CN205104360U - Tamping plant of neodymium iron boron magnet - Google Patents

Abstract

The utility model discloses a tamping plant of neodymium iron boron magnet, it includes studio, base, workstation, bed die subassembly, last mould subassembly, feed arrangement, push rod spare, conveyor and storage box, workstation, bed die subassembly, last mould subassembly, push rod spare, conveyor and storage box are all established in the studio, the workstation establish with bed die subassembly assorted under the die holding hole, the bed die subassembly includes first hydraulic stem, roof, fore -set and bed die, the bed die establish with fore -set assorted centre hole, establish with it the thimble that the matching was cup jointed in the centre hole, it includes the second hydraulic stem and goes up the mould to go up the mould subassembly, feed arrangement includes feeder hopper, automatic title powder device and charge -in pipeline, push rod spare includes third hydraulic stem and push pedal, and the sliding tray that matches with the push pedal is established to the workstation. The utility model adopts the above structure, usable push pedal pushes away the material powder on the flat bed die to get rid of unnecessary material powder, make the specification of extrusion's the neodymium iron boron magnetism body keep unanimous.

Description

A kind of tamping plant of neodymium iron boron magnetic body

Technical field

The utility model belongs to Nd-Fe-Bo permanent magnet material processing technique field, particularly relates to a kind of tamping plant of neodymium iron boron magnetic body.

Background technology

The die mould of Nd-Fe-Bo permanent magnet material is a requisite flow process in Nd-Fe-Bo permanent magnet material manufacture craft.And in Nd-Fe-Bo permanent magnet material tamping plant production process general now, for ensureing to make Nd-Fe-B permanent magnet consistency, the form of feeding powder many employings automatic weighing powder or quantitatively conveying.Although the material grain weight amount of conveying has like this been unanimously, may lay the Density inhomogeneity of the Nd-Fe-B permanent magnet that inequality causes making, thus affect the performance of Nd-Fe-B permanent magnet before die mould.

Utility model content

(1) technical problem that will solve

The technical problems to be solved in the utility model is to provide a kind of shaping and high efficiency neodymium iron boron magnetic body tamping plant that trimmed size is consistent can automatically collected.

(2) technical scheme

For solving the problems of the technologies described above, the utility model provides a kind of tamping plant of neodymium iron boron magnetic body, it comprises operating room, base, workbench, bed die assembly, mold assembly, feed arrangement, push-rod assembly, conveying device and storage box, and workbench, bed die assembly, mold assembly, push-rod assembly, conveying device and storage box are all located in operating room; Workbench is provided with the bed die installing hole matched with bed die assembly; Bed die assembly comprises the first hydraulic stem, top board, fore-set and bed die, and this first hydraulic stem mates with top board and is connected; Fore-set has four, and these four fore-sets are that square profile is connected on the end face of top board; Bed die is provided with the centre hole matched with fore-set, in this centre hole, is provided with the thimble of the socket that matches with it; Mold assembly comprises the second hydraulic stem and mold; Feed arrangement comprises feed hopper, automatic weighing powder device and feed pipe, and feed hopper and automatic weighing powder device are arranged on the lateral wall of operating room, and this feed hopper mates through connection with automatic weighing powder device; Feed pipe mates through connection with automatic weighing powder device and bed die after tilting to penetrate workbench respectively; Push-rod assembly comprises the 3rd hydraulic stem and push pedal, and workbench is provided with the sliding tray matched with push pedal, and sliding tray mates through with bed die installing hole; The transmission starting point of conveying device is arranged at the open lower end of sliding tray, and the transmission terminal of this conveying device is arranged at the upper end of storage box.

Wherein, the back-moving spring matched with thimble is also provided with in the centre hole of bed die.

Wherein, base position is provided with powder recovering device, and this powder recovering device comprises funnel-form collection box, recovery channel, feeding shell, feed spool, helical blade and charging line; Funnel-form collection box is placed in the vertical lower end of conveying device and communicates with the bottom surface of operating room; The slanted upper end of recovery channel communicates with the bottom surface of funnel-form collection box, and the inclination lower end of this recovery channel communicates with the hypomere of feeding shell; Feeding shell is connected with the lateral wall of operating room; Feed spool is vertically installed in the inner chamber of feeding shell, this feed spool is connected to the helical blade matched with the inner chamber of feeding shell, and the two ends of charging line connect with the epimere of feeding shell and feed hopper respectively; Feed spool is in transmission connection the drive motors matched.

Wherein, the conveyer belt of conveying device is provided with the mesh passed through for powder.

Wherein, the bottom surface of storage box is mesh plate, and the upper shed of funnel-form collection box also communicates with the base plate of storage box.

Wherein, base position is also provided with shaking device, and this shaking device is placed in the bottom surface of operating room.

Wherein, the front of operating room is made up of transparent material.

(3) beneficial effect

Compared with prior art, the utility model can utilize push pedal to be bulldozed material powder on bed die, and removes unnecessary material powder, the specification of the neodymium iron boron magnetic body of extrusion modling is consistent, allows the performance of neodymium iron boron magnetic body reach best; And the back-moving spring arranged, make thimble can active homing when not stressing; Wherein, the powder recovering device of setting, can collect unnecessary powder and again enter feed arrangement, avoids waste, also saves manpower to clear up unnecessary powder; The conveyer belt of conveying device arranges mesh, unnecessary powder can be allowed to enter in powder recovering device by mesh; And the opening of funnel-form collection box is communicated with the mesh floor of storage box, the powder be pasted on shaping neodymium iron boron magnetic body can be collected further, both avoided waste, make again shaping neodymium iron boron magnetic body enough clean; In addition, the shaking device set up, can shake off powder, improves the efficiency of Powder Recovery; And the front of operating room is made up of transparent material, make operating personnel can observe working condition in operating room at any time.

Accompanying drawing explanation

Fig. 1 is the structural representation front view of the tamping plant of the utility model neodymium iron boron magnetic body.

Fig. 2 is the structural representation left view of the tamping plant of the utility model neodymium iron boron magnetic body.

Fig. 3 is the structural representation vertical view of the tamping plant of the utility model neodymium iron boron magnetic body.

Description of reference numerals: 1, operating room; 2, base; 3, workbench; 4, bed die assembly; 5, mold assembly; 6, feed arrangement; 7, push-rod assembly; 8, conveying device; 9, storage box; 21, powder recovering device; 22, shaking device; 31, bed die installing hole; 32, sliding tray; 41, the first hydraulic stem; 42, top board; 43, fore-set; 44, bed die; 51, the second hydraulic stem; 52, mold; 61, feed hopper; 62, automatic weighing powder device; 63, feed pipe; 71, the 3rd hydraulic stem; 72, push pedal; 211, funnel-form collection box; 212, recovery channel; 213, feeding shell; 214, feed spool; 215, helical blade; 216, charging line; 441, centre hole; 442, thimble; 443, back-moving spring.

Embodiment

Below in conjunction with drawings and Examples, embodiment of the present utility model is described in further detail.Following examples for illustration of the utility model, but can not be used for limiting scope of the present utility model.

Fig. 1 is the structural representation front view of the tamping plant of the utility model neodymium iron boron magnetic body, the tamping plant embodying this neodymium iron boron magnetic body is made up of operating room 1, base 2, workbench 3, bed die assembly 4, mold assembly 5, feed arrangement 6, push-rod assembly 7, conveying device 8 and storage box 9, and embodies emphatically shaking device 22; Fig. 2 is the structural representation left view of the tamping plant of the utility model neodymium iron boron magnetic body, mainly reflects the structure composition of bed die installing hole 31, sliding tray 32, feed arrangement 6 and powder recovering device 21; Fig. 3 is the structural representation vertical view of the tamping plant of the utility model neodymium iron boron magnetic body, and emphasis embodies the distribution situation of thimble 442 on bed die 44.。

The structure of the tamping plant of the utility model neodymium iron boron magnetic body as shown in Figure 1, Figure 2 and Figure 3, the tamping plant of this neodymium iron boron magnetic body comprises operating room 1, base 2, workbench 3, bed die assembly 4, mold assembly 5, feed arrangement 6, push-rod assembly 7, conveying device 8 and storage box 9, and workbench 3, bed die assembly 4, mold assembly 5, push-rod assembly 7, conveying device 8 and storage box 9 are all located in operating room 1; Workbench 3 is provided with the bed die installing hole 31 matched with bed die assembly 4; Bed die assembly 4 comprises the first hydraulic stem 41, top board 42, fore-set 43 and bed die 44, and this first hydraulic stem 41 mates with top board 42 and is connected; Fore-set 43 has four, and these four fore-sets 43 are connected on the end face of top board 42 in square profile; Bed die 44 is provided with the centre hole 441 matched with fore-set 43, in this centre hole 441, is provided with the thimble 442 of the socket that matches with it; Mold assembly 5 comprises the second hydraulic stem 51 and mold 52; Feed arrangement 6 comprises feed hopper 61, automatic weighing powder device 62 and feed pipe 63, and feed hopper 61 and automatic weighing powder device 62 are arranged on the lateral wall of operating room 1, and this feed hopper 61 mates through connection with automatic weighing powder device 62; Feed pipe 63 mates through connection with automatic weighing powder device 62 and bed die 44 after tilting to penetrate workbench 3 respectively; Push-rod assembly 7 comprises the 3rd hydraulic stem 71 and push pedal 72, and workbench 3 is provided with the sliding tray 32 matched with push pedal 72, and sliding tray 32 mates through with bed die installing hole 31; The transmission starting point of conveying device 8 is arranged at the open lower end of sliding tray 32, and the transmission terminal of this conveying device 8 is arranged at the upper end of storage box 9.The utility model adopts said structure, push pedal can be utilized to be bulldozed material powder on bed die, and remove unnecessary material powder, the specification of the neodymium iron boron magnetic body of extrusion modling is consistent, allow the performance of neodymium iron boron magnetic body reach best.During work, powder quantitatively enters bed die after automatic weighing powder device weighs, and be bulldozed by push pedal and remove unnecessary powder, mold and bed die close up extrusion molding, eject shaped article by thimble again, promote the transmission of shaping product introduction conveying device by push pedal and enter storage box.

As shown in Figures 1 and 2, in the present embodiment, in the centre hole 441 of bed die 44, being also provided with the back-moving spring 443 matched with thimble 442, making thimble can active homing when not stressing.

As shown in Figure 1, Figure 2 and Figure 3, in the present embodiment, base 2 place is provided with powder recovering device 21, and this powder recovering device 21 comprises funnel-form collection box 211, recovery channel 212, feeding shell 213, feed spool 214, helical blade 215 and charging line 216; Funnel-form collection box 211 is placed in the vertical lower end of conveying device 8 and communicates with the bottom surface of operating room 1; The slanted upper end of recovery channel 212 communicates with the bottom surface of funnel-form collection box 211, and the inclination lower end of this recovery channel 212 communicates with the hypomere of feeding shell 213; Feeding shell 213 is connected with the lateral wall of operating room 1; Feed spool 214 is vertically installed in the inner chamber of feeding shell 213, this feed spool 214 is connected to the helical blade 215 matched with the inner chamber of feeding shell 213, and the two ends of charging line 216 connect with the epimere of feeding shell 213 and feed hopper 61 respectively; Feed spool 214 is in transmission connection the drive motors matched.The utility model arranges above-mentioned powder recovering device, can collect unnecessary powder and again enter feed arrangement, avoids waste, also saves manpower to clear up unnecessary powder.

In the present embodiment, the conveyer belt of conveying device 8 is provided with the mesh passed through for powder, and unnecessary powder can be allowed to be entered in powder recovering device by mesh.

In the present embodiment, the bottom surface of storage box 9 is mesh plate, and the upper shed of funnel-form collection box 211 also communicates with the base plate of storage box 9.The utility model adopts said structure, can collect the powder be pasted on shaping neodymium iron boron magnetic body further, has both avoided waste, has made again shaping neodymium iron boron magnetic body enough clean.

As shown in Figure 1, in the present embodiment, base 2 place is also provided with shaking device 22, and this shaking device 22 is placed in the bottom surface of operating room 1.The shaking device that the utility model is set up, can shake off powder, improves the efficiency of Powder Recovery.

In the present embodiment, the front of operating room is made up of transparent material, makes operating personnel can observe working condition in operating room at any time.

These are only preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model know-why; can also make some improvements and modifications, these improvements and modifications also should be considered as protection range of the present utility model.

Claims (7)

1. the tamping plant of a neodymium iron boron magnetic body, it is characterized in that: the tamping plant of described neodymium iron boron magnetic body comprises operating room (1), base (2), workbench (3), bed die assembly (4), mold assembly (5), feed arrangement (6), push-rod assembly (7), conveying device (8) and storage box (9), and described workbench (3), bed die assembly (4), mold assembly (5), push-rod assembly (7), conveying device (8) and storage box (9) are all located in operating room (1); Workbench (3) is provided with the bed die installing hole (31) matched with bed die assembly (4); Bed die assembly (4) comprises the first hydraulic stem (41), top board (42), fore-set (43) and bed die (44), and described first hydraulic stem (41) is mated with top board (42) and is connected; Described fore-set (43) has four, and these four fore-sets (43) are connected in square profile on the end face of top board (42); Described bed die (44) is provided with the centre hole (441) matched with fore-set (43), in described centre hole (441), is provided with the thimble (442) of the socket that matches with it; Mold assembly (5) comprises the second hydraulic stem (51) and mold (52); Feed arrangement (6) comprises feed hopper (61), automatic weighing powder device (62) and feed pipe (63), described feed hopper (61) and automatic weighing powder device (62) are arranged on the lateral wall of operating room (1), and this feed hopper (61) mates through connection with automatic weighing powder device (62); Described feed pipe (63) mates through connection with automatic weighing powder device (62) and bed die (44) after tilting to penetrate workbench (3) respectively; Push-rod assembly (7) comprises the 3rd hydraulic stem (71) and push pedal (72), workbench (3) is provided with the sliding tray (32) matched with push pedal (72), and described sliding tray (32) mates through with bed die installing hole (31); The transmission starting point of described conveying device (8) is arranged at the open lower end of sliding tray (32), and the transmission terminal of this conveying device (8) is arranged at the upper end of storage box (9).

2. the tamping plant of neodymium iron boron magnetic body according to claim 1, is characterized in that: be also provided with the back-moving spring (443) matched with thimble (442) in the centre hole (441) of described bed die (44).

3. the tamping plant of neodymium iron boron magnetic body according to claim 1, it is characterized in that: described base (2) place is provided with powder recovering device (21), described powder recovering device (21) comprises funnel-form collection box (211), recovery channel (212), feeding shell (213), feed spool (214), helical blade (215) and charging line (216); Described funnel-form collection box (211) is placed in the vertical lower end of conveying device (8) and communicates with the bottom surface of operating room (1); The slanted upper end of described recovery channel (212) communicates with the bottom surface of funnel-form collection box (211), and the inclination lower end of this recovery channel (212) communicates with the hypomere of feeding shell (213); Feeding shell (213) is connected with the lateral wall of operating room (1); Described feed spool (214) is vertically installed in the inner chamber of feeding shell (213), this feed spool (214) is connected to the helical blade (215) matched with the inner chamber of feeding shell (213), the two ends of described charging line (216) connect with the epimere of feeding shell (213) and feed hopper (61) respectively; Feed spool (214) is in transmission connection the drive motors matched.

4. the tamping plant of neodymium iron boron magnetic body according to claim 3, is characterized in that: the conveyer belt of described conveying device (8) is provided with the mesh passed through for powder.

5. the tamping plant of neodymium iron boron magnetic body according to claim 3, it is characterized in that: the bottom surface of described storage box (9) is mesh plate, the upper shed of described funnel-form collection box (211) also communicates with the base plate of storage box (9).

6. the tamping plant of neodymium iron boron magnetic body according to claim 1, it is characterized in that: described base (2) place is also provided with shaking device (22), described shaking device (22) is placed in the bottom surface of operating room (1).

7. the tamping plant of neodymium iron boron magnetic body according to claim 1, is characterized in that: the front of described operating room is made up of transparent material.