CN206065402U - A kind of automatic annealing device of magnetically soft alloy powder body decomposed ammonia - Google Patents
A kind of automatic annealing device of magnetically soft alloy powder body decomposed ammonia Download PDFInfo
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- CN206065402U CN206065402U CN201621024744.8U CN201621024744U CN206065402U CN 206065402 U CN206065402 U CN 206065402U CN 201621024744 U CN201621024744 U CN 201621024744U CN 206065402 U CN206065402 U CN 206065402U
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- alloy powder
- powder body
- magnetically soft
- burner hearth
- soft alloy
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Abstract
The utility model discloses a kind of automatic annealing device of magnetically soft alloy powder body decomposed ammonia, for magnetically soft alloy powder body annealing technology field, including annealing furnace and annealing furnace transmission mechanism, annealing furnace has burner hearth, the front portion of burner hearth is provided with pan feeding bonnet, the front end of pan feeding bonnet forms feeding mouth, the rear portion of burner hearth is provided with discharging bonnet, the rear end of discharging bonnet forms discharging opening, feeding mouth and discharging opening are below burner hearth, annealing furnace transmission mechanism can drive the loading tray equipped with magnetically soft alloy powder body to enter burner hearth through feeding mouth, and after Jing discharging openings exit burner hearth, also include tray conveyor structure, annealing furnace forms feeding end position in the front side of feeding mouth, annealing furnace forms discharge end position in the rear side of discharging opening, the loading tray of discharge end position can be sent to feeding end position by tray conveyor structure, tray conveyor structure is provided with blanking mechanism in feeding end position.The soft-magnetic alloy powder physical ability that this utility model is produced reaches concordance, stability and magnetism can be good, meets the demand in market.
Description
Technical field
This utility model is used for magnetically soft alloy powder body annealing technology field, more particularly to a kind of magnetically soft alloy powder body ammonia point
The automatic annealing device vented one's spleen.
Background technology
In recent years, due to the high technology content such as electronic information technology, heliotechnics, T & D Technology and charging pile field
It is not only increasing to the demand of the magnetically soft alloy powder body such as Fe-Si and Fe-Si-Al, and as soft-magnetic alloy powder system is made
Components and parts develop to miniaturization and miniaturization direction, concordance to alloy powder, stability and magnetism can etc. index will
Also more and more higher is sought, therefore, the magnetically soft alloy powder body manufacturer of various places not only makes great efforts the work for carrying out the operations such as smelting and powder processed
Make, and the equipment and process aspect in heat treatment step also wants to the potentiality that most every possible means excavate alloy powder as far as possible, with
Ask to reach and both improve its property indices, and reducing energy consumption, QI consumed and cost of labor, strengthen the alloy powder market competitiveness
Purpose.
The preparation process of magnetically soft alloy powder body mainly includes:Smelting, powder processed, with powder, mixed powder(Stir), heat treatment and
The operations such as packaging.Heat treatment step is that soft-magnetic alloy powder body prepares the extremely important operation of indispensable, the operation
Equipment and technique decide the final property indices of magnetically soft alloy powder body to a great extent.But traditional Equipment for Heating Processing
Due to the design and fabrications such as burner hearth and cooling section not science, the insulation material poor thermal insulation property for using, mechanization degree are low and raw
Many reasons such as cost height are produced, causes unit used electricity amount and decomposed ammonia consumption big, cost of labor and production cost are high, and soft magnetism
The concordance of alloy powder, stability and magnetism energy property indices are undesirable, it is impossible to meet electronic devices and components miniaturization
With demand of the miniaturization to powder characteristic, the competitiveness of powder product is low.
Utility model content
To solve the above problems, this utility model offer is a kind of to make the magnetically soft alloy powder body product produced reach
Concordance, stability and magnetism can be good, meet demand of the market to performance, can substantially reduce energy consumption, QI consumed, cost of labor again
Deng production cost, the automatic annealing device of the magnetically soft alloy powder body decomposed ammonia enhanced one's market competitiveness.
This utility model solves the technical scheme adopted by its technical problem:A kind of magnetically soft alloy powder body decomposed ammonia
Automatic annealing device, including annealing furnace and annealing furnace transmission mechanism, the front portion that the annealing furnace has burner hearth, burner hearth is provided with pan feeding
Bonnet, the front end of pan feeding bonnet form feeding mouth, and the rear portion of burner hearth is provided with discharging bonnet, and the rear end of the bonnet that discharges forms discharging
Mouth, the feeding mouth and discharging opening are below the burner hearth, and the annealing furnace transmission mechanism can be driven equipped with magnetically soft alloy powder body
Loading tray enter burner hearth through feeding mouth, and after Jing discharging openings exit burner hearth, also including tray conveyor structure, the annealing furnace
Feeding end position is formed in the front side of feeding mouth, annealing furnace forms discharge end position in the rear side of discharging opening, tray conveyor structure can be by
The loading tray of discharge end position is sent to feeding end position, and tray conveyor structure is provided with feeding end position and can load soft magnetism into loading tray
The blanking mechanism of alloy powder.
Be further used as the improvement of technical solutions of the utility model, the annealing furnace transmission mechanism include stainless (steel) wire band and
The roller of transmission stainless (steel) wire band, the roller are driven using worm-and-wheel gear.
The improvement of technical solutions of the utility model is further used as, the blanking mechanism includes falling above loading tray
Material frame and the Weighing mechanism positioned at charging tray bottom, the bottom of the blanking frame are provided with blanking port, and blanking port is controlled using butterfly valve
It is turned on and off.
The improvement of technical solutions of the utility model is further used as, feeding end position is provided with can be by the dress on tray conveyor structure
Charging tray is put into the first mechanical hand on annealing furnace transmission mechanism.
The improvement of technical solutions of the utility model is further used as, is provided between blanking mechanism and the first mechanical hand and will can be fed
The sandwich that magnetically soft alloy powder surface in disk strikes off, the sandwich include material scraping plate and drive the material scraping plate past
The dynamic scraper driver part of physical pendulum.
The improvement of technical solutions of the utility model is further used as, discharge end position is provided with charging frame and the second mechanical hand, the
Two mechanical hands first can pour the magnetically soft alloy powder body annealed in loading tray into charging inframe, and loading tray is put into charging tray then
Above connecting gear.
It is further used as the improvement of technical solutions of the utility model, the annealing furnace is using high-alumina brick and asbestos board as building
The insulation material of stove.
It is further used as the height of the improvement of technical solutions of the utility model, the feeding mouth and burner hearth, discharging opening and burner hearth
Degree difference is 350mm.
The beneficial effects of the utility model:This utility model is the quality for improving powder body, will be feeding mouth and discharging opening low
In the burner hearth, so, outside air hardly enters burner hearth, is conducive to improving the purity of oven cavity atmosphere, and make to produce is soft
Magnetic alloy powder product can reach concordance, stability and magnetism can be good, meets demand of the market to performance, again can be significantly
The production costs such as reducing energy consumption, QI consumed, cost of labor, enhance one's market competitiveness.
Description of the drawings
The utility model is described in further detail below in conjunction with the accompanying drawings:
Fig. 1 is this utility model front view;
Fig. 2 is this utility model top view.
Specific embodiment
With reference to Fig. 1, Fig. 2, the concrete structure of the preferred embodiment of this utility model is that show.Will be detailed below
The construction featuress of each element of this utility model, and if being described to during direction (upper and lower, left and right, before and after), be with Fig. 1
Shown structure is to be not limited thereto with reference to description, but actually used direction of the present utility model.
This utility model provides a kind of automatic annealing device of magnetically soft alloy powder body decomposed ammonia, including 1 He of annealing furnace
Annealing furnace transmission mechanism 2, the annealing furnace 1 have burner hearth 11, and the front portion of burner hearth 11 is provided with pan feeding bonnet 12, pan feeding bonnet 12
Front end forms feeding mouth 13, and the rear portion of burner hearth 11 is provided with discharging bonnet 14, and the rear end of the bonnet 14 that discharges forms discharging opening 15, described
Feeding mouth 13 and discharging opening 15 are below the burner hearth 11, preferably, the feeding mouth 13 and burner hearth 11, discharging opening 15 and stove
The difference in height of thorax 11 is 350mm, and so, outside air hardly enters burner hearth, is conducive to improving the purity of oven cavity atmosphere.It is described
Annealing furnace transmission mechanism 2 can drive the loading tray 3 equipped with magnetically soft alloy powder body through feeding mouth 13 enter burner hearth 11, and after Jing go out
Material mouth 15 exits burner hearth 11, is reducing energy consumption, QI consumed, and 11 cross dimensions of burner hearth designs and be fabricated to 380mm × 65mm rectangles, will
Loading tray 3 is fabricated to 310mm × 310mm × 30mm, and the annealing furnace 1 adopts high-alumina brick and asbestos board as the thermal insulating material of brickwork
Material.
Wherein, the annealing furnace transmission mechanism 2 includes the roller of stainless (steel) wire band and transmission stainless (steel) wire band, the roller
Driven using worm-and-wheel gear.Also include tray conveyor structure 4, the annealing furnace 1 forms pan feeding in the front side of feeding mouth 13
End position 16, annealing furnace 1 form discharge end position 17 in the rear side of discharging opening 15, and tray conveyor structure 4 can be by the dress of discharge end position 17
Charging tray 3 is sent to feeding end position 16, and tray conveyor structure 4 is provided with feeding end position 16 and can load magnetically soft alloy into loading tray 3
The blanking mechanism of powder body.
The blanking mechanism includes blanking frame 51 and the Weighing mechanism positioned at 3 bottom of loading tray above loading tray 3
52, the bottom of the blanking frame 51 is provided with blanking port, and blanking port is turned on and off using the control of butterfly valve 53.Feeding end position 16 is provided with
The first mechanical hand 6 that loading tray 3 on tray conveyor structure 4 can be put on annealing furnace transmission mechanism 2.Blanking mechanism and first
The sandwich 7 that the magnetically soft alloy powder surface in loading tray 3 can be struck off is provided between mechanical hand 6, the sandwich 7 includes
The scraper driver part of material scraping plate and the driving material scraping plate reciprocally swinging, scraper driver part can adopt steering wheel.Discharge end position
17 are provided with charging frame 8 and the second mechanical hand 9, and the magnetically soft alloy powder body annealed in loading tray 3 first can be fallen by the second mechanical hand 9
Enter to feed in frame 8, then loading tray 3 is put into above tray conveyor structure 4.
During utility model works:First the magnetically soft alloy powder body that need to be processed is put in blanking frame 51, then is connected to scrape and is flated pass
Sensor 71, feeding sensor 91, start annealing furnace transmission mechanism 2 etc., and charging tray conveyer mechanism 4 is not stopped by the tape running speed of setting
Ground operating.When loading tray 3 is sent to feeding end position 16 by charging tray conveyer belt, scraping the instruction of sensor 71 sandwich 7 will
The alloy powder surface of loading tray 3 strikes off, to ensure that the powder body in loading tray 3 enters consistency of thickness before burner hearth 11.Now, it is another
Loading tray 3 is placed exactly in the underface of blanking frame 8, starts butterfly valve mechanism and rotates clockwise 90 °, so, the alloy in blanking frame 8
Powder body is fallen in loading tray 3, when presetting weight is reached, and the instruction butterfly valve of Weighing mechanism 52 mechanism rotates counterclockwise 90 °, so as to
Close blanking port and stop blanking.Loading tray 3 is put into first mechanical hand 6 the tape running speed fortune by setting of annealing furnace transmission mechanism
On capable stainless (steel) wire band, successively through burner hearth 11 of the annealing furnace feeding mouth 13, surrounding equipped with insulation material, discharging opening 15, arrive
During up to discharge end position 17, feeding sensor 91 instructs the second mechanical hand 9 first by the magnetically soft alloy powder body annealed in loading tray 3
Pour in charging frame 8, then loading tray 3 is put into above charging tray conveyer mechanism 4, so, knot process is just completed.Immediately
The whole process of loading tray thereafter is also so circularly to carry out.
This utility model has advantages below:
(1)The equipment safety is practical, and reliability is high
(2)Specific energy consumption and gas consumption are low, low production cost, and realize that whole process is full-automatic.
(3)The concordance and stability of magnetically soft alloy powder body is fine, and every magnetic property index is very high, meets market
The demand of electronic devices and components miniaturization and miniaturization to performance, market competition advantage are big.
Certainly, the invention is not limited to above-mentioned embodiment, and those of ordinary skill in the art are without prejudice to this
Equivalent variations or replacement can also be made on the premise of utility model spirit, the modification of these equivalents or replacement are all contained in the application
In claim limited range.
Claims (8)
1. a kind of automatic annealing device of magnetically soft alloy powder body decomposed ammonia, it is characterised in that:Pass including annealing furnace and annealing furnace
Transfer mechanism, the front portion that the annealing furnace has burner hearth, burner hearth are provided with pan feeding bonnet, and the front end of pan feeding bonnet forms feeding mouth, stove
The rear portion of thorax is provided with discharging bonnet, and the rear end of the bonnet that discharges forms discharging opening, and the feeding mouth and discharging opening are below the stove
Thorax, the annealing furnace transmission mechanism can drive the loading tray equipped with magnetically soft alloy powder body to enter burner hearth through feeding mouth, and after Jing
Discharging opening exits burner hearth, and also including tray conveyor structure, the annealing furnace forms feeding end position, annealing furnace in the front side of feeding mouth
Discharge end position is formed in the rear side of discharging opening, the loading tray of discharge end position can be sent to feeding end position by tray conveyor structure, expected
Disk connecting gear is provided with the blanking mechanism that soft-magnetic alloy powder body can be loaded into loading tray in feeding end position.
2. the automatic annealing device of magnetically soft alloy powder body decomposed ammonia according to claim 1, it is characterised in that:It is described to move back
Stove transmission mechanism includes the roller of stainless (steel) wire band and transmission stainless (steel) wire band, and the roller is driven using worm-and-wheel gear
It is dynamic.
3. the automatic annealing device of magnetically soft alloy powder body decomposed ammonia according to claim 1, it is characterised in that:It is described fall
Material mechanism includes the blanking frame and the Weighing mechanism positioned at charging tray bottom above loading tray, and the bottom of the blanking frame sets
There is blanking port, blanking port is turned on and off using butterfly valve control.
4. the automatic annealing device of magnetically soft alloy powder body decomposed ammonia according to claim 1, it is characterised in that:Feeding end
Position is provided with the first mechanical hand that can be put into the loading tray on tray conveyor structure on annealing furnace transmission mechanism.
5. the automatic annealing device of magnetically soft alloy powder body decomposed ammonia according to claim 4, it is characterised in that:Blanker
The sandwich that the magnetically soft alloy powder surface in loading tray can be struck off, the sandwich are provided between structure and the first mechanical hand
Including material scraping plate and the scraper driver part of the driving material scraping plate reciprocally swinging.
6. the automatic annealing device of magnetically soft alloy powder body decomposed ammonia according to claim 1, it is characterised in that:Discharge end
Position is provided with charging frame and the second mechanical hand, and the second mechanical hand first can pour the magnetically soft alloy powder body annealed in loading tray into dress
In material frame, then loading tray is put into above tray conveyor structure.
7. the automatic annealing device of magnetically soft alloy powder body decomposed ammonia according to claim 1, it is characterised in that:It is described to move back
Stove adopts high-alumina brick and asbestos board as the insulation material of brickwork.
8. the automatic annealing device of magnetically soft alloy powder body decomposed ammonia according to claim 1, it is characterised in that:It is described enter
The difference in height of material mouth and burner hearth, discharging opening and burner hearth is 350mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621024744.8U CN206065402U (en) | 2016-08-31 | 2016-08-31 | A kind of automatic annealing device of magnetically soft alloy powder body decomposed ammonia |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621024744.8U CN206065402U (en) | 2016-08-31 | 2016-08-31 | A kind of automatic annealing device of magnetically soft alloy powder body decomposed ammonia |
Publications (1)
Publication Number | Publication Date |
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CN206065402U true CN206065402U (en) | 2017-04-05 |
Family
ID=58435859
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621024744.8U Expired - Fee Related CN206065402U (en) | 2016-08-31 | 2016-08-31 | A kind of automatic annealing device of magnetically soft alloy powder body decomposed ammonia |
Country Status (1)
Country | Link |
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CN (1) | CN206065402U (en) |
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2016
- 2016-08-31 CN CN201621024744.8U patent/CN206065402U/en not_active Expired - Fee Related
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170405 Termination date: 20180831 |
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