CN204823199U

CN204823199U - Full -automatic binary fritting furnace

Info

Publication number: CN204823199U
Application number: CN201520475117.5U
Authority: CN
Inventors: 林福兴
Original assignee: Individual
Current assignee: Chengdu Jinwu Cemented Alloy Co ltd
Priority date: 2015-07-04
Filing date: 2015-07-04
Publication date: 2015-12-02
Anticipated expiration: 2025-07-04

Abstract

The utility model relates to a full -automatic binary fritting furnace (b), its degree of automation is high, production efficiency is high, the cost of labor is low. Full -automatic binary fritting furnace includes the hot -pressing sintering stove and the cooling stove that set gradually according to the assembly line, the top that lies in the hot pressing workstation on the hot -pressing sintering stove still is equipped with and can goes upward the device propelling movement from hot pressing with the work piece and go upward the hot pressing material feeding unit on the device to the cooling, hot pressing material feeding unit is including locating pushing away the material crane and locating a pushing equipment who pushes away material crane top of hot pressing workstation top, the place ahead of hot -pressing sintering stove still is equipped with charging devices, charging devices including the frame and locating of feeding feed the frame top can be with the work piece of treating sintering hot -pressing sintering's from charging devices propelling movement to the hot -pressing sintering stove the 2nd blevile of push, the rear of cooling stove is equipped with unloader, what unloader included the unloading frame and located unloading frame top can be with the mould of fit -up man spare the 2nd blevile of push on from the unloader propelling movement to charging devices.

Description

Full automaticity binary sintering furnace

Technical field

The utility model relates to a kind of sintering furnace, especially relates to a kind of full automaticity binary sintering furnace.

Background technology

The sinter molding of current diamond saw blade mostly generally is without pressure sintering, and mostly adopt clock hood type furnace or shaft furnace sinter molding, diamond saw blade controls by temperature changing factor in burner hearth, reaches alloying effect by specific sintering process curve.These two kinds of equipment do not apply any pressure at sintering process to saw blade, freely sinter is that low-melting-point metal leans on capillary phenomenon between particle to shrink, reach ideal grade, but low-melting-point metal content acquires a certain degree, low being then difficult to of content is shunk, content height then causes carcass firmly crisp, be easy to fracture, and freely sinter the grade requirement of metal powder high especially, a small amount of oxidation all can cause sintered body performance fluctuation, easily instability is there is, the defect of uneven thickness one in production process.

China Patent No. is: ZL200520133960.1 discloses a kind of sintering furnace with the band gas shield of cool furnace, it comprises hot-pressed sintering furnace and cool furnace, described hot-pressed sintering furnace is four pillar constructions, comprise cross sill, place work piece and the bench board be on hydraulic actuating cylinder, be placed in the objective table on hot-pressed sintering furnace cross sill, cool furnace and hot-pressed sintering furnace are independently arranged, its structure is four pillar constructions, comprise for place cooled workpiece and the bench board be in above cross sill, on the cross sill of hot-pressed sintering furnace and cool furnace, hydraulic actuating cylinder for pressurizeing also is housed respectively, control system adopts computer controlled, by Hydraulic Station respectively to the workpiece pressurization in hot pressing furnace and cool furnace.This equipment adopts hot pressed sintering, defect when above-mentioned clock hood type furnace or shaft furnace sintering furnace sintered saw bits can be solved, but, this patent does not arrange material-pulling device, need after hot-pressed sintering furnace sintering to adopt hand power tool to be pushed to the bench board of cool furnace by workpiece from hot-pressed sintering furnace bench board, degree of automation is not high, and production efficiency is low, and cost of labor is high.

Utility model content

For the problems referred to above, the utility model proposes the full automaticity binary sintering furnace that a kind of degree of automation is high, production efficiency is high, cost of labor is low.

For solving this technical matters, the utility model takes following scheme: a kind of full automaticity binary sintering furnace, comprise the hot-pressed sintering furnace and cool furnace that set gradually according to conveyor line, described hot-pressed sintering furnace comprises hot pressing frame, be located at the hot press working platform of hot pressing frame lower, be located at the hot pressing ascending unit on hot press working platform and be located at the thermotank of the corresponding hot pressing ascending unit setting of hot pressing upper rack, the upper inside in thermotank of described hot pressing frame is also provided with hot pressing upper plate, described cool furnace comprises cooling racks, be located at bosher's station of cooling racks bottom, be located at the cooling ascending unit in bosher's station and be located at the cooling tank of cooling racks top correspondence cooling ascending unit setting, the inside described cooling racks being positioned at cooling tank is also provided with cooling upper plate, it is characterized in that: the top described hot-pressed sintering furnace being positioned at hot press working platform is also provided with the hot pressing pay-off that workpiece can be pushed to from hot pressing ascending unit cooling ascending unit, described hot pressing pay-off comprises the pusher crane be located at above hot press working platform and the first pusher be located at above pusher crane, described first pusher comprises spaced first left side board in left and right and the first right side board, first reducing motor, two first transmission shafts, the top of described first left side board and the first right side board is provided with the first pusher platen, be positioned between described first left side board and the first right side board that the both sides of the first left side board and the first right side board are rotating is respectively equipped with the first pusher screw mandrel, spiral shell gone back respectively by described each first pusher screw mandrel and is provided with the first pusher slipping block, the outside of described each first pusher slipping block is along being respectively equipped with the first connection riser stretching out the first pusher platen, the first bridge crossing plate is connected with between described two first connection risers, the front of described first bridge crossing plate is provided with first and cuts somebody's hair, the middle part of described first pusher platen is provided with for the up up through hole of workpiece, the free side of described first left side board is provided with the first gear frame, described first reducing motor is located on the first gear frame, radial torque is converted into the first transmission shaft that axial torque exports both sides to by the output shaft of described first reducing motor, transmission of power is given each first pusher screw mandrel respectively by a pair bevel gear by each first transmission shaft, the front of described hot-pressed sintering furnace is also provided with feeding device, described feeding device comprises charging frame and is located at second material-pulling device that workpiece to be sintered can be pushed to hot pressed sintering hot-pressed sintering furnace from feeding device above charging frame, the rear of described cool furnace is provided with blanking device, described blanking device comprises blanking frame and is located at second material-pulling device that the mould of dress workpiece can be pushed to from blanking device feeding device above blanking frame, the top described cool furnace being positioned at cooling work platform is also provided with the cooling pay-off that workpiece can be pushed to from cooling ascending unit blanking device, described cooling pay-off comprises the pusher crane be located at above bosher's station and the first pusher be located at above pusher crane.

Further improvement: described first pusher platen is respectively equipped with the first release limiting stopper away from those both sides, one end of the first bridge crossing plate.

Further improvement: the both sides, front of described first bridge crossing plate are also respectively equipped with first and push limiting stopper.

Further improvement: the described first both sides, front of cutting somebody's hair are also telescopic is respectively arranged with the first adjusting screw(rod).

Further improvement: the down either side being positioned at the first left side board and the first right side board between described first left side board and the first right side board is also equipped with the first guiding polished rod respectively, lead polished rod sliding block joint for the bottom and first of described first pusher slipping block.

Further improvement: described second material-pulling device comprises spaced second left side board in left and right and the second right side board respectively, second reducing motor, two second driving shafts, be positioned between described second left side board and the second right side board that the both sides of the second left side board and the second right side board are rotating is respectively equipped with the second pusher screw mandrel, spiral shell gone back respectively by described each second pusher screw mandrel and is provided with the second pusher slipping block, the top of described second left side board and the second right side board is provided with the second pusher platen, the outside of described each second pusher slipping block is along being respectively equipped with the second connection riser stretching out the second pusher platen, the second bridge crossing plate is connected with between described two second connection risers, the front of described second bridge crossing plate is provided with second and cuts somebody's hair, the free side of described second left side board is provided with the second gear frame, radial torque is converted into the second driving shaft that axial torque exports both sides to by the output shaft of described second reducing motor, transmission of power is given each second pusher screw mandrel respectively by a pair bevel gear by each second driving shaft.

Further improvement: described hot pressing ascending unit comprises hot pressing oil cylinder, sand table, oil cylinder headstock, pressure head cooling vessel and pressure head plate, the cylinder body of described hot pressing oil cylinder is located on hot press working platform, what can stretch respectively up and down in the both sides being positioned at hot pressing oil cylinder of described hot press working platform is provided with line slideway, described oil cylinder headstock is located on the piston rod of hot pressing oil cylinder, described pressure head cooling vessel is located at above oil cylinder headstock, the both sides of oil cylinder headstock are connected with each line slideway respectively by guide pillar straining beam, the top of pressure head cooling vessel is located at by described sand table, the top of sand table is located at by described pressure head plate, also heat insulation is provided with between described pressure head plate and sand table.

By adopting preceding solution, the beneficial effects of the utility model are: during work, first the mould that workpiece is housed is positioned on the second pusher platen on feeding device, behind location, utilizing second to cut somebody's hair pushes to above the pressure head plate of the hot pressing ascending unit of hot-pressed sintering furnace by the mould that workpiece is housed on feeding device, when above the mould that workpiece is housed is placed in the pressure head plate of hot-pressed sintering furnace, the piston rod of hot pressing oil cylinder is up, thus the hot pressing upper plate position driving workpiece to go upward to hot pressing frame is carried out hot-forming, after hot-forming, the piston rod of hot pressing oil cylinder is descending, thus drive workpiece to come downwards to and be in same plane with the cooling ascending unit of cool furnace, behind location, drive the first reducing motor work, first reducing motor drives each first pusher screw mandrel to rotate, drive the first bridge crossing plate and be located at first on the first bridge crossing plate while each first pusher screw mandrel rotates and cut somebody's hair to cool furnace direction and move, thus utilize the first workpiece after by the hot pressed sintering on hot-pressed sintering furnace of cutting somebody's hair to push to above the cooling pressure head plate of the cooling ascending unit of cool furnace, when above the mould that workpiece is housed is placed in the cooling pressure head plate of cool furnace, the piston rod of cooling oil cylinder is up, thus pressurization cooling is carried out in the cooling upper plate position driving workpiece to go upward to cooling racks, after pressurization cooling, the piston rod of cooling oil cylinder is descending, thus drive workpiece to come downwards to the second pusher platen of blanking device in the same plane, behind location, utilizing first to cut somebody's hair pushes on the second pusher platen of blanking device by cooled for the pressurization in cool furnace workpiece and part mould, behind location, unload workpiece, and then utilize the second material-pulling device to be pushed to by part mould on the second pusher platen of feeding device, and so forth, realize sintering automatically, automatic cooling, blanking, the function of charging, it is rational in infrastructure, degree of automation is high, greatly enhance production efficiency, reduce cost of labor.

Accompanying drawing explanation

Figure 1A is the front view of the utility model embodiment assembly drawing;

Figure 1B is the birds-eye view of the utility model embodiment assembly drawing;

Fig. 1 C is the lateral plan of the utility model embodiment assembly drawing;

Fig. 2 is the structural representation of the utility model embodiment hot-pressed sintering furnace;

Fig. 3 is the structural representation of the utility model embodiment cool furnace;

Fig. 4 is the front view of the utility model embodiment first pusher.

Fig. 5 is the birds-eye view of the utility model embodiment first pusher.

Fig. 6 is the lateral plan of the utility model embodiment first pusher.

Fig. 7 is the front view of the utility model embodiment second material-pulling device.

Fig. 8 is the birds-eye view of the utility model embodiment second material-pulling device.

Fig. 9 is the structural representation of the utility model embodiment hot pressing ascending unit.

Figure 10 is the structural representation of the utility model embodiment cooling ascending unit.

Detailed description of the invention

Now with specific embodiment, the utility model is further illustrated by reference to the accompanying drawings.

Embodiment:

With reference to Figure 1A, Figure 1B, Fig. 1 C, Fig. 2 and Fig. 9, the present embodiment discloses a kind of full automaticity binary sintering furnace, comprise the feeding device 1 set gradually according to conveyor line, hot-pressed sintering furnace 2, cool furnace 3 and blanking device 4, described hot-pressed sintering furnace 2 comprises hot pressing frame 21, be located at the hot press working platform 22 of hot pressing frame 21 bottom, be located at the hot pressing ascending unit 23 on hot press working platform 22 and be located at the thermotank 24 of corresponding hot pressing ascending unit 23 setting in hot pressing frame 21 top, the inside described hot pressing frame 21 being positioned at thermotank 24 is also provided with hot pressing upper plate 25, described hot pressing ascending unit 23 comprises hot pressing oil cylinder 231, sand table 232, oil cylinder headstock 234, pressure head cooling vessel 235 and pressure head plate 236, the cylinder body of described hot pressing oil cylinder 231 is located on hot press working platform 22, what can stretch respectively up and down in the both sides being positioned at hot pressing oil cylinder 231 of described hot press working platform 22 is provided with line slideway 26, described oil cylinder headstock 234 is located on the piston rod of hot pressing oil cylinder 231, described pressure head cooling vessel 235 is located at above oil cylinder headstock 234, the both sides of oil cylinder headstock 234 are connected with each line slideway 26 respectively by guide pillar straining beam 237, the top of pressure head cooling vessel is located at by described sand table 232, the top of sand table 232 is located at by described pressure head plate 236, heat insulation 27 is also provided with between described pressure head plate 236 and sand table 232.

With reference to Figure 1A, Figure 1B, Fig. 1 C, Fig. 3 and Figure 10, described cool furnace 3 comprises cooling racks 31, be located at bosher's station 32 of cooling racks 31 bottom, be located at the cooling ascending unit 33 in bosher's station 32 and be located at the cooling tank 34 of cooling racks 31 top correspondence cooling ascending unit 33 setting, the inside described cooling racks 31 being positioned at cooling tank 34 is also provided with cooling upper plate 35, described cooling ascending unit comprises cooling oil cylinder 331, cooling sand table 332, oil coolant cylinder head seat 333, parallels 334 and cooling pressure head plate 335, the cylinder body of described cooling cylinder 331 is located in bosher's station 32, described bosher's station 32 be positioned at cooling oil cylinder 331 both sides can stretch up and down respectively be provided with linear guide poles 36, described oil coolant cylinder head seat 333 is located on the piston rod of cooling oil cylinder 331, described parallels 334 is located at above oil coolant cylinder head seat 333, the both sides of oil coolant cylinder head seat 333 are connected with each linear guide poles 36 respectively by straining beam 37, cooling sand table 332 is located at above parallels 334, the top of cooling sand table 332 is located at by described cooling pressure head plate 335, thermal insulation layer 38 is also provided with between described cooling pressure head plate 335 and cooling sand table 332.

As Fig. 1 C, Fig. 4 to Fig. 6, the top described hot-pressed sintering furnace being positioned at hot press working platform 22 is also provided with the hot pressing pay-off 5 that workpiece can be pushed to from hot pressing ascending unit 23 cooling ascending unit 33, described hot pressing pay-off 5 comprises the pusher crane 51 be located at above hot press working platform 22 and the first pusher be located at above pusher crane 51, described first pusher comprises spaced first left side board 61 and the first right side board 62 in left and right, first reducing motor 63, two first transmission shafts 64, the top of described first left side board 61 and the first right side board 62 is provided with the first pusher platen 65, be positioned between described first left side board 61 and the first right side board 62 that the both sides of the first left side board 61 and the first right side board 62 are rotating is respectively equipped with the first pusher screw mandrel 66, spiral shell gone back respectively by described each first pusher screw mandrel 66 and is provided with the first pusher slipping block 67, the outside of described each first pusher slipping block 67 is along being respectively equipped with the first connection riser 671 stretching out the first pusher platen 65, the first bridge crossing plate 68 is connected with between described two first connection risers 671, the front of described first bridge crossing plate 68 is provided with first and cuts somebody's hair 69, the middle part of described first pusher platen 65 is provided with for the up up through hole 651 of workpiece, the free side of described first left side board 61 is provided with the first gear frame 611, described first reducing motor 63 is located on the first gear frame 611, radial torque is converted into the first transmission shaft 64 that axial torque exports both sides to by the output shaft of described first reducing motor 63, transmission of power is given each first pusher screw mandrel 66 respectively by a pair bevel gear 641 by each first transmission shaft 64.

As Fig. 4 to Fig. 6, described first pusher platen 65 is respectively equipped with the first release limiting stopper 652 away from those both sides, one end of the first bridge crossing plate 68.

As Fig. 4 to Fig. 6, the both sides, front of described first bridge crossing plate 68 are also respectively equipped with first and push limiting stopper 681.

As Fig. 4 to Fig. 6, described first cut somebody's hair 69 both sides, front be also telescopicly respectively arranged with the first adjusting screw(rod) 691.

As Fig. 4 to Fig. 6, the down either side being positioned at the first left side board 61 and the first right side board 62 between described first left side board 61 and the first right side board 62 is also equipped with the first guiding polished rod 621 respectively, and lead polished rod 621 sliding block joint for the bottom and first of described first pusher slipping block 67.

As Fig. 3 to Fig. 6, the top described cool furnace 3 being positioned at cooling work platform 32 is also provided with the cooling pay-off that workpiece can be pushed to from cooling ascending unit 33 blanking device 4, described cooling pay-off comprises the pusher crane 71 be located at above bosher's station 32 and the first pusher be located at above pusher crane 71, and the first pusher on first pusher at this place and hot pressing pay-off is with a device.

As Figure 1A, Figure 1B, Fig. 1 C, Fig. 7 and Fig. 8, described feeding device 1 is located at the front of hot-pressed sintering furnace 2, and described feeding device 1 comprises charging frame 11 and is located at second material-pulling device that workpiece to be sintered can be pushed to hot pressed sintering hot-pressed sintering furnace 2 from feeding device 1 above charging frame 11.

As Figure 1A, Figure 1B, Fig. 1 C, Fig. 7 and Fig. 8, described blanking device 4 is located at the rear of cool furnace 3, and described blanking device 4 comprises blanking frame 41 and is located at second material-pulling device that the mould of dress workpiece can be pushed to from blanking device 4 feeding device 1 above blanking frame 41.

As Fig. 7 and Fig. 8, described second material-pulling device comprises spaced second left side board 81 and the second right side board 82 in left and right respectively, second reducing motor 83, two second driving shafts 84, be positioned between described second left side board 81 and the second right side board 82 that the both sides of the second left side board 81 and the second right side board 82 are rotating is respectively equipped with the second pusher screw mandrel 85, spiral shell gone back respectively by described each second pusher screw mandrel 85 and is provided with the second pusher slipping block 86, the top of described second left side board 81 and the second right side board 82 is provided with the second pusher platen 87, the outside of described each second pusher slipping block 86 is along being respectively equipped with the second connection riser 861 stretching out the second pusher platen 87, the second bridge crossing plate 88 is connected with between described two second connection risers 861, the front of described second bridge crossing plate 88 is provided with second and cuts somebody's hair 881, the free side of described second left side board 81 is provided with the second gear frame 811, radial torque is converted into the second driving shaft 84 that axial torque exports both sides to by the output shaft of described second reducing motor 83, transmission of power is given each second pusher screw mandrel 85 respectively by a pair bevel gear 89 by each second driving shaft 84.

As Fig. 7 and Fig. 8, described second pusher platen 87 is respectively equipped with the second release limiting stopper 871 away from those both sides, one end of the second bridge crossing plate 88.The both sides, front of described second bridge crossing plate 88 are also respectively equipped with second and push limiting stopper 882.

As Fig. 7 and Fig. 8, described second cut somebody's hair 881 both sides, front be also telescopicly respectively arranged with the second adjusting screw(rod) 883.

As Fig. 7 and Fig. 8, the down either side being positioned at the second left side board 81 and the second right side board 82 between described second left side board 81 and the second right side board 82 is also equipped with the second guiding polished rod 821 respectively, and lead polished rod 821 sliding block joint for the bottom and second of described second pusher slipping block 86.

During work, first the mould that workpiece is housed is positioned on the second pusher platen on feeding device, location rear drive second reducing motor, second reducing motor drives each second pusher screw mandrel to rotate, drive the second bridge crossing plate and be located at second on the second bridge crossing plate while each second pusher screw mandrel rotates and cut somebody's hair to hot-pressed sintering furnace direction and move, thus utilize second to cut somebody's hair the mould that workpiece is housed on feeding device is pushed to above the pressure head plate of the hot pressing ascending unit of hot-pressed sintering furnace, when above the mould that workpiece is housed is placed in the pressure head plate of hot-pressed sintering furnace, the piston rod of hot pressing oil cylinder is up, thus the hot pressing upper plate position driving workpiece to go upward to hot pressing frame is carried out hot-forming, after hot-forming, the piston rod of hot pressing oil cylinder is descending, thus drive workpiece to come downwards to and be in same plane with the cooling ascending unit of cool furnace, behind location, drive the first reducing motor work, first reducing motor drives each first pusher screw mandrel to rotate, drive the first bridge crossing plate and be located at first on the first bridge crossing plate while each first pusher screw mandrel rotates and cut somebody's hair to cool furnace direction and move, thus utilize the first workpiece after by the hot pressed sintering on hot-pressed sintering furnace of cutting somebody's hair to push to above the cooling pressure head plate of the cooling ascending unit of cool furnace, when above the mould that workpiece is housed is placed in the cooling pressure head plate of cool furnace, the piston rod of cooling oil cylinder is up, thus pressurization cooling is carried out in the cooling upper plate position driving workpiece to go upward to cooling racks, after pressurization cooling, the piston rod of cooling oil cylinder is descending, thus drive workpiece to come downwards to the second pusher platen of blanking device in the same plane, behind location, drive the first reducing motor work, first reducing motor drives each first pusher screw mandrel to rotate, drive the first bridge crossing plate and be located at first on the first bridge crossing plate while each first pusher screw mandrel rotates and cut somebody's hair to blanking device direction and move, thus utilize first to cut somebody's hair cooled for the pressurization in cool furnace workpiece and part mould are pushed on the second pusher platen of blanking device, behind location, unload workpiece, and then utilize the second material-pulling device to be pushed to by part mould on the second pusher platen of feeding device, and so forth, realize sintering automatically, automatic cooling, blanking, the function of charging, it is rational in infrastructure, degree of automation is high, greatly enhance production efficiency, reduce cost of labor.

Claims

1. full automaticity binary sintering furnace, comprise the hot-pressed sintering furnace and cool furnace that set gradually according to conveyor line, described hot-pressed sintering furnace comprises hot pressing frame, be located at the hot press working platform of hot pressing frame lower, be located at the hot pressing ascending unit on hot press working platform and be located at the thermotank of the corresponding hot pressing ascending unit setting of hot pressing upper rack, the upper inside in thermotank of described hot pressing frame is also provided with hot pressing upper plate, described cool furnace comprises cooling racks, be located at bosher's station of cooling racks bottom, be located at the cooling ascending unit in bosher's station and be located at the cooling tank of cooling racks top correspondence cooling ascending unit setting, the inside described cooling racks being positioned at cooling tank is also provided with cooling upper plate, it is characterized in that: the top described hot-pressed sintering furnace being positioned at hot press working platform is also provided with the hot pressing pay-off that workpiece can be pushed to from hot pressing ascending unit cooling ascending unit, described hot pressing pay-off comprises the pusher crane be located at above hot press working platform and the first pusher be located at above pusher crane, described first pusher comprises spaced first left side board in left and right and the first right side board, first reducing motor, two first transmission shafts, the top of described first left side board and the first right side board is provided with the first pusher platen, be positioned between described first left side board and the first right side board that the both sides of the first left side board and the first right side board are rotating is respectively equipped with the first pusher screw mandrel, spiral shell gone back respectively by described each first pusher screw mandrel and is provided with the first pusher slipping block, the outside of described each first pusher slipping block is along being respectively equipped with the first connection riser stretching out the first pusher platen, the first bridge crossing plate is connected with between described two first connection risers, the front of described first bridge crossing plate is provided with first and cuts somebody's hair, the middle part of described first pusher platen is provided with for the up up through hole of workpiece, the free side of described first left side board is provided with the first gear frame, described first reducing motor is located on the first gear frame, radial torque is converted into the first transmission shaft that axial torque exports both sides to by the output shaft of described first reducing motor, transmission of power is given each first pusher screw mandrel respectively by a pair bevel gear by each first transmission shaft, the front of described hot-pressed sintering furnace is also provided with feeding device, described feeding device comprises charging frame and is located at second material-pulling device that workpiece to be sintered can be pushed to hot pressed sintering hot-pressed sintering furnace from feeding device above charging frame, the rear of described cool furnace is provided with blanking device, described blanking device comprises blanking frame and is located at second material-pulling device that the mould of dress workpiece can be pushed to from blanking device feeding device above blanking frame, the top described cool furnace being positioned at cooling work platform is also provided with the cooling pay-off that workpiece can be pushed to from cooling ascending unit blanking device, described cooling pay-off comprises the pusher crane be located at above bosher's station and the first pusher be located at above pusher crane.

2. full automaticity binary sintering furnace according to claim 1, is characterized in that: described first pusher platen is respectively equipped with the first release limiting stopper away from those both sides, one end of the first bridge crossing plate.

3. full automaticity binary sintering furnace according to claim 2, is characterized in that: the both sides, front of described first bridge crossing plate are also respectively equipped with first and push limiting stopper.

4. full automaticity binary sintering furnace according to claim 1, is characterized in that: the described first both sides, front of cutting somebody's hair are also telescopic is respectively arranged with the first adjusting screw(rod).

5. the full automaticity binary sintering furnace according to claim 1 or 2 or 3 or 4, it is characterized in that: the down either side being positioned at the first left side board and the first right side board between described first left side board and the first right side board is also equipped with the first guiding polished rod respectively, lead polished rod sliding block joint for the bottom and first of described first pusher slipping block.

6. full automaticity binary sintering furnace according to claim 1, it is characterized in that: described second material-pulling device comprises spaced second left side board in left and right and the second right side board respectively, second reducing motor, two second driving shafts, be positioned between described second left side board and the second right side board that the both sides of the second left side board and the second right side board are rotating is respectively equipped with the second pusher screw mandrel, spiral shell gone back respectively by described each second pusher screw mandrel and is provided with the second pusher slipping block, the top of described second left side board and the second right side board is provided with the second pusher platen, the outside of described each second pusher slipping block is along being respectively equipped with the second connection riser stretching out the second pusher platen, the second bridge crossing plate is connected with between described two second connection risers, the front of described second bridge crossing plate is provided with second and cuts somebody's hair, the free side of described second left side board is provided with the second gear frame, radial torque is converted into the second driving shaft that axial torque exports both sides to by the output shaft of described second reducing motor, transmission of power is given each second pusher screw mandrel respectively by a pair bevel gear by each second driving shaft.

7. full automaticity binary sintering furnace according to claim 1, it is characterized in that: described hot pressing ascending unit comprises hot pressing oil cylinder, sand table, oil cylinder headstock, pressure head cooling vessel and pressure head plate, the cylinder body of described hot pressing oil cylinder is located on hot press working platform, what can stretch respectively up and down in the both sides being positioned at hot pressing oil cylinder of described hot press working platform is provided with line slideway, described oil cylinder headstock is located on the piston rod of hot pressing oil cylinder, described pressure head cooling vessel is located at above oil cylinder headstock, the both sides of oil cylinder headstock are connected with each line slideway respectively by guide pillar straining beam, the top of pressure head cooling vessel is located at by described sand table, the top of sand table is located at by described pressure head plate, also heat insulation is provided with between described pressure head plate and sand table.