CN207862401U - Amorphous transverse and longitudinal magnetic field one annealing furnace - Google Patents

Abstract

The utility model provides a kind of amorphous transverse and longitudinal magnetic field one annealing furnace, including furnace body, first plus magnetic structure, second plus magnetic structure, bell and grate, described second adds magnetic structure to be configured in furnace body, described first adds magnetic structure to be configured at outside furnace body, the bell this be located on furnace body, the furnace body is arranged on grate, it is characterised in that：Described second adds magnetic structure to include rack, several vertical plus magnetic portions and the interconnecting piece for being electrically connected adjacent vertical plus magnetic portion, the supporting surface of the parts for placing magnetic to be added is configured on the rack, the vertical plus magnetic portion is arranged on rack.The utility model is simple in structure, reasonable design；Parts are set in vertically plus in magnetic portion when work, and based on supporting surface, are sequentially overlapped, the setting in magnetic portion is vertically added by several groups, capacity can be increased, the quantity that single adds the parts of magnetic can be improved, working efficiency is improved with this.

Description

Amorphous transverse and longitudinal magnetic field one annealing furnace

Technical field

The utility model is related to a kind of amorphous transverse and longitudinal magnetic field one annealing furnaces.

Background technology

Amorphous soft magnetic alloy is rapidly developed at home in recent years because of its excellent soft magnetic characteristic.As amorphous state Important link-annealing process of magnetically soft alloy magnetic core production, directly affects the soft magnetic characteristic of magnetic core.

Currently, the annealing way of amorphous soft magnetic alloy has two kinds of a conventional annealing and magnetic-field annealing, magnetic-field annealing be divided into for Transverse magnetic field is annealed and longitudinal magnetic field annealing.Annealing process in the prior art is more single, conventional annealing, horizontal magnetic anneal and vertical In magnetic anneal, its one kind can only be taken.For the magnetic core for needing to do two kinds of magnetic-field annealings, to pass through two kinds of magnetic-field annealings respectively Furnace annealing, complex production process, inefficiency.

Application publication number is 102392108 A of CN, and data of publication of application is the Chinese utility model Shen on March 28th, 2012 Please in, disclose a kind of conducting magnet core plus magnetic anneal stove includes furnace body, bell, the trolley for driving bell switch and is carried The electric appliance box of control circuit, furnace body are provided with heat generating device, it is characterised in that：Horizontal magnetic flux generator and vertical magnetic are provided in furnace body Generator is equipped with cooling device in the outside of furnace body, and furnace body inner cavity forms circulation loop with cooling device, connects on circulation loop It is connected to vacuum pump and inflated with nitrogen equipment.The conducting magnet core plus magnetic anneal stove vertical magnetic flux generator really by copper rod energization come It carries out adding magnetic, the setting form of this copper rod, capacity is smaller, and the quantity that single adds is relatively limited, influences production efficiency.

Utility model content

The purpose of the utility model is to overcome above-mentioned deficiencies existing in the prior art, and provide a kind of structure design conjunction Manage amorphous transverse and longitudinal magnetic field one annealing furnace.

The technical scheme in the invention for solving the above technical problem is：The amorphous transverse and longitudinal magnetic field one annealing furnace, packet Furnace body, first plus magnetic structure, second plus magnetic structure, bell and grate are included, described second plus magnetic structure are configured in furnace body, described First adds magnetic structure to be configured at outside furnace body, this is located on furnace body the bell, and the furnace body is arranged on grate, and feature exists In：Described second adds magnetic structure to include rack, several vertical plus magnetic portions and the company for being electrically connected adjacent vertical plus magnetic portion Socket part, the supporting surface configured with the parts for placing magnetic to be added on the rack, it is described vertically plus magnetic portion is arranged in rack On；

Described in the utility model first adds magnetic structure to include horizontal plus magnetic portion, and the level adds magnetic portion by conducting wire coiling At the horizontal plus magnetic portion forms several conductor layers by conducting wire coiling, and air duct is formed between the adjacent conductor layer；

Bell described in the utility model includes lid, lock, and the cover cap is set on furnace body, has arm on the lid Portion, the lock includes actuator, which is arranged on furnace body, and there are one locked positions and one to put for the actuator tool Loose position, in the locked position, the actuator is buckled on arm and lid is made to be connect with furnace body, in the release position, Actuator is detached with arm, and is made lid that can be realized with furnace body and detached.

Several vertical plus magnetic portions described in the utility model are arranged in series.

The utility model further includes insulation construction, and the annealing furnace has side, upper and lower end；The heat preservation knot Structure includes insulation cover, and the insulation cover is provide with residence and states at least part of annealing furnace, and includes side insulating layer, the side Insulating layer is arranged the peripheral surface in annealing furnace, and the side insulating layer has independently of each other and can in the circumferential direction of annealing furnace At least two parts of dismounting.

Several conductor layers described in the utility model are arranged successively in the radial direction horizontal plus magnetic portion, in level plus magnetic The air duct is formed between the conductor layer adjacent in the radial direction in portion.

One end of actuator described in the utility model is hinged on furnace body, and the other end is configured to be buckled on arm, start When part is rotated relative to its hinged place, it is made to switch between locked position and release position.

The utility model also has locking device, and the locking device connect with arm, and keep arm past closer or far from Start on the direction of actuator.

There is locking device described in the utility model threaded shank and sliding block, the arm to be arranged on sliding block, the sliding block It is threaded in threaded shank, when sliding block rotates, sliding block drives arm separate or close to actuator.

The utility model also has loop structure, and the furnace body includes burner hearth and flue, is had between the burner hearth and flue It includes wind turbine and fan blade to have gap, the loop structure, and the wind turbine connects with fan blade and controls fan blade rotation, to accelerate stove The air circulation in gap between thorax and flue.

It is described in the utility model vertically magnetic portion to be added to form " Z " font with interconnecting piece.

The utility model compared with prior art, has the following advantages and effect：It is simple in structure, reasonable design；Work works When parts are set in vertically plus in magnetic portion, and based on supporting surface, be sequentially overlapped, magnetic portion vertically added by several groups Setting, can increase capacity, the quantity that single adds the parts of magnetic can be improved, working efficiency is improved with this.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, other drawings may also be obtained based on these drawings.

Fig. 1 is the structural schematic diagram of the amorphous transverse and longitudinal magnetic field one annealing furnace in the utility model embodiment.

Fig. 2 is the main structure figure of second plus magnetic structure.

Fig. 3 is the present invention looks up structural representation of Fig. 2.

Fig. 4 is the overlooking structure diagram of Fig. 2.

Fig. 5 is the dimensional structure diagram of second plus magnetic structure.

Fig. 6 is the cooperation schematic diagram of bell and furnace body.

Fig. 7 is the decomposition diagram of insulation construction and furnace body.

Fig. 8 is the schematic diagram of first plus magnetic structure.

Fig. 9 is the enlarged diagram at A in Fig. 8.

Specific implementation mode

The utility model is described in further detail below in conjunction with the accompanying drawings and by embodiment, and following embodiment is pair The explanation of the utility model and the utility model is not limited to following embodiment.

Embodiment 1.

Referring to Fig. 1 to Fig. 9, the amorphous transverse and longitudinal magnetic field one annealing furnace of the present embodiment include furnace body 1, first plus magnetic structure 2, Second adds magnetic structure 3, bell 4, grate 5 and insulation construction 8, second plus magnetic structure 3 to be configured in furnace body 1, and described first adds magnetic Structure 2 is configured at outside furnace body 1, this is located on furnace body 1 bell 4, and the furnace body 1 is arranged on grate 5.

Second plus magnetic structure 3 of the present embodiment include rack 31, vertically add magnetic portion 32 and interconnecting piece 33.

Supporting surface 311 configured with the parts for placing magnetic to be added on rack 31 in the present embodiment, vertically adds magnetic Portion 32 is provided with several groups, and interconnecting piece 33 is configured for being electrically connected adjacent vertical plus magnetic portion 32, and vertically plus magnetic portion 32 is set It sets on rack 31.Parts are set in vertically plus in magnetic portion 32 when work, and based on supporting surface 311, are sequentially overlapped, The setting for vertically adding magnetic portion 32 by several groups, can increase capacity, and the quantity that single adds the parts of magnetic can be improved, improved with this Working efficiency.

Electric connection in the present embodiment, it is adjacent after referring to that adjacent vertical plus magnetic portion 32 is connected by interconnecting piece 33 Vertical plus magnetic portion 32 between be connected.

Several vertical plus magnetic portions 32 in the present embodiment are arranged in series.By several groups vertically being added the series connection of magnetic portion 32 set It sets so that it is consistent to flow through each vertical plus magnetic portion 32 electric current so that the stability in magnetic field is more preferable.When adding vertical magnetic, to vertically adding Magnetic portion 32 is powered.

Interconnecting piece 33 in the present embodiment array arrangement on rack 31, and neighboring vertical adds the distance between magnetic portion 32 phase Deng.Signified neighboring vertical adds the distance between magnetic portion 32 herein, refer to a vertical plus magnetic portion 32 with its closest to hang down Directly add the distance between magnetic portion 32, that is, neighboring vertical adds the distance between magnetic portion 32 to be all identical, so, connects Socket part 33 can be general, reduces cost with this.

Interconnecting piece 33 in the present embodiment is connection sheet, and there are two through-hole, connection sheets to be arranged by two through-holes for tool Vertically add in magnetic portion 32 at adjacent two groups.Other forms, such as conducting wire can also be used in interconnecting piece 33, as long as can realize adjacent Electric connection between vertical plus magnetic portion 32.

Vertical plus magnetic portion 32 in the present embodiment forms " Z " font with interconnecting piece 33.Specifically, vertically adding magnetic portion 32 and its The interconnecting piece 33 on top and the interconnecting piece 33 of its underpart form " Z " font together.

Side of one end in the vertical plus magnetic portion 32 in the present embodiment across rack 31 and positioned at rack 31, it is vertical to add Another end in magnetic portion 32 is located at the other side of rack 31, and the vertical plus magnetic portion 32 is located at the part of 31 both sides of rack Length is different, wherein the part that vertical plus magnetic portion 32 is located at 311 side of supporting surface is longer part.It uses the longer part In installation parts, and the longer part is located at the top of supporting surface 311.

The interconnecting piece 33 being located on the part of 311 side of supporting surface in vertical plus magnetic portion 32 in the present embodiment is detachable Be connected to vertically plus magnetic portion 32 on.During installing or removing parts, interconnecting piece 33 is removed, it is made not interfere with To picking and placeing for parts.

The present embodiment also has a nut (not shown), vertical plus magnetic portion 32 end set thread segment, on thread segment Nut described in two groups is set, and interconnecting piece 33 is located between the nut described in two groups.Wherein it is located at the spiral shell of 33 lower section of interconnecting piece Mother plays a supporting role, and the nut of the top of interconnecting piece 33 plays the role of locking, when locking, it can be ensured that connection sheet 3 adds with vertical The electric connection in magnetic portion 32.Above-mentioned structure sheet is as the prior art, and details are not described herein again.

First plus magnetic structure 2 of the present embodiment include horizontal plus magnetic portion 21 and holder 22.When adding horizontal magnetic, to level plus magnetic portion 21 are powered.

Level in the present embodiment adds magnetic portion 21 to be formed by conducting wire coiling, level plus shape by conducting wire coiling of magnetic portion 21 At several conductor layers 211, air duct 212 is formed between adjacent conductor layer 211, that is, between having between adjacent conductor layer 211 Gap, the gap can be used for divulging information, and above-mentioned air duct 212 is formed with this.By the setting in the air duct 212, conductor layer 211 can be made The heat of generation is conducted by air duct 212 in time, is radiated in time, prevents from burning out horizontal plus magnetic portion 21 because of overheat. In use, the acceleration such as wind turbine can also be coordinated to radiate, heat dissipation performance is further increased.

Several conductor layers 211 in the present embodiment are arranged successively in the radial direction horizontal plus magnetic portion 21, are added in level Above-mentioned air duct 212 is formed between the conductor layer 211 adjacent in the radial direction in magnetic portion 21.

In other embodiments, it can also set conductor layer 211 to arranging with this on horizontal plus magnetic portion 21 axial direction Cloth is formed above-mentioned air duct 212 between adjacent conductor layer 211 on horizontal plus magnetic portion 21 axial direction, is improved with this scattered Hot property.In use, cooling blower 10 can be arranged, to dry above-mentioned air duct 212, to accelerate to cool down.

Air duct 212 in the present embodiment penetrates through on horizontal plus magnetic portion 21 axial direction.Thus, it can further improve scattered Hot property makes heat be dispersed rapidly from perforation place.

Holder 22 in the present embodiment has main part 221 and the limiting section 222 positioned at 221 end of main part.Holder 22 For winding coil.

Have on limiting section 222 in the present embodiment several along the winding portion that horizontal plus 21 radial direction of magnetic portion is intervally arranged 2221, conductor layer 211 is around being located in main part 221 or winding portion 2221.Specifically, horizontal plus 21 innermost conductor layer of magnetic portion 211 around being located on main part 221, and other conductor layers 211 are then wound in winding portion 2221.Winding portion 2221 herein With certain thickness, the width in the thickness substantially air duct 212.

Holder 22 in the present embodiment is provided with several groups, and several pack supports 22 are along a central axes annular spread, with this Horizontal plus magnetic portion 21 is set to turn to circular ring shape.

Holder 22 in the present embodiment is provided with 6 groups.

The end at 221 both ends of main part in the present embodiment is respectively provided with the limiting section 222.Limiting section 222 is for limiting The both ends in level plus magnetic portion 21.

It is provided with trepanning on limiting section 222 in the present embodiment.The trepanning facilitates progress for holder 22 to be fixed Coiling.

Furnace cover structure 4 in the present embodiment, including lid 42, lock 43, arm 44 and locking device 45.

Lid 42 in the present embodiment is covered on furnace body 1, and it includes actuator to have arm 44, lock 43 on lid 42 431, which is arranged on furnace body 1, and there are one locked position and a release positions for the tool of actuator 431, in the locking When position, actuator 431 is buckled on arm 44 and lid 42 is made to be connect with furnace body 1, in the release position, actuator 431 with Arm 44 detaches, and makes lid 42 that can be realized with furnace body 1 and detach.By actuator 431, it can be achieved that connection with arm 44, from And lid 42 is made to complete to connect with furnace body 1, dismounting is very convenient, and convenient for picking and placeing for parts, production efficiency can be improved.

Actuator 431 in the present embodiment is ring-type, can directly be ridden on arm 44.

Preferably, there is card slot 441, actuator 431 to block on arm 44 in people's card slot 441, prevent actuator 431 from card slot It skids off.

Specifically, one end of the actuator 431 in the present embodiment is hinged on furnace body 1, and the other end is configured to be buckled in arm In portion 44, when actuator 431 is rotated relative to its hinged place, it is made to switch between locked position and release position.Actuator 431 Other forms can also be used, to realize the switching between locked position and release position, such as link mechanism in the prior art, Or actuator 431 is configured to banded structure, is directly attached, details are not described herein again.

Actuator 431 in the present embodiment has multiple, and is uniformly distributed in the circumferential direction of furnace body 1, the quantity of arm 44 It is corresponding with actuator 431.Preferably, actuator 431 is configured to three groups.

Locking device 45 in the present embodiment is connect with arm 44, and makes arm 44 toward closer or far from actuator 431 Start on direction.

Optionally, there is the locking device 45 in the present embodiment threaded shank 451 and sliding block 452, arm 44 to be arranged in sliding block On 452, sliding block 452 is threaded in threaded shank 451, and when sliding block 452 rotates, sliding block 452 drives arm 44 separate or close Actuator 431.When sliding block 452 drives arm 44 far from actuator 431, it is tensioned between arm 44 and actuator 431, to make lid Cash pledge between body 42 and furnace body 1 ensures leakproofness, and when sliding block 452 drives arm 44 close to actuator 431, actuator 431 is to put Loose state, so as to remove actuator 431 from arm 44, you can open lid 42.Locking device 45 in the present embodiment Cylinder in the prior art can also be used, the structures such as oil cylinder realize that details are not described herein again.

It is provided with runner 4521 on sliding block 452 in the present embodiment.By the setting of runner 4521, it is convenient for operating.

Bearing portion 4522 is set on the sliding block 452 in the present embodiment, and the turnable setting of bearing portion 4522 is in sliding block 452 On, arm 44 is fixed on bearing portion 4522.Arm 44 forms an entirety with bearing portion 4522, and is arranged on sliding block 452.

The present embodiment further includes loop structure, and furnace body 1 includes burner hearth 11 and flue 12, is had between burner hearth 11 and flue 12 Gap, loop structure include wind turbine 7 and fan blade 6, and wind turbine 7 and fan blade 6 connect and control the rotation of fan blade 6, to accelerate burner hearth 11 The air circulation in gap between flue 12.When so that furnace body 1 heating, the temperature of the surrounding in furnace body is more consistent.

The insulation construction 8 of the present embodiment, including insulation cover 82, wherein furnace body 1 be it is cylindric, furnace body 1 have side, on End and lower end.

Insulation cover 82 in the present embodiment is provide at least part of furnace body 1, and includes side insulating layer 821, side Insulating layer 821 is arranged the peripheral surface in furnace body 1, and side insulating layer 821 has independently of each other and can in the circumferential direction of furnace body 1 At least two parts of dismounting.By the way that side insulating layer 821 is split at least two parts so that when dismounting, two parts are torn open Opening can be such that annealing furnace is exposed to outside insulating layer, convenient for safeguarding, and when dismounting side insulating layer 821, without destroying side heat preservation Layer 821, make side insulating layer 821 can Reusability, reduce use cost.

At least two parts in the present embodiment occupy identical or different area in the peripheral surface of furnace body 1.If side There are two parts to form for insulating layer 821, then preferably, two parts are identical in the peripheral surface occupancy of furnace body 1, i.e., in stove It is two parts of two deciles on the periphery of body 1, if there are three parts or three above sections to form for side insulating layer 821, These parts can occupy different areas in the peripheral surface of furnace body 1.Specifically, it can be selected according to the actual size etc. of annealing furnace With.

Circumferential direction of at least two parts with the section of a same shape along furnace body 1 in the present embodiment extends and shape At.The section is the section of the plane radially positioned at furnace body 1, is more intuitively said, as in attached drawing, side insulating layer 821 The shape of the end face of side.

Cavity 8211 is formed between 1 outer wall of inner wall and furnace body of side insulating layer 821 in the present embodiment.Outside furnace body 1 Heat be able to circulate in cavity 8211 so that the temperature outside furnace body 1 is more uniform, ensure the temperature in 1 circumferential direction of furnace body Consistency.While cooling, cavity 8211 can be entered the wind by air blower 9, to accelerate to cool down.

The inner wall of side insulating layer 821 in the present embodiment have to furnace body 1 radially-inwardly and protrusion lug boss 8212, Lug boss 8212 is against on the outer wall of furnace body 1, and lug boss 8212 is set to both sides of the cavity 8211 in 1 circumferential direction of furnace body simultaneously Cavity 8211 is set to close.So, heat loss is prevented, further ensures that heat-insulating property.

Insulation cover 82 in the present embodiment further includes first end insulating layer 822 and the second end insulating layer 823, first end Portion's insulating layer 822 is set to the upper end of furnace body 1, and the second end insulating layer 823 is set to the lower end of furnace body 1.So, So that furnace body 1 is covered at completely in insulation cover 82, reduces the loss of heat.

It is provided with heating device (not shown) on the inner wall or outer wall of furnace body 1 in the present embodiment.

Heating device in the present embodiment has multigroup, and multigroup heating device is along the circumferential uniformly arrangement of furnace body 1.In this way One, when heating, the temperature in the circumferential direction of furnace body 1 is more uniform, keeps the temperature in stove more consistent.

Described in this specification above content is only to the utility model example explanation.The utility model Person of ordinary skill in the field can make various modifications or additions to the described embodiments or use class As mode substitute, content without departing from the utility model specification or surmount model defined in the claims It encloses, all should belong to the protection range of the utility model.

Claims (9)

1. a kind of amorphous transverse and longitudinal magnetic field one annealing furnace, including furnace body, first plus magnetic structure, second plus magnetic structure, bell and stove Frame, described second adds magnetic structure to be configured in furnace body, and the bell is located on furnace body, and the furnace body is arranged on grate, special Sign is：Described second plus magnetic structure include rack, several vertical plus magnetic portion and for being electrically connected adjacent vertical plus magnetic portion Interconnecting piece, the supporting surface configured with the parts for placing magnetic to be added on the rack, it is described vertically plus the setting of magnetic portion exists On rack；

Described first adds magnetic structure to be configured at outside furnace body, including horizontal plus magnetic portion, and the horizontal plus magnetic portion is by conducting wire coiling At the horizontal plus magnetic portion forms several conductor layers by conducting wire coiling, and air duct is formed between the adjacent conductor layer；

The bell includes lid, lock, and the cover cap is set on furnace body, has arm, the lock packet on the lid Actuator is included, which is arranged on furnace body, and there are one locked position and a release positions for the actuator tool, in the lock When tight position, the actuator is buckled on arm and lid is made to be connect with furnace body, in the release position, actuator and arm section From, and make lid that can be realized with furnace body and detach.

2. amorphous transverse and longitudinal according to claim 1 magnetic field one annealing furnace, it is characterised in that：Several vertical plus magnetic Portion is arranged in series.

3. amorphous transverse and longitudinal according to claim 1 magnetic field one annealing furnace, it is characterised in that：Further include insulation construction, institute Annealing furnace is stated with side, upper and lower end；The insulation construction includes insulation cover, and the insulation cover, which is provide with residence, to be stated and move back At least part of stove, and include side insulating layer, the peripheral surface in annealing furnace, the side is arranged in the side insulating layer Insulating layer has mutual indepedent and removable at least two part in the circumferential direction of annealing furnace.

4. amorphous transverse and longitudinal according to claim 1 magnetic field one annealing furnace, it is characterised in that：Several conductor layers exist Level adds arranging successively in the radial direction for magnetic portion, and institute is formed between horizontal plus magnetic portion conductor layer adjacent in the radial direction State air duct.

5. amorphous transverse and longitudinal according to claim 1 magnetic field one annealing furnace, it is characterised in that：It cuts with scissors one end of the actuator Be connected on furnace body, and the other end is configured to be buckled on arm, when actuator is rotated relative to its hinged place, make it in locked position and Switch between release position.

6. amorphous transverse and longitudinal magnetic field one annealing furnace according to claim 1 or 5, it is characterised in that：Also there is locking device, The locking device is connect with arm, and makes arm toward start on the direction closer or far from actuator.

7. amorphous transverse and longitudinal according to claim 6 magnetic field one annealing furnace, it is characterised in that：The locking device has spiral shell Bar portion and sliding block, the arm are arranged on sliding block, and the sliding block is threaded in threaded shank, when sliding block rotates, sliding block band Swing arm portion is separate or close to actuator.

8. amorphous transverse and longitudinal according to claim 1 magnetic field one annealing furnace, it is characterised in that：Also there is loop structure, institute It includes burner hearth and flue to state furnace body, has gap between the burner hearth and flue, the loop structure includes wind turbine and fan blade, institute It states wind turbine to connect with fan blade and control fan blade rotation, to accelerate the air circulation in the gap between burner hearth and flue.

9. amorphous transverse and longitudinal according to claim 1 or 2 magnetic field one annealing furnace, it is characterised in that：It is described vertically to add magnetic portion " Z " font is formed with interconnecting piece.