CN204621771U - Full-automatic chip mounter - Google Patents

Abstract

The utility model discloses a kind of full-automatic chip mounter, it comprises frame, and frame has sapphire sheet processing section and ceramic disk processing section; Wherein, ceramic disk processing section has ceramic disk baking station and paster apparatus, described paster apparatus is arranged on the top of ceramic disk baking station, ceramic disk baking station has ceramic disk baking table and indexing table apparatus, ceramic disk baking table is rotatably installed in frame, and indexing table apparatus and ceramic disk baking table are in transmission connection so that indexing table apparatus drives ceramic disk baking table to rotate a certain angle; Sapphire sheet processing section comprises: bearing basket fixed mechanism, and described bearing basket fixed mechanism is provided with multiple bearing basket for locating bearing basket and fixes station; Wax applyor, described Wax applyor has Machine for throwing wax structure and Di La mechanism, and Machine for throwing wax structure is provided with sapphire sheet and places turntable.The utility model can not only realize the automatic drip wax paster to sapphire sheet, and improves yield rate and paster efficiency.

Description

Full-automatic chip mounter

Technical field

The utility model relates to a kind of full-automatic chip mounter.

Background technology

At present, along with the develop rapidly of photoelectric technology, photovoltaic increases day by day to saphire substrate material demand; Simultaneously along with the continuous expansion of LED element, sapphire has become one of most important backing material, has great domestic and international market demand.But due in space flight, the important application of the aspects such as military affairs, the process technology of sapphire wafer is all very secret in western countries, sapphire processing process is as follows: a blanking → b periphery grinding → c peripheral chamfer → d bevel ground → e plane lapping → f mirror finish → g cleaning, usually manual operation is adopted for e → f middle process in prior art, manual process is heated to constant temperature a period of time after uniform temperature for polishing disk ceramic polished dish being placed in baking oven, take out, lie against operating desk, get buffing wax uniform segmentation and be applied on polishing disk that (region of smearing buffing wax is preferably symmetrical, so that sapphire wafer uniform force during polishing), sapphire wafer is placed in respectively buffing wax gently rubs and there is no bubble between wafer and buffing wax, then the weight getting a uniform quality is placed on polishing disk, after polished dish is cooled to room temperature, weight is removed, solvent is picked by clean for buffing wax unnecessary for wafer periphery erasing with cotton balls.

Manually be difficult to control uniformity coefficient to polishing disk waxing, that certain waste is (after polished dish is cooled to room temperature to the cost of mirror finish process time and wax, weight is removed, solvent is picked by clean for buffing wax unnecessary for wafer periphery erasing with cotton balls), and artificial waxing efficiency is very low.Artificial buffing wax sapphire wafer being placed in respectively uniform temperature is gently rubbed and does not have bubble between wafer and buffing wax, this artificial compressing tablet is high to workman's technical requirement, and efficiency is low, quality is unstable.And polishing disk has certain temperature, be also a kind of hidden danger to operator's safety, manually-operated words, its paster yield rate is lower, and wastes time and energy.

Summary of the invention

Technical problem to be solved in the utility model is the defect overcoming prior art, provides a kind of full-automatic chip mounter, and it can not only realize the automatic drip wax paster to sapphire sheet, and improves yield rate and paster efficiency.

In order to solve the problems of the technologies described above, the technical solution of the utility model is: a kind of full-automatic chip mounter, and it comprises frame, and frame has sapphire sheet processing section and ceramic disk processing section,

Wherein, ceramic disk processing section has ceramic disk baking station and paster apparatus, described paster apparatus is arranged on the top of ceramic disk baking station, ceramic disk baking station has ceramic disk baking table and indexing table apparatus, ceramic disk baking table is rotatably installed in frame, and indexing table apparatus and ceramic disk baking table are in transmission connection so that indexing table apparatus drives ceramic disk baking table to rotate a certain angle;

Wherein, described sapphire sheet processing section comprises:

Bearing basket fixed mechanism, described bearing basket fixed mechanism is provided with multiple bearing basket for locating bearing basket and fixes station;

Wax applyor, described Wax applyor has Machine for throwing wax structure and Di La mechanism, and Machine for throwing wax structure is provided with sapphire sheet and places turntable, and Di La mechanism has drips wax device, and drips the top that wax device is arranged on sapphire sheet placement turntable;

Sapphire sheet baking mechanism, described sapphire sheet baking mechanism has sapphire sheet baking table;

Paster switching mechanism, described paster switching mechanism has sapphire sheet absorptive table, and the sapphire sheet be positioned on sapphire sheet absorptive table is stood up and is delivered on the ceramic disk that is positioned on ceramic disk baking table and makes a wax face of dripping for this sapphire sheet be fitted on ceramic disk by described paster switching mechanism;

First manipulator, described first manipulator is arranged in frame, and the sapphire sheet in bearing basket is delivered on sapphire sheet placement turntable by described first manipulator;

Second manipulator, described second manipulator is arranged in frame, and described second manipulator is by sapphire sheet, and the sapphire sheet of placing on turntable is delivered to sapphire sheet baking table; Sapphire sheet on sapphire sheet baking table is also delivered on sapphire sheet absorptive table by described second manipulator.

Further provide a kind of concrete structure of ceramic disk processing section to realize Automatic Conveying ceramic disk, described ceramic disk processing section also has ceramic disk carrying station, ceramic disk charge and discharge manipulator, ceramic disk preheating station, ceramic disk compresses cooling station and ceramic disk unloading station, ceramic disk carrying station, ceramic disk preheating station, ceramic disk baking station, ceramic disk compresses cooling station and ceramic disk unloading station sets gradually in order, described ceramic disk charge and discharge manipulator has multiple armful disc mechanism embracing ceramic disk, and multiple armfuls of disc mechanisms and ceramic disk carrying station, ceramic disk preheating station, ceramic disk baking station, it is corresponding with ceramic disk unloading station to be moved on adjacent next station from a station by ceramic disk that ceramic disk compresses cooling station.

Further provide a kind of concrete structure of ceramic disk preheating station, described ceramic disk preheating station comprises preheating warm table, insulating assembly, two-pass Power Component and two-pass platform, preheating warm table is connected in frame by insulating assembly, two-pass platform is arranged on the middle part of preheating warm table, and two-pass platform can move up and down relative to preheating warm table, two-pass Power Component and two-pass platform are in transmission connection to drive two-pass platform to move up and down relative to preheating warm table.

Further provide the concrete structure that a kind of ceramic disk compresses cooling station, described ceramic disk compresses cooling station and comprises compression force piece, upper cooler pan, lower cooler pan and cooler pan two-pass Power Component and cooler pan two-pass platform, compressing force piece drives upper cooler pan to move up and down in frame, upper cooler pan and lower cooler pan match so that both middle pressure holding ceramic disks, lower cooler pan is arranged in frame, cooler pan two-pass platform is arranged on the middle part of lower cooler pan, and cooler pan two-pass platform can move up and down relative to lower cooler pan, cooler pan two-pass Power Component and cooler pan two-pass platform are in transmission connection to drive cooler pan two-pass platform to move up and down relative to lower cooler pan.

Further provide a kind of concrete structure of ceramic disk charge and discharge manipulator, described ceramic disk charge and discharge manipulator also has traversing Power Component and embraces dish installing plate, traversing Power Component is arranged in frame, the movable end of traversing Power Component coil installing plate and is fixedly connected with embracing, and a described disc mechanism of embracing is arranged on to embrace and coils on installing plate.

Further in order to avoid ceramic disk directly directly contacts the phenomenon occurring to chap under normal temperature state with ceramic disk baking table, described ceramic disk baking station also has ceramic disk two-pass Power Component and ceramic disk two-pass platform, ceramic disk two-pass platform is arranged on the middle part of ceramic disk baking table, and ceramic disk two-pass platform can move up and down relative to ceramic disk baking table, ceramic disk two-pass Power Component and ceramic disk two-pass platform are in transmission connection to drive ceramic disk two-pass platform to move up and down relative to ceramic disk baking table.

Further provide a kind of concrete structure of paster apparatus, described paster apparatus comprises the traversing Power Component of paster, compressing tablet Power Component and compressing tablet air bag, compressing tablet Power Component is connected with the movable end of traversing Power Component, and compressing tablet air bag is fixedly connected on the end of compressing tablet Power Component.

Further provide a kind of concrete structure of Wax applyor, in described Wax applyor, Machine for throwing wax structure also has elevating bracket, lifting drive assembly, rotary power assembly and vacuum absorption device, lifting drive assembly is arranged in frame, elevating bracket is arranged on the movable end of lifting drive assembly, rotary power assembly is arranged on elevating bracket, described sapphire sheet is placed turntable and be can be rotated to support on elevating bracket, and rotary power assembly and sapphire sheet are placed turntable and are in transmission connection so that rotary power Component driver sapphire sheet places turntable and rotate on elevating bracket, vacuum absorption device is arranged on sapphire sheet and places on turntable for use in absorption sapphire sheet, described Di La mechanism also has drips wax device transverse-moving mechanism, dripping wax transverse-moving mechanism is arranged in frame, described wax device is arranged on the movable end of a wax transverse-moving mechanism.

Further providing a kind of concrete structure of paster switching mechanism the sapphire sheet be positioned on sapphire sheet absorptive table to be stood up and to be delivered on the ceramic disk that is positioned on ceramic disk baking table makes a wax face of dripping for this sapphire sheet be fitted on ceramic disk, described paster switching mechanism has the traversing Power Component of upset, upset jacking Power Component and upset Power Component, upset jacking Power Component be arranged on overturn traversing Power Component movable end on drive overturn jacking assembly relative to frame transverse shifting to overturn traversing Power Component, the movable end that upset Power Component is arranged on upset jacking assembly moves up and down to overturn jacking Component driver upset Power Component relative to frame, described sapphire sheet absorptive table is arranged on the movable end of upset Power Component.

Further provide the concrete structure of a kind of first manipulator and the second manipulator, described first manipulator and described second manipulator include manipulating hoist structure, manipulator rotating mechanism, manipulator stepping mechanism and mechanical arm, manipulating hoist structure is arranged in frame, so that manipulating hoist structure driving device hand-screw rotation mechanism moves up and down relative to frame on the movable end that manipulator rotating mechanism is arranged on manipulating hoist structure, so that manipulator rotating mechanism driving device hand stepping mechanism rotates relative to frame on the movable end that manipulator stepping mechanism is arranged on manipulator rotating mechanism, so that manipulator stepping mechanism driving device arm does traversing action relative to frame on the movable end that described mechanical arm is arranged on manipulator stepping mechanism.

After have employed technique scheme, the sapphire sheet that sapphire sheet in bearing basket is delivered to Machine for throwing wax structure by the first manipulator is placed on turntable, then undertaken dripping Lasaxing Oilfield by the wax face of dripping of wax device to the sapphire sheet that sapphire sheet is placed on turntable of dripping of Di La mechanism, sapphire sheet places turntable at High Rotation Speed simultaneously, wax is layered on equably on a wax face of sapphire sheet, then by the second manipulator sapphire sheet placed and turntable dripped sapphire sheet that wax completes and be delivered on sapphire sheet baking table and toast, by the second manipulator the sapphire sheet that sapphire sheet baking table has toasted is delivered on the sapphire sheet absorptive table on paster switching mechanism again, this sapphire sheet being overturn by paster switching mechanism and being delivered on the ceramic disk that is positioned on ceramic disk baking table makes a wax face of dripping for this sapphire sheet be fitted on ceramic disk, it can not only realize the automatic drip wax paster to sapphire sheet, and improve yield rate and paster efficiency, in addition, in ceramic disk processing section, described ceramic disk charge and discharge manipulator is by embracing disc mechanism, and ceramic disk is taken out from ceramic disk carrying station and is delivered to ceramic disk preheating station successively, ceramic disk baking station, ceramic disk compresses cooling station and ceramic disk unloading station completes each operation, wherein, ceramic disk preheating station is used for carrying out the pre-heat treatment to ceramic disk, at 6min ~ 8min, ceramic disk can be preheated to 120 DEG C, ceramic disk baking station is used for toasting ceramic disk, sapphire sheet is attached on ceramic disk, this ceramic disk baking station has indexing table apparatus, by the rotation to ceramic disk baking table, sapphire sheet is divided equally in the circumference of ceramic disk, ceramic disk compresses cooling station can carry out pressurization cooling processing by the ceramic disk good to paster, finally by ceramic disk charge and discharge manipulator, ceramic disk complete for cooling processing is delivered on ceramic disk unloading station, complete whole operation.

Accompanying drawing explanation

Fig. 1 is the stereogram of full-automatic chip mounter of the present utility model;

Fig. 2 is the structural representation of sapphire processing section of the present utility model;

Fig. 3 is the A-A sectional view in Fig. 2;

Fig. 4 is the stereogram of bearing basket fixed mechanism of the present utility model;

Fig. 5 is the structural representation of Machine for throwing wax structure of the present utility model;

Fig. 6 is the structural representation of Di La mechanism of the present utility model;

Fig. 7 is the structural representation of paster switching mechanism of the present utility model;

Fig. 8 is the stereogram of the first manipulator of the present utility model and the second manipulator;

Fig. 9 is the structure sectional view of the first manipulator of the present utility model and the second manipulator;

Figure 10 is the stereogram of ceramic disk processing section of the present utility model;

Figure 11 is the structural representation of ceramic disk preheating station of the present utility model;

Figure 12 is the B-B sectional view of Figure 11;

Figure 13 is the structural representation of ceramic disk of the present utility model baking station;

Figure 14 is the C-C sectional view of Figure 13;

Figure 15 is the part-structure schematic diagram that ceramic disk of the present utility model compresses cooling station;

Figure 16 is the structural representation of ceramic disk charge and discharge manipulator of the present utility model;

Figure 17 is the structural representation of paster apparatus of the present utility model;

Detailed description of the invention

In order to make content of the present utility model more easily be clearly understood, below according to specific embodiment also by reference to the accompanying drawings, the utility model is described in further detail.

As shown in Fig. 1 ~ 17, a kind of full-automatic chip mounter, it comprises frame, and frame has sapphire sheet processing section and ceramic disk processing section;

Wherein, ceramic disk processing section has ceramic disk baking station 1 and paster apparatus 2, paster apparatus 2 is arranged on the top of ceramic disk baking station 1, ceramic disk baking station 1 has ceramic disk baking table 11 and indexing table apparatus 12, ceramic disk baking table 11 is rotatably installed in frame, and indexing table apparatus 12 and ceramic disk baking table 11 are in transmission connection so that indexing table apparatus 12 drives ceramic disk baking table 11 to rotate a certain angle;

Wherein, described sapphire sheet processing section comprises:

Bearing basket fixed mechanism 3, bearing basket fixed mechanism 3 is provided with multiple bearing basket for locating bearing basket 40 and fixes station 31;

Wax applyor, Wax applyor has Machine for throwing wax structure 4 and Di La mechanism 5, and Machine for throwing wax structure 4 is provided with sapphire sheet placement turntable 41, Di La mechanism 5 and has a wax device 51, and drips the top that wax device 51 is arranged on sapphire sheet placement turntable 41;

Sapphire sheet baking mechanism 50, sapphire sheet baking mechanism 50 has sapphire sheet baking table 501;

Paster switching mechanism 6, described paster switching mechanism 6 has sapphire sheet absorptive table 61, and the sapphire sheet be positioned on sapphire sheet absorptive table 61 is stood up and is delivered on the ceramic disk that is positioned on ceramic disk baking table 11 and makes a wax face of dripping for this sapphire sheet be fitted on ceramic disk by described paster switching mechanism 6;

First manipulator 7, first manipulator 7 is contained in frame, and the sapphire sheet in bearing basket 40 is delivered on sapphire sheet placement turntable 41 by the first manipulator 7;

Second manipulator 8, second manipulator 8 is arranged in frame, and the second manipulator 8 is by sapphire sheet, and the sapphire sheet of placing on turntable 41 is delivered to sapphire sheet baking table 501; Sapphire sheet on sapphire sheet baking table 501 is also delivered on sapphire sheet absorptive table 61 by the second manipulator 8.

As shown in Figure 10, ceramic disk processing section also has ceramic disk carrying station 9, ceramic disk charge and discharge manipulator 400, ceramic disk preheating station 100, ceramic disk compresses cooling station 200 and ceramic disk unloading station 300, ceramic disk carrying station 9, ceramic disk preheating station 100, ceramic disk baking station 1, ceramic disk compresses cooling station 200 and ceramic disk unloading station 300 sets gradually in order, ceramic disk charge and discharge manipulator 400 has multiple armful disc mechanism 401 embracing ceramic disk, and multiple armfuls of disc mechanisms 401 and ceramic disk unloading station 9, ceramic disk preheating station 100, ceramic disk baking station 1, ceramic disk compress cooling station 200 and ceramic disk unloading station 300 corresponding ceramic disk is moved on adjacent next station from a station.

As shown in Figure 11,12.Ceramic disk preheating station 100 comprises preheating warm table 101, insulating assembly 102, two-pass Power Component 103 and two-pass platform 104, preheating warm table 101 is connected in frame by insulating assembly 102, two-pass platform 104 is arranged on the middle part of preheating warm table 101, and two-pass platform 104 can move up and down relative to preheating warm table 101, two-pass Power Component 103 and two-pass platform 104 are in transmission connection to drive two-pass platform 104 to move up and down relative to preheating warm table 101.

As shown in figure 15, ceramic disk compresses cooling station 200 and comprises compression force piece 201, upper cooler pan 202, lower cooler pan 203 and cooler pan two-pass Power Component and cooler pan two-pass platform, compressing force piece 201 drives upper cooler pan 202 to move up and down in frame, upper cooler pan 202 and lower cooler pan 203 match so that both middle pressure holding ceramic disks, lower cooler pan 203 is arranged in frame, cooler pan two-pass platform is arranged on the middle part of lower cooler pan 203, and cooler pan two-pass platform can move up and down relative to lower cooler pan 203, cooler pan two-pass Power Component and cooler pan two-pass platform are in transmission connection to drive cooler pan two-pass platform to move up and down relative to lower cooler pan 203.

As shown in figure 16, ceramic disk charge and discharge manipulator 400 also has traversing Power Component 402 and embraces dish installing plate 403, traversing Power Component 402 is arranged in frame, and the movable end of traversing Power Component 402 coil installing plate 403 and is fixedly connected with embracing, and embraces a disc mechanism 401 and is arranged on to embrace and coils on installing plate 403.

As shown in Figure 13,14, ceramic disk baking station 1 also has ceramic disk two-pass Power Component 13 and ceramic disk two-pass platform 14, ceramic disk two-pass platform 14 is arranged on the middle part of ceramic disk baking table 11, and ceramic disk two-pass platform 14 can move up and down relative to ceramic disk baking table 11, ceramic disk two-pass Power Component 13 and ceramic disk two-pass platform 14 are in transmission connection to drive ceramic disk two-pass platform 14 to move up and down relative to ceramic disk baking table 11.

As shown in figure 17, paster apparatus 2 comprises the traversing Power Component 21 of paster, compressing tablet Power Component 22 and compressing tablet air bag 23, and compressing tablet Power Component 22 is connected with the movable end of traversing Power Component 21, and compressing tablet air bag 23 is fixedly connected on the end of compressing tablet Power Component 22.

As Fig. 5, shown in 6, in Wax applyor, Machine for throwing wax structure 4 also has elevating bracket 42, lifting drive assembly 43, rotary power assembly 44 and vacuum absorption device 45, lifting drive assembly 43 is arranged in frame, elevating bracket 42 is arranged on the movable end of lifting drive assembly 43, rotary power assembly 44 is arranged on elevating bracket 42, sapphire sheet is placed turntable 41 and be can be rotated to support on elevating bracket 42, and rotary power assembly 44 and sapphire sheet are placed turntable 41 and are in transmission connection so that rotary power assembly 44 drives sapphire sheet to place turntable 41 and rotate on elevating bracket 42, vacuum absorption device 45 is arranged on sapphire sheet and places on turntable 41 for use in absorption sapphire sheet, Di La mechanism 5 also has drips wax device transverse-moving mechanism 52, dripping wax transverse-moving mechanism 52 is arranged in frame, drip wax device 51 to be arranged on the movable end of a wax transverse-moving mechanism 52.

As shown in Figure 7, paster switching mechanism 6 has the traversing Power Component 62 of upset, upset jacking Power Component 63 and upset Power Component 64, upset jacking Power Component 63 be arranged on overturn traversing Power Component 62 movable end on drive overturn jacking assembly 63 relative to frame transverse shifting to overturn traversing Power Component 62, the movable end that upset Power Component 64 is arranged on upset jacking assembly 63 drives upset Power Component 64 to move up and down relative to frame to overturn jacking assembly 63, and sapphire sheet absorptive table 61 is arranged on the movable end of upset Power Component 64.

As shown in Figure 9, first manipulator 7 and the second manipulator 8 include manipulating hoist structure 71, manipulator rotating mechanism 72, manipulator stepping mechanism 73 and mechanical arm 74, manipulating hoist structure 71 is arranged in frame, so that manipulating hoist structure 71 driving device hand-screw rotation mechanism 72 moves up and down relative to frame on the movable end that manipulator rotating mechanism 72 is arranged on manipulating hoist structure 71, so that manipulator rotating mechanism 72 driving device hand stepping mechanism 73 rotates relative to frame on the movable end that manipulator stepping mechanism 73 is arranged on manipulator rotating mechanism 72, so that manipulator stepping mechanism 73 driving device arm 74 does traversing action relative to frame on the movable end that described mechanical arm 74 is arranged on manipulator stepping mechanism 73.

Operation principle of the present utility model is as follows:

The sapphire sheet that sapphire sheet in bearing basket 40 is delivered to Machine for throwing wax structure 4 by the first manipulator 7 is placed on turntable 41, then undertaken dripping Lasaxing Oilfield by the wax face of dripping of dripping the sapphire sheet that wax device 51 pairs of sapphire sheet are placed on turntable 41 of Di La mechanism 5, sapphire sheet places turntable 41 at High Rotation Speed simultaneously, wax is layered on equably on a wax face of sapphire sheet, then by the second manipulator 8 sapphire sheet placed and turntable 41 dripped sapphire sheet that wax completes and be delivered on sapphire sheet baking table 11 and toast, by the second manipulator 8 sapphire sheet that sapphire sheet baking table 501 has toasted is delivered on the sapphire sheet absorptive table 61 on paster switching mechanism 6 again, this sapphire sheet being overturn by paster switching mechanism 6 and being delivered on the ceramic disk that is positioned on ceramic disk baking table 11 makes a wax face of dripping for this sapphire sheet be fitted on ceramic disk, it can not only realize the automatic drip wax paster to sapphire sheet, and improve yield rate and paster efficiency, in addition, in ceramic disk processing section, described ceramic disk charge and discharge manipulator 400 is by embracing disc mechanism 401, and ceramic disk is taken out from ceramic disk carrying station 9 and is delivered to ceramic disk preheating station 100 successively, ceramic disk baking station 1, ceramic disk compresses cooling station 200 and ceramic disk unloading station 300 completes each operation, wherein, ceramic disk preheating station 100 is for carrying out the pre-heat treatment to ceramic disk, at 6min ~ 8min, ceramic disk can be preheated to 120 DEG C, ceramic disk baking station 1 is for toasting ceramic disk, sapphire sheet is attached on ceramic disk, this ceramic disk baking station 1 has indexing table apparatus 12, by the rotation to ceramic disk baking table 11, sapphire sheet is divided equally in the circumference of ceramic disk, ceramic disk compresses cooling station 200 can carry out pressurization cooling processing by the ceramic disk good to paster, finally by ceramic disk charge and discharge manipulator 400, ceramic disk complete for cooling processing is delivered on ceramic disk unloading station 300, complete whole operation.

Above-described specific embodiment; technical problem, technical scheme and beneficial effect that the utility model solves are further described; be understood that; the foregoing is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a full-automatic chip mounter, is characterized in that, it comprises frame, and frame has sapphire sheet processing section and ceramic disk processing section;

Wherein, ceramic disk processing section has ceramic disk baking station (1) and paster apparatus (2), described paster apparatus (2) is arranged on the top of ceramic disk baking station (1), ceramic disk baking station (1) has ceramic disk baking table (11) and indexing table apparatus (12), ceramic disk baking table (11) is rotatably installed in frame, and indexing table apparatus (12) and ceramic disk baking table (11) are in transmission connection so that indexing table apparatus (12) drives ceramic disk baking table (11) to rotate a certain angle;

Wherein, described sapphire sheet processing section comprises:

Bearing basket fixed mechanism (3), described bearing basket fixed mechanism (3) is provided with multiple bearing basket for locating bearing basket (40) and fixes station (31);

Wax applyor, described Wax applyor has Machine for throwing wax structure (4) and Di La mechanism (5), Machine for throwing wax structure (4) is provided with sapphire sheet and places turntable (41), Di La mechanism (5) has drips wax device (51), and drips the top that wax device (51) is arranged on sapphire sheet placement turntable (41);

Sapphire sheet baking mechanism (50), described sapphire sheet baking mechanism (50) has sapphire sheet baking table (501);

Paster switching mechanism (6), described paster switching mechanism (6) has sapphire sheet absorptive table (61), and the sapphire sheet be positioned on sapphire sheet absorptive table (61) is stood up and is delivered on the ceramic disk that is positioned on ceramic disk baking table (11) and makes a wax face of dripping for this sapphire sheet be fitted on ceramic disk by described paster switching mechanism (6);

First manipulator (7), described first manipulator (7) is arranged in frame, and the sapphire sheet in bearing basket (40) is delivered in sapphire sheet placement turntable (41) by described first manipulator (7);

Second manipulator (8), described second manipulator (8) is arranged in frame, and described second manipulator (8) sapphire sheet of sapphire sheet being placed on turntable (41) is delivered to sapphire sheet baking table (501); Sapphire sheet on sapphire sheet baking table (501) is also delivered on sapphire sheet absorptive table (61) by described second manipulator (8).

2. full-automatic chip mounter according to claim 1, it is characterized in that: described ceramic disk processing section also has ceramic disk carrying station (9), ceramic disk charge and discharge manipulator (400), ceramic disk preheating station (100), ceramic disk compresses cooling station (200) and ceramic disk unloading station (300), ceramic disk carrying station (9), ceramic disk preheating station (100), ceramic disk baking station (1), ceramic disk compresses cooling station (200) and ceramic disk unloading station (300) sets gradually in order, described ceramic disk charge and discharge manipulator (400) has multiple armful disc mechanism (401) embracing ceramic disk, and multiple armfuls of disc mechanisms (401) and ceramic disk unloading station (9), ceramic disk preheating station (100), ceramic disk baking station (1), ceramic disk compress cooling station (200) and ceramic disk unloading station (300) corresponding ceramic disk is moved on adjacent next station from a station.

3. full-automatic chip mounter according to claim 2, it is characterized in that: described ceramic disk preheating station (100) comprises preheating warm table (101), insulating assembly (102), two-pass Power Component (103) and two-pass platform (104), preheating warm table (101) is connected in frame by insulating assembly (102), two-pass platform (104) is arranged on the middle part of preheating warm table (101), and two-pass platform (104) can move up and down relative to preheating warm table (101), two-pass Power Component (103) and two-pass platform (104) are in transmission connection to drive two-pass platform (104) to move up and down relative to preheating warm table (101).

4. the full-automatic chip mounter according to Claims 2 or 3, it is characterized in that: described ceramic disk compresses cooling station (200) and comprises compression force piece (201), upper cooler pan (202), lower cooler pan (203) and cooler pan two-pass Power Component and cooler pan two-pass platform, compress cooler pan (202) in force piece (201) driving to move up and down in frame, upper cooler pan (202) and lower cooler pan (203) match so that both middle pressure holding ceramic disks, lower cooler pan (203) is arranged in frame, cooler pan two-pass platform is arranged on the middle part of lower cooler pan (203), and cooler pan two-pass platform can move up and down relative to lower cooler pan (203), cooler pan two-pass Power Component and cooler pan two-pass platform are in transmission connection to drive cooler pan two-pass platform to move up and down relative to lower cooler pan (203).

5. the full-automatic chip mounter according to Claims 2 or 3, it is characterized in that: described ceramic disk charge and discharge manipulator (400) also has traversing Power Component (402) and embraces dish installing plate (403), traversing Power Component (402) is arranged in frame, the movable end of traversing Power Component (402) coil installing plate (403) and is fixedly connected with embracing, and a described disc mechanism (401) of embracing is arranged on to embrace and coils on installing plate (403).

6. full-automatic chip mounter according to claim 1, it is characterized in that: described ceramic disk baking station (1) also has ceramic disk two-pass Power Component (13) and ceramic disk two-pass platform (14), ceramic disk two-pass platform (14) is arranged on the middle part of ceramic disk baking table (11), and ceramic disk two-pass platform (14) can move up and down relative to ceramic disk baking table (11), ceramic disk two-pass Power Component (13) and ceramic disk two-pass platform (14) are in transmission connection to drive ceramic disk two-pass platform (14) to move up and down relative to ceramic disk baking table (11).

7. full-automatic chip mounter according to claim 1, it is characterized in that: described paster apparatus (2) comprises the traversing Power Component of paster (21), compressing tablet Power Component (22) and compressing tablet air bag (23), compressing tablet Power Component (22) is connected with the movable end of traversing Power Component (21), and compressing tablet air bag (23) is fixedly connected on the end of compressing tablet Power Component (22).

8. full-automatic chip mounter according to claim 1, it is characterized in that: in described Wax applyor, Machine for throwing wax structure (4) also has elevating bracket (42), lifting drive assembly (43), rotary power assembly (44) and vacuum absorption device (45), lifting drive assembly (43) is arranged in frame, elevating bracket (42) is arranged on the movable end of lifting drive assembly (43), rotary power assembly (44) is arranged on elevating bracket (42), described sapphire sheet is placed turntable (41) and be can be rotated to support on elevating bracket (42), and rotary power assembly (44) and sapphire sheet are placed turntable (41) and are in transmission connection so that rotary power assembly (44) drives sapphire sheet to place turntable (41) and go up at elevating bracket (42) and rotate, vacuum absorption device (45) is arranged on sapphire sheet and places on turntable (41) for use in absorption sapphire sheet, described Di La mechanism (5) also has drips wax device transverse-moving mechanism (52), dripping wax transverse-moving mechanism (52) is arranged in frame, described wax device (51) is arranged on the movable end of a wax transverse-moving mechanism (52).

9. full-automatic chip mounter according to claim 1, it is characterized in that: described paster switching mechanism (6) has the traversing Power Component of upset (62), upset jacking Power Component (63) and upset Power Component (64), upset jacking Power Component (63) be arranged on upset traversing Power Component (62) movable end in case overturn traversing Power Component (62) drive upset jacking assembly (63) relative to frame transverse shifting, upset Power Component (64) be arranged on upset jacking assembly (63) movable end in case overturn jacking assembly (63) drive upset Power Component (64) move up and down relative to frame, described sapphire sheet absorptive table (61) is arranged on the movable end of upset Power Component (64).

10. full-automatic chip mounter according to claim 1, it is characterized in that: described first manipulator (7) and described second manipulator (8) include manipulating hoist structure (71), manipulator rotating mechanism (72), manipulator stepping mechanism (73) and mechanical arm (74), manipulating hoist structure (71) is arranged in frame, so that manipulating hoist structure (71) driving device hand-screw rotation mechanism (72) moves up and down relative to frame on the movable end that manipulator rotating mechanism (72) is arranged on manipulating hoist structure (71), so that manipulator rotating mechanism (72) driving device hand stepping mechanism (73) rotates relative to frame on the movable end that manipulator stepping mechanism (73) is arranged on manipulator rotating mechanism (72), so that manipulator stepping mechanism (73) driving device arm (74) does traversing action relative to frame on the movable end that described mechanical arm (74) is arranged on manipulator stepping mechanism (73).