CN205763844U - Anisotropy neodymium iron boron radiation ring rotating excitation field press - Google Patents

Abstract

The utility model discloses a kind of anisotropy neodymium iron boron radiation ring rotating excitation field press, including base, frame it is provided with on base, rotating excitation field frame assembly it is provided with inside frame, frame includes frame upper beam and frame underbeam, frame upper beam is connected with frame underbeam by column, frame upper beam top is provided with upper cylinder, it is provided with fairlead in the middle part of frame upper beam, upper cylinder is connected by upper fairlead mould seaming chuck, frame underbeam bottom is provided with lower oil cylinder, lower fairlead it is provided with in the middle part of frame underbeam, lower oil cylinder is connected by lower fairlead mould push-down head, lower fairlead top is provided with die assembly.The beneficial effects of the utility model: solve anisotropy bonded neodymium-iron-boron thin-walled radiation ring due to mould and die accuracy requirement height, compacting problem cannot be orientated by radiation field, extend and advance the application of bonded neodymium-iron-boron thin-walled radiation ring, mold preparation for bonded neodymium-iron-boron powder radiation ring and provide brand-new equipment.

Description

Anisotropy neodymium iron boron radiation ring rotating excitation field press

Technical field

This utility model belongs to neodymium iron boron apparatus field, is specifically related to a kind of anisotropy neodymium iron boron radiation ring rotating excitation field press.

Background technology

Bonded neodymium-iron-boron dusty material magnetic field orientating molds and cannot do radiation ring product at present.Therefore, develop a kind of equipment that can do radiation ring product, be the highest priority of industry.

Utility model content

For the above-mentioned technical problem in correlation technique, the utility model proposes a kind of anisotropy neodymium iron boron radiation ring rotating excitation field press, in order to solve the problems referred to above.

For realizing above-mentioned technical purpose, the technical solution of the utility model is achieved in that

nullA kind of anisotropy neodymium iron boron radiation ring rotating excitation field press，Including base，It is provided with frame on described base，Rotating excitation field frame assembly it is provided with inside described frame，Described frame includes frame upper beam and frame underbeam，Described frame upper beam is connected with frame underbeam by column，Described frame upper beam top is provided with upper cylinder，It is provided with fairlead in the middle part of frame upper beam，Described upper cylinder is connected by upper fairlead mould seaming chuck，Described frame underbeam bottom is provided with lower oil cylinder，Lower fairlead it is provided with in the middle part of frame underbeam，Described lower oil cylinder is connected by lower fairlead mould push-down head，Described lower fairlead top is provided with die assembly，Described field frame assembly includes yoke under magnetic conduction framework upper yoke and magnetic conduction framework，Described magnetic conduction framework upper yoke passes through magnetic conduction frame left yoke、Magnetic conduction frame right yoke is connected with yoke under magnetic conduction framework，Rotate magnetic conduction frame assembly outer upper and be provided with recirculated water heat abstractor，Rotate magnetic conduction frame assembly middle inside and be provided with the circular excitation line bag with frame member，Described circular excitation line parlor is folded with water of radiation row，Circular excitation line bag endoporus is provided with leading pole post pole head，Rotating excitation field frame assembly outer lower portion is provided with drive disk assembly，Described drive disk assembly connects frequency conversion motor，Described circular excitation line bag and recirculated water heat abstractor are respectively connected with power transmitting device.

Further, described power transmitting device is fixed on rotating excitation field frame assembly inside upper part, and power transmitting device includes that stationary part and phantom element, described stationary part are circular, and described phantom element is distributed in outside stationary part.

Further, described stationary part is made up of annular conductive material housing and non-conducting material liner, and stationary part is fixing with upper fairlead to be connected.

Further, described phantom element includes that one or several conductive parts with stationary part sliding contact are constituted, and phantom element is electrically connected with circular excitation line bag by circuit lead.

Further, described recirculated water heat abstractor is fixed on magnetic conduction framework upper yoke outer upper.

Further, described recirculated water heat abstractor is connected with water of radiation row by circulating water pipe.

Further, described upper fairlead is connected with magnetic conduction framework upper yoke by upper bearing (metal).

Further, described lower fairlead is connected with yoke under magnetic conduction framework by lower bearing.

Further, described frequency conversion motor is arranged on base side.

Further, described drive disk assembly is gear or belt pulley.

The beneficial effects of the utility model: solve anisotropy bonded neodymium-iron-boron thin-walled radiation ring due to mould and die accuracy requirement height, compacting problem cannot be orientated by radiation field, extend and advance the application of bonded neodymium-iron-boron thin-walled radiation ring, mold preparation for bonded neodymium-iron-boron powder radiation ring and provide brand-new equipment.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation radiating ring rotating excitation field press according to the anisotropy neodymium iron boron described in this utility model embodiment；

Fig. 2 is the structural representation according to the power transmitting device described in this utility model embodiment.

In figure:

1, upper cylinder；2, frame upper beam；3, column；4, upper bearing (metal)；5, upper fairlead；6, recirculated water heat abstractor；7, power transmitting device；8, mould seaming chuck；9, frame assembly；10, water of radiation row；11, mould push-down head；12, circulating water pipe；13, circular excitation line bag；14, leading pole post pole head；15, die assembly；16, lower bearing；17, lower fairlead；18, gear or belt pulley；19, frequency conversion motor；20, frame underbeam；21, lower oil cylinder；22, base；23, magnetic conduction framework upper yoke；24, magnetic conduction frame left yoke；25, yoke under magnetic conduction framework；26, stationary part；27, phantom element；28, magnetic conduction frame right yoke.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained, broadly fall into the scope of this utility model protection.

nullAs shown in Figure 1-2，Ring rotating excitation field press is radiated according to a kind of anisotropy neodymium iron boron described in this utility model embodiment，Including base 22，It is provided with frame on described base 22，Rotating excitation field frame assembly 9 it is provided with inside described frame，Described frame includes frame upper beam 2 and frame underbeam 20，Described frame upper beam 2 is connected with frame underbeam 20 by column 3，Described frame upper beam 2 top is provided with upper cylinder 1，Fairlead 5 it is provided with in the middle part of frame upper beam 2，Described upper cylinder 1 is connected by upper fairlead 5 mould seaming chuck 8，Described frame underbeam 20 bottom is provided with lower oil cylinder 21，Lower fairlead 17 it is provided with in the middle part of frame underbeam 20，Described lower oil cylinder 21 is connected by lower fairlead 17 mould push-down head 11，Described lower fairlead 17 top is provided with die assembly 15，Described field frame assembly 9 includes yoke 25 under magnetic conduction framework upper yoke 23 and magnetic conduction framework，Described magnetic conduction framework upper yoke 23 is by magnetic conduction frame left yoke 24、Magnetic conduction frame right yoke 28 is connected with yoke 25 under magnetic conduction framework，Rotate magnetic conduction frame assembly 9 outer upper and be provided with recirculated water heat abstractor 6，Rotate magnetic conduction frame assembly 9 middle inside and be provided with the circular excitation line bag 13 with frame member，Water of radiation row 10 it is folded with between described circular excitation line bag 13，Circular excitation line bag 13 endoporus is provided with leading pole post pole head 14，Rotating excitation field frame assembly 9 outer lower portion is provided with drive disk assembly 18，Described drive disk assembly 18 connects frequency conversion motor 19，Described circular excitation line bag 13 and recirculated water heat abstractor 6 are respectively connected with power transmitting device 7.Power transmitting device 7 electrically connects regulator cubicle, and described drive disk assembly 18 is gear or belt pulley.Described frequency conversion motor 19 is arranged on base 22 side.

Described power transmitting device 7 is fixed on rotating excitation field frame assembly 9 inside upper part, and power transmitting device 7 includes stationary part 26 and phantom element 27, and described stationary part 26 is in circular, and described phantom element 27 is distributed in outside stationary part 26.Described stationary part 26 is made up of annular conductive material housing and non-conducting material liner, and stationary part 26 is fixing with upper fairlead 5 to be connected.Described phantom element 27 includes that one or several conductive parts with stationary part 26 sliding contact are constituted, and phantom element 27 is electrically connected with circular excitation line bag 13 by circuit lead.

Described recirculated water heat abstractor 6 is fixed on magnetic conduction framework upper yoke 23 outer upper.Described recirculated water heat abstractor 6 is connected with water of radiation row 10 by circulating water pipe 12.

Described upper fairlead 5 is connected with magnetic conduction framework upper yoke 23 by upper bearing (metal) 4.Described lower fairlead 17 is connected with yoke 25 under magnetic conduction framework by lower bearing 16.

Understand technique scheme of the present utility model for convenience, below by way of in specifically used mode, technique scheme of the present utility model is described in detail.

When specifically used, as follows according to the one described in the utility model full-automatic magnetic field specifically used step of moulding press:

One, after anisotropy neodymium iron boron described in the utility model radiation ring rotating excitation field press starts, upper cylinder driven mold seaming chuck moves downward and puts in place, starts to the built-in neodymium-iron-boron powder of die assembly；

Two, after having fed, upper cylinder driven mold seaming chuck moves downward, and stops after stretching into die assembly certain position；

Three, after mould seaming chuck is in place, frequency conversion motor is rotated field frame assembly and rotates, and now regulator cubicle provides forward exciting current by power transmitting device to circular excitation line bag, produces and rotates forward radiation field；

4th, after stable magnetic field, keeping some seconds time, now upper cylinder driven mold seaming chuck moves downward, and lower oil cylinder driven mold push-down head moves upward, formed under the conditions of radiation field to neodymium-iron-boron powder up and down to pressure；

Five, terminating pressure, regulator cubicle provides reverse demagnetization current by power transmitting device to circular excitation line bag；

Six, regulator cubicle stops powering to line bag, and upper cylinder driven mold seaming chuck moves upward；

Seven, lower oil cylinder driven mold push-down head moves upward, and completes product stripping；

Eight, whole work process, regulator cubicle is powered to recirculated water heat abstractor by power transmitting device.

This utility model solves anisotropy bonded neodymium-iron-boron thin-walled radiation ring due to mould and die accuracy requirement height, compacting problem cannot be orientated by radiation field, the anisotropy bonded neodymium-iron-boron thin-walled radiation ring of production compacting can do radiation in the application and magnetize, that also can do more than 2 grades multistage magnetizes, solve the problem that cannot prepare more than 4 grades anisotropy bonded neodymium-iron-boron thin-walled radiation rings in industry, extend and advance the application of bonded neodymium-iron-boron thin-walled radiation ring.

The foregoing is only preferred embodiment of the present utility model; not in order to limit this utility model; all within spirit of the present utility model and principle, any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.

Claims (10)

1. null1. an anisotropy neodymium iron boron radiation ring rotating excitation field press，It is characterized in that: include base (22)，Described base is provided with frame on (22)，Rotating excitation field frame assembly (9) it is provided with inside described frame，Described frame includes frame upper beam (2) and frame underbeam (20)，Described frame upper beam (2) is connected with frame underbeam (20) by column (3)，Described frame upper beam (2) top is provided with upper cylinder (1)，Frame upper beam (2) middle part is provided with fairlead (5)，Described upper cylinder (1) is connected by upper fairlead (5) mould seaming chuck (8)，Described frame underbeam (20) bottom is provided with lower oil cylinder (21)，Frame underbeam (20) middle part is provided with lower fairlead (17)，Described lower oil cylinder (21) is connected by lower fairlead (17) mould push-down head (11)，Described lower fairlead (17) top is provided with die assembly (15)，Described field frame assembly (9) includes yoke (25) under magnetic conduction framework upper yoke (23) and magnetic conduction framework，Described magnetic conduction framework upper yoke (23) passes through magnetic conduction frame left yoke (24)、Magnetic conduction frame right yoke (28) is connected with yoke (25) under magnetic conduction framework，Rotate magnetic conduction frame assembly (9) outer upper and be provided with recirculated water heat abstractor (6)，Rotate magnetic conduction frame assembly (9) middle inside and be provided with circular excitation line bag (13) with frame member，Water of radiation row (10) it is folded with between described circular excitation line bag (13)，Circular excitation line bag (13) endoporus is provided with leading pole post pole head (14)，Rotating excitation field frame assembly (9) outer lower portion is provided with drive disk assembly (18)，Described drive disk assembly (18) connects frequency conversion motor (19)，Described circular excitation line bag (13) and recirculated water heat abstractor (6) are respectively connected with power transmitting device (7).
2. Anisotropy neodymium iron boron the most according to claim 1 radiation ring rotating excitation field press, it is characterized in that: described power transmitting device (7) is fixed on rotating excitation field frame assembly (9) inside upper part, power transmitting device (7) includes stationary part (26) and phantom element (27), described stationary part (26) is in circular, and described phantom element (27) is distributed in stationary part (26) outside.
3. Anisotropy neodymium iron boron the most according to claim 2 radiation ring rotating excitation field press, it is characterized in that: described stationary part (26) is made up of annular conductive material housing and non-conducting material liner, stationary part (26) is fixing with upper fairlead (5) to be connected.
4. Anisotropy neodymium iron boron the most according to claim 2 radiation ring rotating excitation field press, it is characterized in that: described phantom element (27) includes that one or several conductive parts with stationary part (26) sliding contact are constituted, and phantom element (27) is electrically connected with circular excitation line bag (13) by circuit lead.
5. Anisotropy neodymium iron boron the most according to claim 1 radiation ring rotating excitation field press, it is characterised in that: described recirculated water heat abstractor (6) is fixed on magnetic conduction framework upper yoke (23) outer upper.
6. Anisotropy neodymium iron boron the most according to claim 5 radiation ring rotating excitation field press, it is characterised in that: described recirculated water heat abstractor (6) is connected with water of radiation row (10) by circulating water pipe (12).
7. Anisotropy neodymium iron boron the most according to claim 1 radiation ring rotating excitation field press, it is characterised in that: described upper fairlead (5) is connected with magnetic conduction framework upper yoke (23) by upper bearing (metal) (4).
8. Anisotropy neodymium iron boron the most according to claim 1 radiation ring rotating excitation field press, it is characterised in that: described lower fairlead (17) is connected with yoke (25) under magnetic conduction framework by lower bearing (16).
9. Anisotropy neodymium iron boron the most according to claim 1 radiation ring rotating excitation field press, it is characterised in that: described frequency conversion motor (19) is arranged on base (22) side.
10. Anisotropy neodymium iron boron the most according to claim 1 radiation ring rotating excitation field press, it is characterised in that: described drive disk assembly (18) is gear or belt pulley.