CN108483038B - Chip burning machine - Google Patents

Abstract

The invention provides a chip burning machine which can solve the problems of poor universality and high equipment cost caused by the fact that the existing chip burning machine can only be suitable for a single chip feeding mode. Including board and chip suction means, be provided with the chip and burn the record district on the board, install the record ware through record ware fixing base on the chip burns record district, it still includes dish dress chip feedway and/or braid chip feedway, is equipped with the box shroud on the board, and it has the feed inlet to open at the left side wall bottom of box shroud, and the board is just right the position of feed inlet is provided with sunken platform, and dish dress chip feedway and/or braid chip feedway's discharge end stretches into through the feed inlet in the box shroud and detachably install in on the platform that sinks, seted up ten record ware installing ports on the record ware fixing base.

Description

Chip burning machine

Technical Field

The invention relates to the technical field of chip burning, in particular to a chip burning machine.

Background

The encapsulation of chip adopts braid formula encapsulation or tray formula encapsulation usually, because the difference of two kinds of chip packaging methods has just also led to the chip burning machine to go up the completely different of unloading form, this just makes the burning of the chip to different packaging forms must dispose the chip burning machine of different unloading forms of going up, and the burning machine of two kinds of unloading forms of going up can't be general to lead to the problem that equipment cost is high.

Disclosure of Invention

Aiming at the problems, the invention provides a chip burning machine which can solve the problems of poor universality and high equipment cost caused by the fact that the existing chip burning machine can only be suitable for a single chip feeding mode.

Its technical scheme does, chip burns the recorder, and it includes board and chip suction means, be provided with the chip on the board and burn the district, burn the district on the chip and install the CD writer through the CD writer fixing base, the vertical rear side in chip burn the district is equipped with horizontal linear module, chip suction means installs on vertical lift mechanism, vertical lift mechanism connects on vertical linear module, vertical linear module connect in on the horizontal linear module, its characterized in that: the device comprises a machine table, a box cover, a feeding hole, a sunken platform, a discharging end, a disc-mounted chip feeding device and/or a braid chip feeding device, and is characterized by further comprising a disc-mounted chip feeding device and/or a braid chip feeding device, wherein the box cover is arranged on the machine table, the feeding hole is formed in the bottom of the left side wall of the box cover, the sunken platform is arranged at a position, right facing the feeding hole, of the machine table, the discharging end of the disc-mounted chip feeding device and/or the braid chip feeding device extends into the box cover through the feeding hole and is detachably mounted on the sunken platform.

Further, the disk chip feeding device comprises a tray loading plate and a rectangular box body, the transverse front side end of the rectangular box body passes through the feed inlet and then is detachably installed on the sunken platform, three pairs of mutually symmetrical upright posts are respectively arranged on the longitudinal two side walls of the transverse rear side end of the rectangular box body, the three pairs of upright posts divide the upper space of the transverse rear side end of the rectangular box body into a good product tray area and a feeding tray area from back to front, mutually symmetrical good product tray supporting mechanisms are arranged on the longitudinal two side walls of the rectangular box body in the good product tray area, mutually symmetrical feeding tray supporting mechanisms are arranged on the longitudinal two side walls of the rectangular box body in the feeding tray area, a transverse translation mechanism is arranged in the rectangular box body, the tray loading plate can be vertically movably installed on the transverse translation mechanism, the transverse translation mechanism can drive the tray bearing plate to do transverse horizontal reciprocating motion in the rectangular box, so that the tray bearing plate can convey the trays between the feeding tray area and the table board of the chip burning machine and between the table board of the chip burning machine and the good product tray area.

Furthermore, the transverse translation mechanism comprises an electric lead screw transmission assembly horizontally arranged in the rectangular box body, the electric lead screw transmission assembly is connected with a transverse moving platform, an accommodating cavity is formed in the center of the transverse moving platform, the tray bearing plate is accommodated in the accommodating cavity of the transverse moving platform, a vertical pushing motor is arranged in the transverse moving platform, and a push rod of the vertical pushing motor is fixedly connected with the bottom surface of the tray bearing plate.

Further, braid chip feedway includes the bottom plate, waits to burn braid feeding mechanism of burning the chip and the braid receiving agencies who has burnt the chip, braid feeding mechanism, braid receiving agencies all along the level transversely set up in on the bottom plate just braid receiving agencies set up in the vertical front side of braid feeding mechanism, the horizontal right side end of bottom plate passes detachably install in behind the feed inlet on the platform that sinks.

Further, braid receiving agencies including set up in the film carrying platform of the edge horizontal extension of bottom plate longitudinal front side, be equipped with in proper order from the right side left on the film carrying platform and beat subassembly, fan subassembly, miniature camera subassembly and material membrane adjusting part, the left end portion of film carrying platform installs the runner subassembly just the left end portion of film carrying platform has the charging tray support, the charging tray has set gradually the material mould dish, has sent the membrane dish and has received the material dish along anticlockwise on the charging tray support, just the material mould dish, send the membrane dish and receive the material dish and be in same vertical plane.

Furthermore, the braid feeding mechanism comprises a feeding disc and a film collecting disc, a flight assembly is arranged on the longitudinal rear side of the film carrying platform, the rotatable film collecting disc is mounted at the transverse left side end of the flight assembly, a vertical support extending downwards is fixedly mounted on the rear side face of the left end of the film carrying platform, the feeding disc is mounted at the bottom end of the vertical support, and the feeding disc and the film collecting disc are located on the same vertical plane.

Further, chip suction means is including inhaling material support and two suction nozzle pole subassemblies, it is equipped with two sets of vertical translation mechanisms that are parallel to each other to inhale on the material support, each all be connected with one on the vertical translation mechanism suction nozzle pole subassembly, vertical translation mechanism including set firmly in inhale vertical drive actuating cylinder on a side upper portion of material support and the vertical guide rail of lower part, sliding connection has a slider on the vertical guide rail, the rigid coupling has a right angle shape adaptor on the slider, vertical drive actuating cylinder's push rod with right angle shape adaptor rigid coupling, suction nozzle pole subassembly run through install in pass down behind the right angle shape adaptor the bottom plate of inhaling the material support.

Furthermore, the chip suction device further comprises a synchronous rotating mechanism, the synchronous rotating mechanism comprises a synchronous motor fixedly arranged on the lower portion of the other side face of the suction support, a synchronous belt pulley is installed on an output shaft of the synchronous motor, the suction nozzle rod assembly penetrates through the right-angle adapter from top to bottom, a synchronous cam is sleeved behind the right-angle adapter, and the suction nozzle rod assembly is connected with the synchronous cam through synchronous belt synchronous rotation.

Further, vertical lift mechanism includes elevator plate, elevator motor, sliding block and lift lead screw, two elevating guide that are parallel to each other have set firmly on elevator plate's a side, elevator motor passes through motor support mounting in two elevating guide's upper portion, sliding connection is in two respectively at the both ends of sliding block on the elevating guide, elevator motor's output shaft passes downwards motor support and through rolling bearing and shaft coupling with the lift lead screw is connected, the bottom of lift lead screw passes through screw-nut and connects the elevator, an elevator side with inhale material support rigid coupling, another side with the sliding block rigid coupling.

Furthermore, a positioning detection camera is mounted on one side surface of the motor support, a light source is mounted on one side surface of the bottom plate of the material suction support, and the positioning detection camera and the light source are arranged concentrically; a waste chip collecting platform is arranged between the sunken platform and the chip burning area, a waste chip collecting box is arranged on the waste chip collecting platform, and a backlight source is arranged on the longitudinal rear side of the waste chip collecting box.

The invention has the beneficial effects that: the bottom of the left side wall of the box-shaped cover cap of the machine table is provided with the feed inlet, and the machine table is provided with the sunken platform opposite to the feed inlet, so that the discharge end of the disc-mounted chip feeding device and/or the braid chip feeding device can extend into the box-shaped cover cap through the feed inlet and can be detachably mounted on the sunken platform, and the corresponding feeding device can be replaced according to the packaging requirement of the actual burning chip, thereby effectively improving the universality of the main body of the burning machine and greatly reducing the equipment cost; meanwhile, the disc-mounted chip feeding device and the braid chip feeding device are only arranged on a sunken platform of a machine table feeding hole, and the occupancy rate of the space of a machine table of the burner is very small, so that more platform spaces can be used for arranging more burners, the increase of the number of the burners can greatly improve the burning efficiency of chips and the yield; in addition, the disc-mounted chip feeding device and the braid chip feeding device can realize the full-automatic feeding of the chips to be burned and can also realize the full-automatic discharging of the burned chips, so that a chip discharging device independently arranged on a machine table is omitted, and the occupied space of the platform is further reduced.

Drawings

FIG. 1 is a schematic diagram of a chip burner according to the present invention;

FIG. 2 is a schematic view of the present invention in a state where the box cover is not mounted;

FIG. 3 is a schematic structural view of a disk-mounted chip feeder according to the present invention;

FIG. 4 shows a supply device for a braid chip of the present invention;

FIG. 5 is a schematic view of the chip sucking device according to the present invention.

Reference numerals:

10-machine table, 11-platform;

20-box-shaped cover cap, 21-feed inlet;

30-a burner fixing seat, 31-a burner mounting port, 40-a transverse linear module and 50-a longitudinal linear module;

60-a vertical lifting mechanism, 61-a lifting bottom plate, 62-a lifting motor, 63-a sliding block, 64-a lifting screw rod, 65-a lifting guide rail, 66-a motor bracket, 67-a screw rod nut and 68-a lifting block;

70-a chip suction device, 71-a suction support, 72-a suction nozzle rod assembly, 73-a vertical driving cylinder, 74-a vertical guide rail, 75-a slide block, 76-a right-angle adapter, 77-a synchronous motor, 78-a synchronous pulley, 79-a synchronous cam and 710-a synchronous belt;

80-a disc-mounted chip feeding device, 81-a tray bearing plate, 82-a rectangular box body, 83-a good product tray supporting mechanism, 84-a feeding tray supporting mechanism, 851-an electric lead screw transmission assembly, 852-a transverse moving platform, 853-a vertical pushing motor, 86-an upright post and 87-a slidable box cover;

90-a braid chip feeding device, 91-a bottom plate, 92-a braid feeding mechanism of a chip to be burned, 921-a feeding disc, 922-a film collecting disc, 923-a flying component, 924-a vertical support, 93-a braid receiving mechanism of a chip to be burned, 931-a film carrying platform, 932-a dotting component, 933-a fan component, 934-a miniature camera component, 935-a film regulating component, 936-a rotating wheel component, 937-a material die disc, 938-a film feeding disc and 939-a receiving disc;

101-positioning detection camera, 102-light source, 103-waste sheet collection platform, 104-waste sheet collection box, 105-counter light source, A-good product tray area and B-feeding tray area.

Detailed Description

Referring to fig. 1 and 2, the chip burner of the present invention includes a machine table 10 and a chip suction device 70, wherein the machine table 10 is provided with a chip burning area, a burner is mounted on the chip burning area through a burner fixing seat 30, a transverse linear module 40 is disposed at a longitudinal rear side of the chip burning area, the chip suction device 70 is mounted on a vertical lifting mechanism 60, the vertical lifting mechanism 60 is connected to a longitudinal linear module 50, and the longitudinal linear module 50 is connected to the transverse linear module 40; the device comprises a machine table 10, a box cover 20 is arranged on the machine table 10, a feed inlet 21 is formed in the bottom of the left side wall of the box cover 20, a sunken platform 11 is arranged at the position, right facing the feed inlet 21, of the machine table 10, discharge ends of the box cover 20 and the tape chip feeding device 80 extend into the box cover 20 through the feed inlet 21 and are detachably mounted on the sunken platform 11, ten recorder mounting ports 31 are formed in a recorder fixing seat 30, and a recorder can be fixed in each recorder mounting port 31.

The disk-mounted chip feeding device 80 comprises a tray bearing plate 81 and a rectangular box 82, the transverse front side end of the rectangular box 82 passes through the feed port 21 and then is detachably mounted on the sunken platform 11, the longitudinal two side walls of the transverse rear side end of the rectangular box are respectively provided with three pairs of mutually symmetrical upright posts 86, the upper space of the transverse rear side end of the rectangular box is divided into a good product tray area A and a feeding tray area B from back to front by the three pairs of upright posts 86, mutually symmetrical good product tray supporting mechanisms 83 are arranged on the longitudinal two side walls of the rectangular box of the good product tray area A, the longitudinal two side walls of the rectangular box of the feeding tray area B are provided with mutually symmetrical feeding tray supporting mechanisms 84, trays loaded with chips to be burned are stacked, and the longitudinal two sides of the trays are supported by the feeding tray supporting mechanisms 84, the rectangular box 82 is internally provided with a transverse translation mechanism, the tray bearing plate 81 can be vertically movably mounted on the, the transverse translation mechanism can drive the tray bearing plate 81 to horizontally reciprocate in the rectangular box 82, so that the tray bearing plate 81 can convey the trays between the feeding tray area B and the machine table of the chip burning machine, and between the machine table of the chip burning machine and the good-product tray area A;

the transverse translation mechanism comprises an electric screw rod transmission assembly 851 which is horizontally arranged in the rectangular box body 82 in a transverse direction, the electric screw rod transmission assembly 851 is connected with a transverse translation platform 852, an accommodating cavity is formed in the center of the transverse translation platform 852, the tray bearing plate 81 is accommodated in the accommodating cavity of the transverse translation platform, a vertical push motor 853 is arranged in the transverse translation platform 852, and a push rod of the vertical push motor 852 is fixedly connected with the bottom surface of the tray bearing plate 81; when the traverse platform 852 moves to the lower part of the feeding tray area B under the driving of the electric screw transmission assembly 851, the feeding tray supporting mechanisms 84 on the longitudinal two side walls of the rectangular box 82 can loosen the tray loaded with the chip to be burned on the bottommost layer, meanwhile, the tray bearing plate 81 in the traverse platform 852 moves vertically to support the tray and reset to the traverse platform, the traverse platform 852 moves transversely to enter a feed port to a machine table under the driving of the electric screw transmission assembly 851, and the chip suction devices 70 suck the chips from the tray one by one and move to the burner for burning; the burned chips are sucked and transported from the burner by the chip suction device 70 and are placed back into the tray until all chips in the tray are burned, the transverse translation mechanism bears the tray and moves in the reverse direction to the position below the good tray area A, the vertical pushing motor 853 pushes the tray bearing plate 81 to ascend, the good tray supporting mechanism 83 bears the tray and limits the position, and therefore a cycle is completed. In fig. 3, 87 is a slidable case cover, which can separate the good tray area a and the feeding tray area B from the outside when closed, so as to prevent the chips inside from being contaminated.

The braid chip feeding device 90 comprises a bottom plate 91, a braid feeding mechanism 92 for chips to be burned and a braid receiving mechanism 93 for chips to be burned, wherein the braid feeding mechanism 92 and the braid receiving mechanism 93 are horizontally and transversely arranged on the bottom plate 91, the braid receiving mechanism 93 is arranged on the longitudinal front side of the braid feeding mechanism 92, and the transverse right side end of the bottom plate 91 penetrates through the feeding hole 21 and then is detachably mounted on the sunken platform 11;

the braid receiving mechanism 93 comprises a film carrying platform 931 which is arranged on the longitudinal front side of the bottom plate 91 and extends horizontally in the transverse direction, a dotting component 932, a fan component 933, a miniature camera component 934 and a material film adjusting component 935 are sequentially arranged on the film carrying platform 931 from right to left, a rotating wheel component 936 is mounted at the left end of the film carrying platform 931, a material tray support is connected to the left end of the film carrying platform 931, a material mold tray 937, a film feeding tray 938 and a material receiving tray 939 are sequentially arranged on the material tray support in the anticlockwise direction, and the material mold tray 937, the film feeding tray 938 and the material receiving tray 939 are located in the same vertical plane; empty material film trays are loaded on the film conveying discs 938, material films on the material film trays bypass the film loading platform 931 to the rotating wheel assemblies 936 along the anticlockwise direction, the burnt chips are conveyed onto the material films by the chip suction devices 70, the rotating wheel assemblies 936 drive the material films to move, the material films drive the chips to sequentially pass through the dotting assembly 932 for dotting, the fan assembly 933 for drying dotting ink, the miniature camera assembly 934 for photographing detection, the material film adjusting assembly 935 for adjusting the position of the material films and then are driven by a material receiving motor of the material receiving discs 939 to pass through the material film trays 937 and then are received into the material receiving discs 939;

the braid feeding mechanism 92 comprises a feeding plate 921 and a film collecting plate 922, a flight assembly 923 is arranged on the longitudinal rear side of the film carrying platform 931, a rotatable film collecting plate 922 is mounted at the transverse left side end of the flight assembly 923, a vertical support 924 extending downwards is fixedly mounted on the rear side face of the left end of the film carrying platform 931, the feeding plate 921 is mounted at the bottom end part of the vertical support 924, and the feeding plate 921 and the film collecting plate 922 are located on the same vertical plane; the tray loaded with the chip to be burned is arranged on the feeding tray 921, the feeder assembly removes the packaging film and then conveys the packaging film to the transverse front end, the chip suction device 70 sucks the chip to be burned to the burner for software burning, and the removed packaging film is wound by the film winding tray 922.

The chip suction device 70 comprises a suction support 71 and two suction nozzle rod assemblies 72, in fig. 5, only one suction nozzle rod assembly 72 is expressed, two groups of vertical translation mechanisms which are parallel to each other are arranged on the suction support 71, each vertical translation mechanism is connected with one suction nozzle rod assembly 72, each vertical translation mechanism comprises a vertical driving air cylinder 73 fixedly arranged on the upper portion of one side surface of the suction support 71 and a vertical guide rail 74 arranged on the lower portion of the vertical driving air cylinder, a sliding block 75 is slidably connected onto each vertical guide rail 74, a right-angle adapter 76 is fixedly connected onto each sliding block 75, a push rod of each vertical driving air cylinder 73 is fixedly connected with the right-angle adapter 76, and each suction nozzle rod assembly 72 penetrates through a bottom plate which penetrates through the suction support 71 downwards after.

The chip suction device 70 further comprises a synchronous rotating mechanism, the synchronous rotating mechanism comprises a synchronous motor 77 fixedly arranged at the lower part of the other side surface of the suction support 71, a synchronous belt pulley 78 is arranged on an output shaft of the synchronous motor 77, the suction nozzle rod assemblies 72 are sleeved with synchronous cams 79 after penetrating through the right-angle adapter 76 from top to bottom, and the synchronous cams 79 respectively connected with the two groups of suction nozzle rod assemblies 72 and the synchronous belt pulley 78 are in synchronous rotating connection through a synchronous belt 710; receive the different influence of chip feed mode, the angle that the chip was loaded often can appear in actual production is inconsistent with the angle of placing of burning ware inner chip, consequently through synchronous machine 77 action of synchronous slewing mechanism, and synchronous drive 78, hold-in range 710 can drive two sets of suction nozzle pole subassemblies 72 and rotate simultaneously to two sets of suction nozzle pole subassemblies 72 are from the feed inlet department absorb and treat to burn and directly put into burning ware after can rotating corresponding angle behind the chip and burn.

The vertical lifting mechanism 60 comprises a lifting bottom plate 61, a lifting motor 62, a sliding block 63 and a lifting screw rod 64, wherein two lifting guide rails 65 which are parallel to each other are fixedly arranged on one side surface of the lifting bottom plate 61, the lifting motor 62 is arranged on the upper parts of the two lifting guide rails 65 through a motor support 66, two ends of the sliding block 63 are respectively connected onto the two lifting guide rails 65 in a sliding manner, an output shaft of the lifting motor 62 downwards penetrates through the motor support 66 and is connected with the lifting screw rod 64 through a rotating bearing and a coupler, the bottom of the lifting screw rod 64 is connected with a lifting block 68 through a screw rod nut 67, one side surface of the lifting block 68 is fixedly connected with a material suction support 71.

A positioning detection camera 101 is arranged on one side surface of the motor support 66, a light source 102 is arranged on one side surface of the bottom plate of the material sucking support 71, and the positioning detection camera 101 and the light source 102 are arranged concentrically; a waste chip collecting platform 103 is arranged between the sunken platform 11 and the chip burning area, a waste chip collecting box 104 is arranged on the waste chip collecting platform 103, and a backlight source 105 is arranged on the longitudinal rear side of the waste chip collecting box 104.

The detailed description of the embodiments of the present invention is provided above, but the present invention is only the preferred embodiments of the present invention, and should not be considered as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the invention shall fall within the scope of the patent coverage of the present invention.

Claims (8)

1. Chip burns machine, it includes board and chip suction means, be provided with chip on the board and burn the district, burn and install the ware of burning through the ware fixing base in the district through burning the ware, the vertical rear side in district is burned to the chip is equipped with horizontal linear module, chip suction means installs on vertical lift mechanism, vertical lift mechanism connects on vertical linear module, vertical linear module connect in on the horizontal linear module, its characterized in that: the device comprises a machine table, a box cover, a burner fixing seat and a burner, and is characterized by further comprising a disc-mounted chip feeding device and/or a braid chip feeding device, wherein a box-shaped cover is arranged on the machine table, a feeding hole is formed in the bottom of the left side wall of the box-shaped cover, a sunken platform is arranged at a position, right opposite to the feeding hole, of the machine table, the discharging end of the disc-mounted chip feeding device and/or the braid chip feeding device extends into the box-shaped cover through the feeding hole and is detachably mounted on the sunken platform, and ten burner mounting holes are formed in the burner fixing seat;

the feeding device for the coiled chips comprises a tray bearing plate and a rectangular box body, wherein the transverse front side end of the rectangular box body penetrates through the feed inlet and then is detachably installed on the sunken platform, three pairs of stand columns which are symmetrical to each other are respectively arranged on the longitudinal two side walls of the transverse rear side end of the rectangular box body, the three pairs of stand columns are used for separating the upper space of the transverse rear side end of the rectangular box body into a good product tray area and a feeding tray area from back to front, good product tray supporting mechanisms which are symmetrical to each other are arranged on the longitudinal two side walls of the rectangular box body in the good product tray area, feeding tray supporting mechanisms which are symmetrical to each other are arranged on the longitudinal two side walls of the rectangular box body in the feeding tray area, a transverse translation mechanism is arranged in the rectangular box body, the tray bearing plate can be vertically movably installed on the transverse translation mechanism, and the transverse translation mechanism can drive the tray bearing plate to be horizontally and reciprocally transported Moving, so that the tray bearing plate can convey the trays between the feeding tray area and the table board of the chip burning machine and between the table board of the chip burning machine and the good-quality tray area;

braid chip feedway includes the bottom plate, waits to burn braid feeding mechanism of burning the chip and the braid receiving agencies who has burned the chip, braid feeding mechanism, braid receiving agencies all along the level transversely set up in on the bottom plate just braid receiving agencies set up in braid feeding mechanism's vertical front side, the horizontal right side end of bottom plate passes detachably install in behind the feed inlet on the platform that sinks.

2. The chip burner of claim 1, wherein: the transverse translation mechanism comprises an electric lead screw transmission assembly horizontally arranged in the rectangular box body, the electric lead screw transmission assembly is connected with a transverse translation platform, a containing cavity is formed in the center of the transverse translation platform, the tray bearing plate is contained in the containing cavity of the transverse translation platform, a vertical pushing motor is arranged in the transverse translation platform, and a push rod of the vertical pushing motor is fixedly connected with the bottom surface of the tray bearing plate.

3. The chip burner of claim 1, wherein: braid receiving agencies including set up in the carrier film platform of the horizontal extension in edge of bottom plate longitudinal front side, be equipped with in proper order from the right side left on the carrier film platform and beat subassembly, fan subassembly, miniature camera subassembly and material membrane adjusting part, the left end portion of carrier film platform installs the runner wheel subassembly just the left end portion of carrier film platform has the charging tray support, the charging tray support is gone up and has been set gradually the material mould dish, send the membrane dish and receive the material dish along anticlockwise, just the material mould dish, send the membrane dish and receive the material dish and be in same vertical plane.

4. The chip burner of claim 3, wherein: the braid feeding mechanism comprises a feeding disc and a film collecting disc, a flight assembly is arranged on the longitudinal rear side of the film carrying platform, the rotatable film collecting disc is mounted at the transverse left side end of the flight assembly, a vertical support extending downwards is fixedly mounted on the rear side face of the left end of the film carrying platform, the feeding disc is mounted at the bottom end of the vertical support, and the feeding disc and the film collecting disc are located in the same vertical plane.

5. The chip burner according to any of claims 1-4, wherein: chip suction means is including inhaling material support and two suction nozzle pole subassemblies, it is equipped with two sets of vertical translation mechanisms that are parallel to each other to inhale on the material support, each all be connected with one on the vertical translation mechanism the suction nozzle pole subassembly, vertical translation mechanism including set firmly in inhale vertical drive actuating cylinder on a side upper portion of material support and the vertical guide rail of lower part, sliding connection has a slider on the vertical guide rail, the rigid coupling has a right angle shape adaptor on the slider, vertical drive actuating cylinder's push rod with right angle shape adaptor rigid coupling, suction nozzle pole subassembly run through install in pass down behind the right angle shape adaptor the bottom plate of inhaling the material support.

6. The chip burner of claim 5, wherein: the chip suction device further comprises a synchronous rotating mechanism, the synchronous rotating mechanism comprises a synchronous motor fixedly arranged on the lower portion of the other side face of the suction support, a synchronous belt pulley is installed on an output shaft of the synchronous motor, the suction nozzle rod assembly penetrates through the right-angle adapter from top to bottom, a synchronous cam is sleeved behind the right-angle adapter, and the suction nozzle rod assembly is connected with the synchronous belt pulley in a synchronous rotating mode through a synchronous belt.

7. The chip burner of claim 6, wherein: vertical lift mechanism includes elevator plate, elevator motor, sliding block and lift lead screw, two elevating guide that are parallel to each other have set firmly on elevator plate's a side, elevator motor passes through motor support mounting in two elevating guide's upper portion, the both ends difference sliding connection of sliding block is in two on the elevating guide, elevator motor's output shaft passes downwards motor support and through rolling bearing and shaft coupling with the lift lead screw is connected, the bottom of lift lead screw is passed through screw-nut and is connected the elevator, the side of elevator with inhale material support rigid coupling, another side with the sliding block rigid coupling.

8. The chip burner of claim 7, wherein: a positioning detection camera is mounted on one side face of the motor support, a light source is mounted on one side face of a bottom plate of the material suction support, and the positioning detection camera and the light source are arranged concentrically; a waste chip collecting platform is arranged between the sunken platform and the chip burning area, a waste chip collecting box is arranged on the waste chip collecting platform, and a backlight source is arranged on the longitudinal rear side of the waste chip collecting box.

Images