifth linear motion module 46 to move left and right, the second driving structure 43 and the second transmission structure 44 are both fixedly connected with the fifth linear motion module 46, the second driving structure 43 and the second transmission structure 44 both move up and down along with the fifth linear motion module 46, one end of the second transmission structure 44 is in belt transmission connection with the second driving structure 43, the other end of the second transmission structure 44 is in shaft connection with the chamfering tool 45, the limiting rod 47 is parallel to the fourth linear motion module 42, one end of the second transmission structure is fixedly connected with the fourth linear motion module 42, the other end of the second transmission structure is provided with a limiting bulge 471, one end of the limiting structure 48 is fixedly connected with the fourth linear motion module 42, the other end of the limiting clamping piece is provided with a limiting bulge 481, one end of the limiting clamping piece 481, the limiting clamping piece is matched with the limiting bulge 481, and is located on the same position of the limiting line as the limiting bulge 481.

Tool changing mechanism 3 includes tool magazine support, tool magazine 32 and tool changing assembly 33, and tool magazine support fixed mounting is in frame 1, and tool magazine 32 and tool changing assembly 33 fixed mounting are on tool magazine support 1, and frame 1 is equipped with first holding tank 13 and second holding tank 14, and first holding tank 13 and second holding tank 14 parallel.

Receiving mechanism 5 is including connecing material fixed plate 51, chain drive structure 52, connect material structure 53 and material stock structure 54, connect material fixed plate 51 to be located between first holding tank 13 and second holding tank 14, connect material structure 53 to clamp on connecing material fixed plate 51, and with chain drive structure 52 looks sliding connection, chain drive structure 52 and connect material structure 53 all hold in second holding tank 14, blown down tank 11 is equipped with exit end 111, it is located exit end 111 below to connect material structure 53, material stock structure 54 stores including material stock bin 541, material stock bin 541 is a plurality of, a plurality of material stock bins 541 clamp in proper order at first holding tank 13, and be located and connect material structure 53 below.

The chain transmission structure 52 comprises a sliding rail 521, the receiving structure 53 comprises a sliding block 531, an air cylinder 532, a first fixture block 533, a second fixture block, a receiving connector 535, a receiving moving member 536 and a receiving frame 537, the first fixture block 533 and the second fixture block are fixedly mounted on one side of the air cylinder 535, the first fixture block 533 and the second fixture block are clamped on the chain transmission structure 52, the receiving connector 535 and the receiving moving member 536 are clamped on the receiving fixing plate 51, the sliding block 531 and the air cylinder 532 are fixedly mounted on one side of the receiving connector 535, the receiving frame 537 is fixedly mounted on the other side of the receiving connector 535, the sliding block 531 is positioned on the sliding rail 521 and is in sliding connection with the sliding rail 521, the receiving moving member 536 is in shaft connection with the receiving connector 535, the output end of the air cylinder 532 is fixedly connected with the receiving moving member 536, the bottom of the receiving frame 537 is hollow, the receiving frame 537 is positioned below the outlet end 111, the receiving moving member 536 is provided with a bottom plate 5361, the bottom plate 5361 is positioned below the receiving frame 537 and is in contact with the receiving frame.

The drilling mechanism 8 comprises a drilling structure 81, a transverse shifting assembly 82 and a longitudinal shifting assembly 83, the longitudinal shifting assembly 83 is connected with the transverse shifting assembly 82 in a sliding mode, the longitudinal shifting assembly 83 can slide left and right along the transverse shifting assembly 82, the drilling structure 81 and the automatic detection mechanism 9 are both located above the longitudinal shifting assembly 83 and are fixedly connected with the longitudinal shifting assembly 83, and a cutter 811 is arranged on the drilling structure 81.

The automatic detection mechanism 9 comprises a magnetic grid detection structure 91, a connecting plate 92 and a seventh linear motion module 93, one side of the connecting plate 92 is fixedly connected with the drilling structure 81, the other side of the connecting plate 92 is fixedly connected with the seventh linear motion module 93 and the magnetic grid detection structure 91, and the seventh linear motion module 93 and the magnetic grid detection structure 91 are both located on the same side of the connecting plate 92.

The magnetic grid detection structure 91 comprises a base 911, a first sliding assembly 912, a second sliding assembly 913, a third sliding assembly 914 and a magnetic grid sensor 915, wherein the first sliding assembly 912 is positioned above the base 911 and is slidably connected with the base 911, the second sliding assembly 913 is positioned above the first sliding assembly 912 and is slidably connected with the first sliding assembly 912, the third sliding assembly 914 is positioned above the second sliding assembly 913 and is slidably connected with the second sliding assembly 913, the magnetic grid sensor 915 is fixedly arranged on the third sliding assembly 914, and the controller 12 is in signal connection with the magnetic grid sensor 915.

The utility model discloses in the use, feed mechanism is responsible for the feeding, and the centre gripping material area, cutter mechanism cuts into the material area and treats the processing part, part after the feed mechanism centre gripping cutting, drilling processing agency drills the part, chamfering mechanism carries out chamfer processing at the drilling rear end to the part, remove the flash of a knife or a sword of drilling rear end, deckle edge, automatic checkout mechanism is to the aperture of drilling, the hole depth detects with the hole position carries out the magnetic grid, detect the mistake-free back, the part falls into the blown down tank, pass through the exit end along the blown down tank, fall into and connect in the material frame, the part that processes in an hour, fall into same material frame that connects, connect the material frame to remove the material storehouse top that corresponds the time quantum, connect the material moving member to remove, the bottom plate leaves and connects the material frame, the part falls into in the material storehouse that corresponds. After the cutter of the drilling machining mechanism is worn, the cutter changing mechanism changes the cutter, and after the cutter changing mechanism changes, the extension length of the cutter is aligned through the cutter adjusting mechanism, so that the consistency of the drilling machining quality is ensured.

The above description is only some embodiments of the present invention, and for those skilled in the art, a plurality of modifications and improvements can be made without departing from the inventive concept, and these modifications and improvements all belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides an intelligence drilling and cutter, its characterized in that, includes frame, cutter mechanism, tool changing mechanism, chamfer mechanism, receiving mechanism, feed mechanism, drilling processing mechanism, automated inspection mechanism, tool setting mechanism, blown down tank and controller, cutter mechanism, tool changing mechanism, chamfer mechanism, receiving mechanism, feed mechanism, drilling processing mechanism and blown down tank equal fixed mounting in the frame, cutter mechanism, tool changing mechanism, chamfer mechanism, receiving mechanism, feed mechanism, drilling processing mechanism, automated inspection mechanism and tool setting mechanism all with controller looks signal connection, tool setting mechanism install in on the cutter mechanism, automated inspection mechanism install in drilling processing mechanism is last, feed mechanism is located the place ahead of cutter mechanism, chamfer mechanism with the position of drilling processing mechanism is corresponding, and be located respectively the left and right sides of blown down tank, the one end of blown down tank is located the top of cutter mechanism, receiving mechanism and automated inspection mechanism are located respectively the both sides of drilling processing mechanism.

2. The intelligent drilling and cutting machine according to claim 1, wherein the cutter mechanism comprises a cutter mechanism fixing plate, a first linear motion module, a first supporting plate, a first driving structure, a first transmission structure, a first air cylinder and a cutter, the cutter mechanism fixing plate is fixedly mounted on the rack, the first fixing plate is perpendicular to and fixedly connected with the cutter mechanism fixing plate, the first linear motion module is fixedly mounted on the first fixing plate, the first fixing plate is provided with a long hole, the first linear module penetrates through the long hole to be connected with the first supporting plate, the first supporting plate slides up and down along the first fixing plate, the first transmission structure is located on the first supporting plate, one end of the first transmission structure is in belt transmission connection with the first driving structure, the other end of the first transmission structure is in shaft connection with the cutter, and the output end of the first air cylinder is perpendicular to the first transmission structure.

3. The intelligent drilling and cutting machine according to claim 2, wherein the cutter setting mechanism comprises a left support plate, a right support plate, a slide rail fixing plate, a second linear motion module, a positioning rod, a third linear motion module and an adjusting rod, the left support plate and the right support plate are fixedly mounted on the cutter setting plate and are symmetrical left and right, two ends of the slide rail fixing plate are respectively and fixedly connected with the left support plate and the right support plate, the second linear motion module and the third linear motion module are fixedly mounted on the slide rail fixing plate and are parallel to each other, one end of the positioning rod is connected with the second linear motion module, the other end of the positioning rod is provided with a positioning end, one end of the adjusting rod is connected with the third linear motion module, the other end of the adjusting rod is provided with a clamping piece, the clamping piece is in a hook shape, and the positioning end and the clamping piece are located on the same side of the slide rail fixing plate.

4. The intelligent drilling and cutting machine as claimed in claim 1, wherein the chamfering mechanism comprises a fixed table, a fourth linear motion module, a second driving structure, a second transmission structure, a chamfering tool, a fifth linear motion module, a limiting rod, a limiting clamp and a limiting firing pin, the fixed table is fixedly mounted on the frame, the fourth linear motion module is fixedly mounted on the fixed table, the fifth linear motion module is fixedly mounted on the fourth linear motion module, the fourth linear motion module drives the fifth linear motion module to move left and right, the second driving structure and the second transmission structure are both fixedly connected with the fifth linear motion module, the second driving structure and the second transmission structure both move up and down along with the fifth linear motion module, one end of the second transmission structure is connected with the second driving structure through a belt, the other end of the second transmission structure is connected with the chamfering tool through a shaft, the limiting rod is parallel to the fourth linear motion module, one end of the limiting clamp is fixedly connected with the fourth linear motion module, the other end of the second transmission structure is provided with a limiting bulge, the limiting clamp is connected with the fourth linear motion module, the limiting bulge is located behind the limiting bulge.

5. The intelligent drilling and cutting machine as claimed in claim 1, wherein the tool changing mechanism comprises a tool magazine support, a tool magazine and a tool changing assembly, the tool magazine support is fixedly mounted on the machine frame, the tool magazine and the tool changing assembly are fixedly mounted on the tool magazine support, the machine frame is provided with a first accommodating groove and a second accommodating groove, and the first accommodating groove and the second accommodating groove are parallel.

6. The intelligent drilling and cutting machine according to claim 5, wherein the material receiving mechanism comprises a material receiving fixing plate, a chain transmission structure, a material receiving structure and a material storing structure, the material receiving fixing plate is located between the first accommodating groove and the second accommodating groove, the material receiving structure is clamped on the material receiving fixing plate and is in sliding connection with the chain transmission structure, the chain transmission structure and the material receiving structure are both accommodated in the second accommodating groove, the discharge groove is provided with an outlet end, the material receiving structure is located below the outlet end, the material storing structure comprises a material storing bin, the material storing bins are multiple, and the material storing bins are sequentially clamped in the first accommodating groove and located below the material receiving structure.

7. The intelligent drilling and cutting machine according to claim 6, wherein the chain transmission structure comprises a slide rail, the material receiving structure comprises a slide block, a cylinder, a first clamping block, a second clamping block, a material receiving connecting piece, a material receiving moving piece and a material receiving frame, the first clamping block and the second clamping block are fixedly mounted on one side of the cylinder, the first clamping block and the second clamping block are clamped on the chain transmission structure, the material receiving connecting piece and the material receiving moving piece are clamped on the material receiving fixing plate, the slide block and the cylinder are fixedly mounted on one side of the material receiving connecting piece, the material receiving frame is fixedly mounted on the other side of the material receiving connecting piece, the slide block is located on the slide rail and is in sliding connection with the slide rail, the material receiving moving piece is in axial connection with the material receiving connecting piece, the output end of the cylinder is fixedly connected with the material receiving moving piece, the bottom of the material receiving frame is hollow, the material receiving frame is located below the outlet end, the material receiving moving piece is provided with a bottom plate, and the bottom plate is located below the material receiving frame and is in contact with the material receiving frame.

8. The intelligent drilling and cutting machine of claim 1, wherein the drilling mechanism comprises a drilling structure, a lateral shift assembly and a longitudinal shift assembly, the longitudinal shift assembly is slidably connected with the lateral shift assembly, the longitudinal shift assembly can slide left and right along the lateral shift assembly, the drilling structure and the automatic detection mechanism are both located above the longitudinal shift assembly and are both fixedly connected with the longitudinal shift assembly, and the drilling structure is provided with a cutter.

9. The intelligent drilling and cutting machine of claim 8, wherein the automatic detection mechanism comprises a magnetic grid detection structure, a connection plate and a seventh linear motion module, one side of the connection plate is fixedly connected with the drilling structure, the other side of the connection plate is fixedly connected with the seventh linear motion module and the magnetic grid detection structure, and the seventh linear motion module and the magnetic grid detection structure are both located on the same side of the connection plate.

10. The intelligent drilling and cutting machine of claim 9, wherein said magnetic grid detection structure comprises a base, a first sliding assembly, a second sliding assembly, a third sliding assembly and a magnetic grid sensor, said first sliding assembly is located above said base and slidably connected to said base, said second sliding assembly is located above said first sliding assembly and slidably connected to said first sliding assembly, said third sliding assembly is located above said second sliding assembly and slidably connected to said second sliding assembly, said magnetic grid sensor is fixedly mounted on said third sliding assembly, and said controller is in signal connection with said magnetic grid sensor.

Images