CN204075202U - Full-automatic pressing under magnetic field press - Google Patents

Abstract

The utility model discloses a kind of full-automatic pressing under magnetic field press, comprise the frame of sealing, electrical control cubicles, glove box, demolding agent tank, Hydraulic Station and cooling-water machine, machine frame inside sealing is equiped with and claims powder device, powder adding device, pay-off and pressing under magnetic field device.The utility model is first by improving the drives structure of pay-off and powder adding device, make the control accuracy of pay-off to powder adding device higher, powder adding device runs more steady, and powder adding device can be not only quick but also arrive at each predetermined work position exactly under the driving of pay-off; Simultaneously by changing the fit structure of powder adding device and pressing under magnetic field device, making the Density Distribution of the powder be filled in mould even, improve automaticity and add powder efficiency; Secondly improve and claim powder apparatus structure, can realize automatically, fast, accurately quantitatively claiming powder, improve automaticity and operating efficiency; Finally improve glove box and electric control cabinet structure, be convenient to safeguard and operation.

Description

Full-automatic pressing under magnetic field press

Technical field

The utility model relates to metallurgical powder moulding press technical field, especially relates to a kind of full-automatic pressing under magnetic field press.

Background technology

Full-automatic pressing under magnetic field press mainly comprises the frame of sealing, be equiped with in frame and claim powder device, pay-off, powder adding device and pressing under magnetic field device, first neodymium iron boron powder is entered by barrel and claims powder device, quantitative Nd-Fe-B powder is last to be reinstalled in powder adding device to claim powder device to take, finally by pay-off, powder adding device (adding powder box) is passed to pressing under magnetic field device, and neodymium iron boron powder is loaded in mould.

Existing pressing under magnetic field press normally adopts cylinder, oil cylinder or cam mechanism mechanism drive powder adding device to move reciprocatingly on mold cavity, feed in raw material see a kind of tombarthite permanent-magnet molding hydraulic machine disclosed in patent announcement CN102896314A, release agent spraying, refining integrated mechanism, its powder adding device feeds in raw material at the driving next part of pay-off, release agent spraying, the functions such as refining are in one, namely pay-off needs to drive powder adding device to work on multiple position, because the velocity of displacement of cylinder or oil cylinder and stroke accuracy are difficult to control, cause powder adding device cannot reach predetermined work position quickly and accurately under the driving of pay-off, and this integrated mechanism to be filled into the Density Distribution of the powder in mold cavity also uneven, product produces defect or waste product when shaping compacting.

And for example a kind of powder metallurgy press digital-controlled feeding apparatus disclosed in patent announcement CN203170964U, this pay-off adopts servomotor to coordinate with ball-screw, material boots are driven to move back and forth on mold cavity with digital control scheme, which overcoming Mechanical Driven or air cylinder driven can not the problem of numerical control speed adjusting, pressure regulating arm and compression cylinder are set simultaneously downward thrust is applied to material boots, with the sealing of applicable different mold cavity height and mating surface.This feeder structure is more complicated, takes up room comparatively large, is unfavorable for that each parts of press apparatus become more meticulous integrations, and material boots are connected with being driven by linkage between ball-screw, cause the velocity of displacement of material boots and stroke accuracy to be still difficult to control.

Because neodymium-iron-boron powder is a kind of magnetic powder material, viscosity is very large, and easy bonding one-tenth block, thus for full-automatic pressing under magnetic field press, it claims the main bugbear of powder device to be how to realize automatically, fast, accurately quantitatively claiming powder.The powder device of falling powder is claimed see a kind of rare earth permanent magnet alloy powder disclosed in patent announcement CN203061870U, cylinder and turnover powder box is utilized to realize automatic weighing powder and fall the function of powder, improve full-automatic pressing under magnetic field press automaticity and operating efficiency, see the batch plant of a kind of full-automatic magnetic powder moulding press disclosed in patent announcement CN102416470B, wherein, barrel is connected with reducing mechanism by bellows, and then the weigh hopper material receiving port of weighing charging device is aimed at by tube connector, weigh in the weigh hopper that magnetic is broken up rear loading weighing charging device by reducing mechanism.This batch plant solves the bonding problem causing being not easy to quantitatively claim powder of magnetic, but it is to how accurately quantitatively claiming powder to propose solution, such as how to ensure that the magnetic loaded in the weigh hopper of weighing charging device from reducing mechanism is just in time equal in weight with the title powder of setting, and this technical problem key point that to be also full-automatic pressing under magnetic field press powder device realize accurate quantification claims powder.

The heavy-current control system of existing most of moulding press and light-current system are all that concentrated setting is in electrical control cubicles, interference can be produced each other, especially heavy-current control system can produce electromagnetic interference to light-current system, thus affects the normal operation of each controlling organization of press.Patent announcement CN202491395U discloses a kind of injection machine, and heavy-current control part and the vulnerabilities scan part of this injection machine are separated, can not produce interference each other.Its electric cabinet is divided into the first electric cabinet, the second electric cabinet and the 3rd electric cabinet, metallic plate is adopted to separate between three electric cabinets, this electric cabinet is actual is formed by three box body combinations of placing continuously, it takes up room larger, the middle metallic plate that adopts separates, its anti-jamming effectiveness is not good, and is not easy to safeguard.

Summary of the invention

For the deficiency that above-mentioned prior art exists, the purpose of this utility model is to provide a kind of full-automatic pressing under magnetic field press;

First, by improving the drives structure of pay-off and powder adding device, make the control accuracy of pay-off to powder adding device higher, powder adding device runs more steady, and powder adding device can be not only quick but also arrive at each predetermined work position exactly under the driving of pay-off; Simultaneously by changing the fit structure of powder adding device and pressing under magnetic field device, making the Density Distribution of the powder be filled in mould even, improve automaticity and add powder efficiency;

Secondly, improve and claim powder apparatus structure, can realize automatically, fast, accurately quantitatively claiming powder, shorten and claim the powder time, improve automaticity and operating efficiency;

Finally, improve glove box and electric control cabinet structure, be convenient to safeguard and operation.

To achieve these goals, the technical scheme that the utility model adopts is:

A kind of full-automatic pressing under magnetic field press, comprise frame, frame is equiped with hermetically and claims powder device, pay-off, powder adding device and pressing under magnetic field device, pay-off, powder adding device and pressing under magnetic field device lateral are sequentially arranged, claim powder device to be located at the top of pay-off, and pay-off can drive powder adding device to move to pressing under magnetic field device place; Described pay-off comprises servomotor, ball-screw, spigot nut, the first guide rail and the second guide rail, first guide rail and the second guide rail are line slideway, and the first guide rail and the second guide rail are in being fixedly installed in the same way, servomotor slides and is arranged on the first guide rail, spigot nut is sheathed on to roll on ball-screw and with ball-screw and coordinates, and relative first guide rail of spigot nut or the second guide rail are fixedly installed, and the first end of ball-screw and the output shaft of servomotor are in transmission connection; Described powder adding device comprises and adds powder box, and add powder box slip and be arranged on the second guide rail, add powder box and be connected with the second end of ball-screw by rolling bearing, the lower surface adding powder box is provided with powder input port, and this powder input port flushes with the second guide rail; Described pressing under magnetic field device comprises mould, upper punch, undershoot and field coil, upper punch and undershoot lay respectively at the two ends up and down of mould, field coil is positioned at the side of mould, and the upper surface of mould is provided with opening, and this opening flushes with the second guide rail.

Wherein, described first guide rail comprises installation base plate, rectilinear orbit and slide block, rectilinear orbit and slide block are respectively two, two rectilinear orbits are parallel, and two rectilinear orbits are arranged on installation base plate, two slide blocks slide respectively and are arranged on two rectilinear orbits, and described servomotor is fixedly installed on two slide blocks; Described second guide rail comprises guide rail base plate and supporting plate, and the both sides of guide rail base plate are provided with card rail, and two card rails are parallel, and supporting plate slides and is arranged between two card rails, described in add powder box and be fixedly installed on supporting plate.Described first guide rail is also provided with the location proximity switch coordinated with described servomotor, and this location proximity switch is located for the original position of servomotor; Described first guide rail is also provided with the limitation travel switch coordinated with described servomotor, and limitation travel switch is arranged at the end of the first guide rail, and this limitation travel switch is used for the stroke limit of servomotor.Also comprise the gantry support be set up in above the first guide rail and the support column being located at the first guide rail side, the described powder box that adds is connected with pipeline traction, pipeline traction is through gantry support, and the end of pipeline traction is fixedly connected with gantry support, the upper end of support column is connected with the trough of belt matched with pipeline traction, pipeline traction telescopically is placed in this trough of belt, gantry support also has the moping pulley matched with pipeline traction.

Wherein, described in add powder box and be also provided with release agent spraying device, the gentle pawl of pneumatic vibrator, the gentle pawl of release agent spraying device is located at the front end adding powder box, and before gas pawl is positioned at described release agent spraying device, the rear end adding powder box is located at by pneumatic vibrator; Also be provided with scraper plate between described release agent spraying device and described gas pawl, the lower end of scraper plate flushes with described second guide rail.The described powder box that adds is by the machine-shaping of metal base one, add in powder box and be provided with funnelform gradual change chamber, the cross section in this gradual change chamber is octagon, and this cross section reduces from top to bottom gradually, the described powder input port adding powder box is located at lower end, described gradual change chamber, and this powder input port is octagon; The described top layer adding powder box is also provided with polytetrafluoroethylene spray layer.

Wherein, described title powder device comprises barrel, feeding channel, hopper, LOAD CELLS, percussion mechanism and Dao Fen mechanism, LOAD CELLS, percussion mechanism and Dao Fen mechanism are installed in frame, hopper is connected with Dao Fen mechanism, barrel is fixedly installed in frame, feeding channel dips down and is tiltedly connected to the lower end of barrel, percussion mechanism and feeding channel are in transmission connection, the discharging opening of feeding channel is positioned at the top of hopper, and the discharge outlet of feeding channel is provided with the first gate by the first air cylinder driven and the second gate by the second air cylinder driven, the discharging opening that feeding channel is located at by first gate is inboard, first gate is used for the discharging opening of partially enclosed feeding channel, second gate is located at outside the discharging opening of feeding channel, second gate is used for the discharging opening closing feeding channel completely, described feeding channel is provided with the 3rd gate, and the 3rd gate is inserted on feeding channel by adjusting bolt, and the 3rd gate is for regulating the uninterrupted of feeding channel, described frame is also provided with the primary importance sensor and second place sensor that are oppositely arranged with described barrel, primary importance sensor is positioned at the top of second place sensor.Described percussion mechanism comprises electromagnetic shaker, the first shock-absorbing plate, shock-proof spring, the second shock-absorbing plate and antivibration pad, upper end and the described feeding channel of electromagnetic shaker are in transmission connection, the lower end of electromagnetic shaker is fixedly connected with described first shock-absorbing plate, the below of the first shock-absorbing plate is located at by second shock-absorbing plate, shock-proof spring is located between the first shock-absorbing plate and the second shock-absorbing plate, and the second shock-absorbing plate is arranged in frame by antivibration pad; Described Dao Fen mechanism comprises the funnel be arranged in frame, the 3rd cylinder and four-cylinder, 3rd cylinder and frame hinged, the piston rod of the 3rd cylinder is also connected with arm, described hopper overturns with this arm and is connected, 3rd air cylinder driven hopper upset, make the inlet orifice of hopper be positioned at the top of funnel, and the piston rod of the sidewall of hopper and four-cylinder offset.

Wherein, described frame is also provided with electrical control cubicles, the first stacked casing and the second casing before and after this electrical control cubicles comprises, first casing is positioned at the front portion of the second casing, first casing is full-closed structure, and the front portion of the first casing is provided with openable chamber door, and the second casing is anterior uncovered structure, one side of the first casing and a side of the second casing hinged, and the rear portion of the first casing integral cap can be overlying on the open-mouth of the front portion of the second casing.

Wherein, described frame is also provided with closed glove box, this glove box is connected with frame by doorframe, the side of described doorframe is hinged with integral cap can cover door-plate on described doorframe, glove box entirety is articulated with the opposite side of described doorframe, and the side tank wall of glove box can integral cap be overlying on described door-plate.

Adopt after technique scheme, the utility model compared to the prior art advantageously:

Full-automatic pressing under magnetic field press described in the utility model, first the structure of pay-off and powder adding device is improved, adopt servomotor to coordinate ball-screw to drive and add the displacement of powder box linear reciprocation, be characterized in servomotor and add powder box synchronizing moving, and carry out linear directional displacement by the first guide rail and the second guide rail respectively, servomotor is servomotor or variable-frequency motor, there is good energy-saving effect, servomotor adopts numerical control to control, the rotating speed of its output shaft and revolution determine velocity of displacement and the displacement stroke of servomotor respectively, and add powder box and servomotor synchronous shift, that is the velocity of displacement and the displacement stroke that add powder box can by controlling to realize accurate control to the numerical control of servomotor, and servomotor and add powder box and adopt two spacing displacement of guide rail, further ensure that the stability adding powder box straight-line displacement, adding powder box runs more steady, therefore the control accuracy of pay-off to powder adding device is higher, powder adding device runs more steady, powder adding device can be not only quick but also arrive at each predetermined work position exactly under the driving of pay-off.Simultaneously by improving the fit structure of powder adding device and pressing under magnetic field device, add powder box under the driving of pay-off along the second railway limit displacement, the powder input port adding powder box lower surface flushes with the second track, namely powder box is added when moving on the second track, will add the powder input port shutoff of powder box by the second track, make to add powder box in the middle of moving process, powder can not spill from powder input port; The upper surface of mould is provided with opening, namely the powder adding powder box enters in mould from this opening part, due to mould opening part with add powder guide rail and flush, thus when adding powder box and moving to the position of mould, the powder input port adding powder box is just in time relative with the opening of mould, and the powder now added in powder box can be filled in mould; Again because the opening part of the lower surface with mould that add powder box flushes, thus move back and forth at the opening part of mould and add powder box and the upper surface of powder in mould can be filled and led up, therefore being filled into the Density Distribution of the powder in mould evenly from adding powder box, automaticity can being improved and add powder efficiency.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated:

Fig. 1 of the present utility modelly reorganizes and outfit structural representation.

Fig. 2 is partial groups assembling structure schematic diagram of the present utility model.

Fig. 3 is the perspective view of pay-off of the present utility model and powder adding device.

Fig. 4 is the structural representation of powder adding device of the present utility model.

Fig. 5 is the structural representation of pressing under magnetic field device of the present utility model.

Fig. 6 is the partial structurtes schematic diagram of the first track described in the utility model.

Fig. 7 is the sectional structure schematic diagram in Fig. 6 indicated by A-A.

Fig. 8 is the perspective view of powder adding device of the present utility model.

Fig. 9 is another perspective view of powder adding device of the present utility model.

Figure 10 be powder adding device of the present utility model face structural representation.

Figure 11 is another perspective view of pay-off of the present utility model and powder adding device.

Figure 12 is the perspective view adding powder box described in the utility model.

Figure 13 is another perspective view adding powder box described in the utility model.

Figure 14 is the sectional structure schematic diagram adding powder box described in the utility model.

Figure 15 is the perspective view of title powder device of the present utility model.

Figure 16 is the sectional perspective structural representation of title powder device of the present utility model.

Figure 17 is another sectional perspective structural representation of title powder device of the present utility model.

Figure 18 is the structural representation of the closed condition of electrical control cubicles of the present utility model.

Figure 19 is the structural representation of the open mode of electrical control cubicles of the present utility model.

Figure 20 is the structural representation of the closed condition of glove box of the present utility model.

Figure 21 is the structural representation of the open mode of glove box of the present utility model.

Figure 22 is the structural representation of another open mode of glove box of the present utility model.

In figure, 1: frame; 2: claim powder device; 3: pay-off; 4: powder adding device; 5: pressing under magnetic field device; 6: servomotor; 7: ball-screw; 8: spigot nut; 9: the first guide rails; 10: the second guide rails; 11: add powder box; 12: rolling bearing; 13: powder input port; 14: mould; 15: upper punch; 16: undershoot; 17: field coil; 18: opening; 19: installation base plate; 20: rectilinear orbit; 21: slide block; 22: supporting plate; 23: guide rail base plate; 24: card rail; 25: location proximity switch; 26: limitation travel switch; 27: gantry support; 28: support column; 29: pipeline traction; 30: trough of belt; 31: moping pulley; 32: release agent spraying device; 33: pneumatic vibrator; 34: gas pawl; 35: scraper plate; 36: gradual change chamber; 37: barrel; 38: feeding channel; 39: hopper; 40: LOAD CELLS; 41: percussion mechanism; 42: Dao Fen mechanism; 43: the first cylinders; 44: the first gates; 45: the second cylinders; 46: the second gates; 47: the three gates; 48: adjusting bolt; 49: primary importance sensor; 50: second place sensor; 51: electromagnetic shaker; 52: the first shock-absorbing plates; 53: shock-proof spring; 54: the second shock-absorbing plates; 55: antivibration pad; 56: funnel; 57: the three cylinders; 58: the four-cylinders; 59: arm; 60: electrical control cubicles; 61: the first casings; 62: the second casings; 63: chamber door; 64: uncovered; 65: glove box; 66: doorframe; 67: door-plate; 68: shaft coupling; 69: waste material funnel; 70: garbage collection box; 71: rail groove; 72: fixture block; 73: projection; 74: tooth bar; 75: turnover panel; 76: material taking mouth; 77: door; 78: demolding agent tank; 79: Hydraulic Station.

Detailed description of the invention

The following stated is only preferred embodiment of the present utility model, does not therefore limit protection domain of the present utility model.

Embodiment, see shown in Fig. 1 to Figure 22:

As shown in Figure 1, full-automatic pressing under magnetic field press comprises frame 1, electrical control cubicles 60, glove box 65, demolding agent tank 78, the parts such as Hydraulic Station 79 and cooling-water machine (not shown) of sealing.

As shown in Figure 2, the critical piece of the frame 1 inner sealing installing of full-automatic pressing under magnetic field press comprises and claims powder device 2, powder adding device 4, pay-off 3 and pressing under magnetic field device 5, pay-off 3, powder adding device 4 and pressing under magnetic field device 5 are laterally sequentially arranged, claim powder device 2 to be located at the top of pay-off 3, and pay-off 3 can drive powder adding device 4 to move to pressing under magnetic field device 5 place.First neodymium-iron-boron powder enters from barrel 37 and claims powder device 2, reinstall in powder adding device 4 after claiming powder device 2 to take quantitative neodymium-iron-boron powder, finally powder adding device 4 passed the position to pressing under magnetic field device 5 by pay-off 3, and neodymium-iron-boron powder is loaded in the mould 14 of pressing under magnetic field device 5, by pressing under magnetic field device 5 by shaping for the powder pressing in mould 14.

As Fig. 3, shown in Fig. 4 and Fig. 5, pay-off 3 comprises servomotor 6, ball-screw 7, spigot nut 8, first guide rail 9 and the second guide rail 10, first guide rail 9 and the second guide rail 10 are line slideway, and the first guide rail 9 and the second guide rail 10 are in being fixedly installed in the same way, servomotor 6 slides and is arranged on the first guide rail 9, spigot nut 8 is sheathed on to roll on ball-screw 7 and with ball-screw 7 and coordinates, and relative first guide rail 9 of spigot nut 8 or the second guide rail 10 are fixedly installed, the first end of ball-screw 7 and the output shaft of servomotor 6 are in transmission connection by shaft coupling 68.

Powder adding device 4 comprises and adds powder box 11, adding powder box 11 slip is arranged on the second guide rail 10, add powder box 11 to be connected (see Figure 10) with the second end of ball-screw 7 by rolling bearing 12, the lower surface adding powder box 11 is provided with powder input port 13 (see Figure 13), and this powder input port 13 flushes with the second guide rail 10.

Pressing under magnetic field device 5 comprises mould 14, upper punch 15, undershoot 16 and field coil 17, upper punch 15 and undershoot 16 lay respectively at the two ends up and down of mould 14, field coil 17 is positioned at the side of mould 14, the hydraulic-driven power of Hydraulic Station 79 drives the displacement thus realize compressing to the Magnaglo in mould 14 in opposite directions of upper punch 15 and undershoot 16, wherein the drive motors of Hydraulic Station 79 adopts servomotor or variable-frequency motor, control accuracy is high, more energy-saving consumption, the upper surface of mould 14 is provided with opening 18 (see Fig. 4), and this opening 18 flushes with the second guide rail 10.The front end of the second guide rail 10 is also provided with waste material funnel 69, and the below of waste material funnel 69 is provided with garbage collection box 70.

See Fig. 3 and Fig. 4, pay-off 3 adopts servomotor 6 to coordinate ball-screw 7 driving to add the displacement of powder box 11 linear reciprocation, be characterized in servomotor 6 and add powder box 11 synchronizing moving, and carry out linear directional displacement by the first guide rail 9 and the second guide rail 10 respectively, servomotor 6 adopts numerical control to control, the rotating speed of its output shaft and revolution determine velocity of displacement and the displacement stroke of servomotor 6 respectively, and add powder box 11 and servomotor 6 synchronous shift, that is the velocity of displacement and the displacement stroke that add powder box 11 can by controlling to realize accurate control to the numerical control of servomotor 6, and servomotor 6 and add powder box 11 and adopt two spacing displacement of guide rail, further ensure that the stability adding powder box 11 straight-line displacement, adding powder box 11 runs more steady, therefore the control accuracy of pay-off 3 pairs of powder adding devices 4 is higher, powder adding device 4 runs more steady, powder adding device 4 can be not only quick but also arrive at each predetermined work position exactly under the driving of pay-off 3.

As shown in Figure 6 and Figure 7, first guide rail 9 comprises installation base plate 19, rectilinear orbit 20 and slide block 21, rectilinear orbit 20 and slide block 21 are respectively two, two rectilinear orbits 20 are parallel, and two rectilinear orbits 20 are arranged on installation base plate 19, two slide blocks 21 slide respectively and are arranged on two rectilinear orbits 20, and servomotor 6 is fixedly installed on two slide blocks 21 (see Fig. 3).

Installation base plate 19 is provided with the rail groove 71 that two are respectively used to accommodating two rectilinear orbits 20, article two, storage tank is linearly symmetrical arranged, rectilinear orbit 20 is arranged in rail groove 71 by fixture block 72, and rectilinear orbit 20 is all fixedly connected with installation base plate 19 by screw with fixture block 72.

See Fig. 3, Fig. 6 and Fig. 7, servomotor 6 self will drive its output shaft rotation, also to do straight-line displacement along the first guide rail 9 simultaneously, what adopt two line slideways and two slide blocks 21 coordinates to come the straight-line displacement of spacing servomotor 6, servomotor 6 is placed between two slide blocks 21, when servomotor 6 is when along the first guide rail 9 displacement, its center of gravity, between two rectilinear orbits 20, can make servomotor 6 run more steady.

As shown in Figure 8 and Figure 9, the second guide rail 10 comprises guide rail base plate 23 and supporting plate 22, and it is parallel that the both sides of guide rail base plate 23 are provided with card rail 24, two card rail 24, and supporting plate 22 slides and is arranged between two card rails 24, adds powder box 11 and is fixedly installed on supporting plate 22.Supporting plate 22 is clipped in the middle reposefully by two card rails 24.

See Fig. 3 and Fig. 8, when ball-screw 7 promotes to add powder box 11 displacement, be fixedly connected with supporting plate 22 owing to adding powder box 11, therefore adding powder box 11, to be again subject to the straight line of two card rails 24 spacing, to guarantee to add powder box 11 straight-line displacement more accurately and stablize.Wherein, supporting plate 22 is made for polytetrafluoroethylene (PTFE) material, and polytetrafluoroethylene spray layer is a kind of non-sticking lining, has resistant to elevated temperatures feature, and coefficient of friction is extremely low, can lubricate, to reduce the friction between supporting plate 22 and guide rail base plate 23, and not viscous powder.

As shown in Figure 10 and Figure 11, the first guide rail 9 is also provided with the location proximity switch 25 coordinated with servomotor 6, and this location proximity switch 25 is located for the original position of servomotor 6.When servomotor 6 moves to the position of this location proximity switch 25, location proximity switch 25 triggers the signal of the initial position producing servomotor 6 displacement, and is sent to control system, and control system controls the displacement stroke of servomotor 6 according to this signal.

First guide rail 9 is also provided with the limitation travel switch 26 coordinated with servomotor 6, and limitation travel switch 26 is arranged at the end of the first guide rail 9, and this limitation travel switch 26, for the stroke limit of servomotor 6, plays the effect of protection servomotor 6.When servomotor 6 moves to the end of the first guide rail 9, limitation travel switch 26 triggers and produces signal, and is sent to control system, and control system controls servomotor 6 according to this signal and shuts down.

Pay-off 3 also comprises the gantry support 27 be set up in above the first guide rail 9 and the support column 28 being located at the first guide rail 9 side, add powder box 11 and be connected with pipeline traction 29, pipeline traction 29 is mainly used in concentrating storage and adds tracheae that powder box 11 is connected and control cable, linear reciprocating motion is wanted owing to adding powder box 11, therefore pipeline traction 29 also can move along with adding powder box 11 in the lump, and namely gantry support 27 and trough of belt 30 play the effect of regular pipeline traction 29.Pipeline traction 29 is through gantry support 27, and the end of pipeline traction 29 is fixedly connected with gantry support 27, the upper end of support column 28 is connected with the trough of belt 30 matched with pipeline traction 29, pipeline traction 29 telescopically is placed in this trough of belt 30, gantry support 27 also has the moping pulley 31 matched with pipeline traction 29, the frictional resistance between pipeline traction 29 and trough of belt 30 can be reduced.

See Fig. 5, Fig. 8 and Fig. 9, this full-automatic pressing under magnetic field press also improves the fit structure of powder adding device 4 and pressing under magnetic field device 5, add powder box 11 under the driving of pay-off 3 along the second railway limit displacement, the powder input port 13 adding powder box 11 lower surface flushes with the second track, namely powder box 11 is added when moving on the second track, be will add powder input port 13 shutoff of powder box 11 by the second track, make to add powder box 11 in the middle of moving process, powder can not spill from powder input port 13; The upper surface of mould 14 is provided with opening 18, namely the powder adding powder box 11 enters in mould 14 from this opening 18, due to mould 14 opening 18 place with add powder guide rail and flush, thus when adding powder box 11 and moving to the position of mould 14, the powder input port 13 adding powder box 11 is just in time relative with the opening 18 of mould 14, and the powder now added in powder box 11 can be filled in mould 14; Again because opening 18 place of the lower surface with mould 14 that add powder box 11 flushes, thus move back and forth at opening 18 place of mould 14 and add powder box 11 and the upper surface of powder in mould 14 can be filled and led up, therefore being filled into the Density Distribution of the powder in mould 14 evenly from adding powder box 11, automaticity can being improved and add powder efficiency.

Improve with the structure of powder adding device 4 based on above-mentioned pay-off 3, see Fig. 8 and Fig. 9, increase the function of powder adding device 4 further and optimize its performance, comprise and add powder box 11 and be provided with release agent spraying device 32, the gentle pawl 34 of pneumatic vibrator 33, the gentle pawl 34 of release agent spraying device 32 is located at the front end adding powder box 11, before gas pawl 34 is positioned at release agent spraying device 32.

Release agent spraying device 32 is communicated with demolding agent tank 78, release agent spraying device 32 will before mould 14 powder filling to release agent spraying in mould 14.

The effect of gas pawl 34 is after mould 14 completes the demoulding, shaping blank is pushed up above mould 14, now blank is clamped by the mode of pneumatic actuation by gas pawl 34, and along with adding powder box 11 and move to together the front end of the second track, and then unclamp gas pawl 34, realize the automatic material taking operation of blank.

The rear end adding powder box 11 is located at by pneumatic vibrator 33.The effect of pneumatic vibrator 33 is when adding powder box 11 to mould 14 powder filling, utilize the mode of pneumatic actuation to order about pneumatic vibrator 33 to shake, and drive and add powder box 11 and shake, prevent powder viscous in the surface adding powder box 11, guarantee to mould 14 to add powder amount accurate.

Also be provided with scraper plate 35 between release agent spraying device 32 and gas pawl 34, the lower end of scraper plate 35 flushes with the second guide rail 10.The effect of scraper plate 35 strikes off adding the excessive powder waste material on powder guide rail, and waste material is scraped waste material funnel 69 place to the second track front end, then collect in garbage collection box 70 through waste material funnel 69, avoids powder scrap to be deposited in and add on powder guide rail.

Gas pawl 34, scraper plate 35, release agent spraying device 32, add powder box 11 and pneumatic vibrator 33 in the past after sequentially arrange, can reduce and add the moving back and forth number of times of powder box 11 and complete and all add powder craft step.Add the powder that mould 14 to be filled into filled by powder box 11, under the driving of pay-off 3, add powder box 11 to move linearly along adding powder guide rail forward end, first gas pawl 34 reaches the position of mould 14, and control system drives gas pawl 34 by the molded blank clamping completed; Scraper plate 35 arrives the position of mould 14 again, and is struck off forward by unnecessary powder scrap; Release agent spraying device 32 reaches the position of mould 14 subsequently, and sprays releasing agent in mould 14; Last powder adding device 4 arrives the position of mould 14, now gas pawl 34 is positioned at the front end adding powder track, control system drives gas pawl 34 to unclamp, blank is positioned over the front end adding powder track, then pneumatic vibrator 33 is opened, adding powder box 11 along with pneumatic vibrator 33 shakes together, and drives and add powder box 11 and move back and forth at opening 18 place of mould 14, powder filling in mould 14; Complete after powder loads, pay-off 3 drives and adds powder box 11 and be reset to initial position, and by title powder device 2 to adding powder filling in powder box 11, it is compressing that the device of pressing under magnetic field simultaneously 5 starts to carry out magnetic field to the powder in mould 14.Owing to adopting servomotor 6 and the pay-off 3 of the spacing displacement of two-orbit, make powder adding device 4 can rest in above-mentioned each operating position fast and exactly, to promote automaticity, product quality and operating efficiency.

As shown in Figure 12, Figure 13 and Figure 14, add powder box 11 by the machine-shaping of metal base one, be specially iron or aluminium, add in powder box 11 the gradual change chamber 36 being provided with funnel 56 shape, the cross section in this gradual change chamber 36 is octagon, and this cross section reduces from top to bottom gradually, the powder input port 13 adding powder box 11 is located at lower end, gradual change chamber 36, and this powder input port 13 is in octagon.The lower end adding powder box 11 is provided with projection 73, and powder input port 13 is located on this projection 73, and supporting plate 22 is provided with the installing hole (not shown) embedded for this projection 73, flushes after projection 73 embeds installing hole with the lower surface of supporting plate 22.Add powder box 11 and pneumatic vibrator 33 is packaged in box body, this box body is fixed on supporting plate 22, and cassette upper end is provided with the charging aperture communicated with the gradual change chamber 36 adding powder box 11.The powder added in powder box 11 is after the water conservancy diversion of octagonal gradual change chamber 36 through cross section, can be smooth and easy and equably from the discharging opening landing mould 14 adding powder box 11, the shape of powder input port 13 is arranged to octagon, mainly match with the opening 18 of mould 14, add powder box 11 to move back and forth at opening 18 place of mould 14, powder can be made to be filled into the Density Distribution of mould 14 more even.The top layer adding powder box 11 is provided with polytetrafluoroethylene spray layer, prevents powder viscous in the surface adding powder box 11.

As Figure 15, shown in Figure 16 and Figure 17, powder device 2 is claimed to comprise barrel 37, feeding channel 38, hopper 39, LOAD CELLS 40, percussion mechanism 41 and Dao Fen mechanism 42, LOAD CELLS 40, percussion mechanism 41 and Dao Fen mechanism 42 are installed in frame 1, hopper 39 is connected with Dao Fen mechanism 42, barrel 37 is vertically arranged, feeding channel 38 dips down and is tiltedly connected to the lower end of barrel 37, feeding channel 38 is barrel 37 horizontally set relatively, and the discharging opening of feeding channel 38 is downward-sloping, percussion mechanism 41 and feeding channel 38 are in transmission connection, the powder that barrel is 37 li falls in feeding channel 38, percussion mechanism 41 drives feeding channel 38 to produce vibrations, by loose for the powder shake being bonded to block in feeding channel 38, make the powder in feeding channel 38 overflow along the gradient of feeding channel 38 from discharging opening simultaneously, percussion mechanism 41 coordinates with the feeding channel 38 of downward-sloping setting and efficiently solves powder adhesion problem, also can realize at the uniform velocity discharging.

The discharging opening of feeding channel 38 is positioned at the top of hopper 39, and the discharge outlet of feeding channel 38 is provided with the first gate 44 driven by the first cylinder 43 and the second gate 46 driven by the second cylinder 45, the discharging opening that feeding channel 38 is located at by first gate 44 is inboard, first gate 44 is for the discharging opening of partially enclosed feeding channel 38, second gate 46 is located at outside the discharging opening of feeding channel 38, and the second gate 46 is for closing the discharging opening of feeding channel 38 completely.First cylinder 43 and the first gate 44 are vertically arranged at the discharge outlet of feeding channel 38, and the bottom of the first gate 44 is provided with the discharge outlet that tooth bar 74, second cylinder 45 of some comb teeth-shapeds and the second gate 46 are horizontally set at feeding channel 38.

Feeding channel 38 comprises two stages to hopper 39 charging: superfast loading stage and at a slow speed loading stage.First gate 44 and the second gate 46 are all in the state opened completely, and the powder now in feeding channel 38 to load in hopper 39 this stage for the superfast loading stage evenly with comparatively large discharge; When the weight of LOAD CELLS 40 reaches the preliminary weight of loading of setting, control system drives the first cylinder 43 to operate, the piston rod of the first cylinder 43 drives the first gate 44 by partially enclosed for the discharging opening of feeding channel 38, powder now in feeding channel 38 loads in hopper 39 with comparatively low discharge evenly, namely the powder in feeding channel 38 flows out from the gap location between some tooth bars 74 of the second gate 46 bottom, and this stage is loading stage at a slow speed; When the weight of LOAD CELLS 40 reaches the final weight of loading of setting, control system drives the second cylinder 45 to operate, the piston rod of the second cylinder 45 drives the second gate 46 that the discharging opening of feeding channel 38 is completely closed, now feeded to hopper 39 by feeding channel 38, then by Dao Fen mechanism 42, the quantitative powder weighed up in hopper 39 has been poured out.Owing to adopting superfast loading stage and two stages of loading stage feeds in hopper 39 at a slow speed, greatly can shorten charge time and raising and to feed precision.

Shown in 16 and Figure 17, feeding channel 38 is also provided with the 3rd gate the 47, three gate 47 and is inserted on feeding channel 38 by adjusting bolt 48, the 3rd gate 47 is for regulating the uninterrupted of feeding channel 38.Rotating adjusting bolt 48 can regulate the 3rd gate 47 to insert the degree of depth in feeding channel 38, thus changes the size of the flow area of feeding channel 38, to reach the object of the powder flow regulated in feeding channel 38.The effect arranging the 3rd gate 47 is, be applicable to the powder loading Different Weight in hopper 39, such as, when loading the powder of lower weight in hopper 39, the powder flow of feeding channel 38 is turned down, and when loading greater weight powder in hopper 39, then need the powder flow of feeding channel 38 to tune up.

Frame 1 is also provided with the primary importance sensor 49 and second place sensor 50 that are oppositely arranged with barrel 37, primary importance sensor 49 and second place sensor 50 are for responding to the height and position of powder in barrel 37, and primary importance sensor 49 is positioned at the top of second place sensor 50.Also butterfly valve is provided with above barrel 37, when second place sensor 50 does not sense powder, control system opened butterfly valve also starts in barrel 37 reinforced, and when primary importance sensor 49 senses powder, control system is closed butterfly valve and stopped in barrel 37 reinforced.Primary importance sensor 49 and second place sensor 50 make the powder in barrel 37 remain on applicable position, to ensure that this powder adding device 4 runs sustainedly and stably.

Percussion mechanism 41 comprises electromagnetic shaker 51, first shock-absorbing plate 52, shock-proof spring 53, second shock-absorbing plate 54 and antivibration pad 55, upper end and the feeding channel 38 of electromagnetic shaker 51 are in transmission connection, the lower end of electromagnetic shaker 51 is fixedly connected with the first shock-absorbing plate 52, the below of the first shock-absorbing plate 52 is located at by second shock-absorbing plate 54, shock-proof spring 53 is located between the first shock-absorbing plate 52 and the second shock-absorbing plate 54, and the second shock-absorbing plate 54 is arranged in frame 1 by antivibration pad 55.Because percussion mechanism 41 and LOAD CELLS 40 are all located in frame 1, therefore when percussion mechanism 41 drives feeding channel 38 to shake, can have an impact to LOAD CELLS 40, cause weighting error larger, and the first shock-absorbing plate 52, shock-proof spring 53, the shockproof mechanism that second shock-absorbing plate 54 and antivibration pad 55 are formed can effectively solve the problem, this shockproof mechanism adopts double-deck shock-absorbing plate structure, shock-proof spring 53 between the first shock-absorbing plate 52 and the second shock-absorbing plate 54 has four, be arranged on four corners of the first shock-absorbing plate 52 respectively, be mainly used in the vibrations surplus of the generation of absorbing vibration device 51, the antivibration pad 55 being positioned at the second shock-absorbing plate 54 lower end has four, be located on four corners of the second shock-absorbing plate 54 respectively, the area of the second shock-absorbing plate 54 is greater than the area of the first shock-absorbing plate 52, the effect of these four antivibration pads 55 reduces percussion mechanism 41 entirety to the impact of frame 1, make LOAD CELLS 40 can take powder weight more accurately.

Dao Fen mechanism 42 comprises the funnel 56 be arranged in frame 1, the 3rd cylinder 57 and four-cylinder 58,3rd cylinder 57 is hinged with frame 1, the piston rod of the 3rd cylinder 57 is also connected with arm 59, hopper 39 overturns with this arm 59 and is connected, 3rd cylinder 57 drives hopper 39 to overturn, make the inlet orifice of hopper 39 be positioned at the top of funnel 56, and the sidewall of hopper 39 and the piston rod of four-cylinder 58 offset, the inlet orifice of hopper 39 is also hinged with turnover panel 75.After hopper 39 has been feeded, 3rd cylinder 57 drives hopper 39 to overturn, the turnover panel 75 being positioned at the inlet orifice of hopper 39 is opened, what the powder in hopper 39 fell into pay-off 3 through funnel 56 adds in powder box 11, in hopper 39 switching process, control system controls four-cylinder 58 and operates, and the piston rod of four-cylinder 58 stretches out and clashes into the sidewall of hopper 39, hopper 39 is shaken, prevents powder viscous on the inwall of hopper 39.

See Figure 18 and Figure 19, the first casing 61 and the second casing 62 stacked before and after electrical control cubicles 60 in the frame 1 of this full-automatic pressing under magnetic field press comprises, first casing 61 and the second casing 62 are the rectangular box adopting metallic plate to be welded, first casing 61 is positioned at the front portion of the second casing 62, first casing 61 is full-closed structure, the chamber door 63 of the first casing 61 front portion is opposite opened chamber door 63, second casing 62 is anterior uncovered structure, it is hinged that one side of the first casing 61 and a side of the second casing 62 pass through hinge, and the rear portion of the first casing 61 integral cap can be overlying on uncovered 64 places of the front portion of the second casing 62, the first casing 61 entirety is made to can be used as the chamber door 63 of the second casing 62, the snap close that first casing 61 and the second casing 62 are mutually locked in addition.During installation, the heavy-current control system of this full-automatic pressing under magnetic field press and light-current system are installed in the first casing 61 and the second casing 62 respectively.The double swing doors that this electrical control cubicles 60 is stacked before and after adopting, is provided separately heavy-current control system and light-current system, can effectively solves mutual electromagnetic interference problem.In addition, the chamber door 63 opening separately the first casing 61 can be safeguarded the heavy-current control system (or light-current system) be installed in the first casing 61; Open separately the first casing 61 overall, chamber door 63 without the need to opening the first casing 61 just can be safeguarded the light-current system (or heavy-current control system) in the second casing 62, with the existing metal partion (metp) that only adopts, the electrical control cubicles 60 that strong power part and weak current part are separated is compared, this electrical control cubicles 60 volume is little, safeguard or overhaul more convenient.

As shown in Figure 20, Figure 21 and Figure 22, glove box 65 in the frame 1 of this full-automatic pressing under magnetic field press is the glove box 65 closed, the casing of this glove box 65 is conventional structure, the feature of this glove box 65 is the syndeton of glove box 65 and frame 1, this glove box 65 is tightly connected by doorframe 66 and frame 1, vacuum packing machine is equiped with, for packing compressing blank in glove box 65.The side of doorframe 66 is hinged with integral cap can cover door-plate 67 on doorframe 66, and glove box 65 is articulated with the opposite side of doorframe 66, and the side tank wall of glove box 65 can integral cap be overlying on this door-plate 67, and the tank wall of another side of glove box 65 is provided with material taking mouth 76.The side tank wall of glove box 65 is the first door leaf matched with doorframe 66, door-plate 67 is the second door leaf matched with doorframe 66, described second door leaf could be opened after first opening described first door leaf, described first door leaf and described second door leaf are respectively equipped with the door 77 communicated, and compressing blank enters into glove box 65 from this door 77 and carries out vacuum packaging.Glove box 65 adopts double swing doors to be connected with frame 1, facilitates plant maintenance and maintenance, better tightness.

The above is only better embodiment of the present utility model, therefore all equivalences done according to structure, feature and the principle described in the utility model patent claim change or modify, and are included in the utility model patent claim.

Claims (10)

1. a full-automatic pressing under magnetic field press, comprise frame (1), frame (1) is equiped with hermetically and claims powder device (2), pay-off (3), powder adding device (4) and pressing under magnetic field device (5), pay-off (3), powder adding device (4) and pressing under magnetic field device (5) are laterally sequentially arranged, powder device (2) is claimed to be located at the top of pay-off (3), and pay-off (3) can drive powder adding device (4) to move to pressing under magnetic field device (5) place, it is characterized in that:

Described pay-off (3) comprises servomotor (6), ball-screw (7), spigot nut (8), first guide rail (9) and the second guide rail (10), first guide rail (9) and the second guide rail (10) are line slideway, and the first guide rail (9) and the second guide rail (10) are in being fixedly installed in the same way, servomotor (6) slides and is arranged on the first guide rail (9), it is upper and roll with ball-screw (7) and coordinate that spigot nut (8) is sheathed on ball-screw (7), and relative first guide rail (9) of spigot nut (8) or the second guide rail (10) are fixedly installed, the first end of ball-screw (7) and the output shaft of servomotor (6) are in transmission connection,

Described powder adding device (4) comprises and adds powder box (11), adding powder box (11) slip is arranged on the second guide rail (10), add powder box (11) to be connected by second end of rolling bearing (12) with ball-screw (7), the lower surface adding powder box (11) is provided with powder input port (13), and this powder input port (13) flushes with the second guide rail (10); Described pressing under magnetic field device (5) comprises mould (14), upper punch (15), undershoot (16) and field coil (17), upper punch (15) and undershoot (16) lay respectively at the two ends up and down of mould (14), field coil (17) is positioned at the side of mould (14), the upper surface of mould (14) is provided with opening (18), and this opening (18) flushes with the second guide rail (10).

2. full-automatic pressing under magnetic field press according to claim 1, it is characterized in that: described first guide rail (9) comprises installation base plate (19), rectilinear orbit (20) and slide block (21), rectilinear orbit (20) and slide block (21) are respectively two, two rectilinear orbits (20) are parallel, and two rectilinear orbits (20) are arranged on installation base plate (19), two slide blocks (21) slide respectively and are arranged on two rectilinear orbits (20), and described servomotor (6) is fixedly installed on two slide blocks (21); Described second guide rail (10) comprises guide rail base plate (23) and supporting plate (22), the both sides of guide rail base plate (23) are provided with card rail (24), two card rails (24) are parallel, supporting plate (22) slides and is arranged between two card rails (24), described in add powder box (11) and be fixedly installed on supporting plate (22).

3. full-automatic pressing under magnetic field press according to claim 2, it is characterized in that: described first guide rail (9) is also provided with the location proximity switch (25) coordinated with described servomotor (6), this location proximity switch (25) is located for the original position of servomotor (6); Described first guide rail (9) is also provided with the limitation travel switch (26) coordinated with described servomotor (6), limitation travel switch (26) is arranged at the end of the first guide rail (9), and this limitation travel switch (26) is for the stroke limit of servomotor (6).

4. full-automatic pressing under magnetic field press according to claim 3, it is characterized in that: also comprise the gantry support (27) being set up in the first guide rail (9) top and the support column (28) being located at the first guide rail (9) side, the described powder box (11) that adds is connected with pipeline traction (29), pipeline traction (29) is through gantry support (27), and the end of pipeline traction (29) is fixedly connected with gantry support (27), the upper end of support column (28) is connected with the trough of belt (30) matched with pipeline traction (29), pipeline traction (29) telescopically is placed in this trough of belt (30), gantry support (27) is upper also has the moping pulley (31) matched with pipeline traction (29).

5. full-automatic pressing under magnetic field press according to claim 1, it is characterized in that: described in add powder box (11) and be also provided with release agent spraying device (32), pneumatic vibrator (33) gentle pawl (34), release agent spraying device (32) gentle pawl (34) is located at the front end adding powder box (11), before gas pawl (34) is positioned at described release agent spraying device (32), the rear end adding powder box (11) is located at by pneumatic vibrator (33); Also be provided with scraper plate (35) between described release agent spraying device (32) and described gas pawl (34), the lower end of scraper plate (35) flushes with described second guide rail (10).

6. full-automatic pressing under magnetic field press according to claim 1 or 5, it is characterized in that: described in add powder box (11) by metal base one machine-shaping, add the gradual change chamber (36) being provided with funnel (56) shape in powder box (11), the cross section in this gradual change chamber (36) is octagon, and this cross section reduces from top to bottom gradually, the described powder input port (13) adding powder box (11) is located at described gradual change chamber (36) lower end, and this powder input port (13) is in octagon; The described top layer adding powder box (11) is also provided with polytetrafluoroethylene spray layer.

7. full-automatic pressing under magnetic field press according to claim 1, it is characterized in that: described title powder device (2) comprises barrel (37), feeding channel (38), hopper (39), LOAD CELLS (40), percussion mechanism (41) and Dao Fen mechanism (42), LOAD CELLS (40), percussion mechanism (41) and Dao Fen mechanism (42) are installed in frame (1), hopper (39) is connected with Dao Fen mechanism (42), barrel (37) is fixedly installed in frame (1), feeding channel (38) dips down and is tiltedly connected to the lower end of barrel (37), percussion mechanism (41) and feeding channel (38) are in transmission connection, the discharging opening of feeding channel (38) is positioned at the top of hopper (39), and the discharge outlet of feeding channel (38) is provided with the first gate (44) driven by the first cylinder (43) and the second gate (46) driven by the second cylinder (45), the discharging opening that feeding channel (38) is located at by first gate (44) is inboard, first gate (44) is for the discharging opening of partially enclosed feeding channel (38), second gate (46) is located at outside the discharging opening of feeding channel (38), second gate (46) is for closing the discharging opening of feeding channel (38) completely, described feeding channel (38) is provided with the 3rd gate (47), 3rd gate (47) is inserted on feeding channel (38) by adjusting bolt (48), and the 3rd gate (47) is for regulating the uninterrupted of feeding channel (38), described frame (1) is also provided with the primary importance sensor (49) and second place sensor (50) that are oppositely arranged with described barrel (37), primary importance sensor (49) is positioned at the top of second place sensor (50).

8. full-automatic pressing under magnetic field press according to claim 7, it is characterized in that: described percussion mechanism (41) comprises electromagnetic shaker (51), first shock-absorbing plate (52), shock-proof spring (53), second shock-absorbing plate (54) and antivibration pad (55), upper end and the described feeding channel (38) of electromagnetic shaker (51) are in transmission connection, the lower end of electromagnetic shaker (51) is fixedly connected with described first shock-absorbing plate (52), the below of the first shock-absorbing plate (52) is located at by second shock-absorbing plate (54), shock-proof spring (53) is located between the first shock-absorbing plate (52) and the second shock-absorbing plate (54), second shock-absorbing plate (54) is arranged in frame (1) by antivibration pad (55), described Dao Fen mechanism (42) comprises the funnel (56) be arranged in frame (1), 3rd cylinder (57) and four-cylinder (58), 3rd cylinder (57) is hinged with frame (1), the piston rod of the 3rd cylinder (57) is also connected with arm (59), described hopper (39) overturns with this arm (59) and is connected, 3rd cylinder (57) drives hopper (39) upset, the inlet orifice of hopper (39) is made to be positioned at the top of funnel (56), and the sidewall of hopper (39) and the piston rod of four-cylinder (58) offset.

9. full-automatic pressing under magnetic field press according to claim 1, it is characterized in that: described frame (1) is also provided with electrical control cubicles (60), stacked the first casing (61) and the second casing (62) before and after this electrical control cubicles (60) comprises, first casing (61) is positioned at the front portion of the second casing (62), first casing (61) is full-closed structure, and the front portion of the first casing (61) is provided with openable chamber door (63), second casing (62) is anterior uncovered (64) structure, one side of the first casing (61) and a side of the second casing (62) hinged, and the rear portion of the first casing (61) integral cap can be overlying on uncovered (64) place of the front portion of the second casing (62).

10. full-automatic pressing under magnetic field press according to claim 1, it is characterized in that: described frame (1) is also provided with closed glove box (65), this glove box (65) is connected with frame (1) by doorframe (67), the side of described doorframe (67) is hinged with integral cap can cover door-plate on described doorframe (67), glove box (65) entirety is articulated with the opposite side of described doorframe (67), and the side tank wall of glove box (65) can integral cap be overlying on described door-plate.