A kind of annular crack electromagnetic induction heater and its manufacturing method
Technical field
The present invention relates to electromagnetic heating technique field, specially a kind of annular crack electromagnetic induction heater and its manufacturer
Method.
Background technique
It is by electronic circuit board component part that electromagnetic induction heating, i.e. electromagnetic heating technique, which are the principles of electromagnetic heating,
Generate alternating magnetic field, when with containing container made of iron place above when, vessel surface i.e. cut alternate magnetic force line and container bottom gold
Belong to the electric current (being vortexed) that part generates alternation, vortex makes the iron atom high speed random motion of container bottom, and atom is mutually collided
It hits, rub and generate thermal energy.To play the effect of heating article.Because being iron ware self-heating, heat conversion
Especially high, can reach 95% is a kind of direct-fired mode.Current electromagnetic oven, electromagnetic stove electromagnetic heating electric cooker
It is all the electromagnetic heating technique used, although electromagnetic heating technique has been widely used in the field of daily life at present,
When the water source to large-scale plant is heated using also immature, heating efficiency is not high when heating to big water body, and often easy
The failures such as short circuit occur, cause anxiety safely, in consideration of it, it is proposed that a kind of annular crack electromagnetic induction heater and its manufacturer
Method.
Summary of the invention
It is above-mentioned to solve the purpose of the present invention is to provide a kind of annular crack electromagnetic induction heater and its manufacturing method
What is proposed in background technique applies also immature, heating efficiency when heating to big water body when heating to the water source of large-scale plant
It is not high, and the failures such as short circuit often easily occur, the problem of causing anxiety safely.
To achieve the above object, the invention provides the following technical scheme:
A kind of annular crack electromagnetic induction heater, including stainless steel outer wall pipe, the stainless steel outer wall pipe are described stainless
The top of steel outer wall pipe is equipped with pipe fitting, and the top of the pipe fitting is equipped with top blind flange, sets at the top center of the top blind flange
There is steam outlet pipe, the bottom end of the stainless steel outer wall pipe is equipped with bottom cover plate, and the center of the bottom cover plate is provided with circle
Hole, running through in the circular hole of the center of the bottom cover plate has heater water inlet silk tooth pipe, the heater water inlet silk tooth
The top of pipe is coaxially provided with into water end, and the top of the water inlet end is equipped with inner wall tube sealed bottom plug, the pipe fitting
Bottom end is equipped with positioning disk at the top of inner wall tube, seal plug at the top of inner wall tube is equipped in the bottom end of the top positioning disk, described
Stainless steel inner wall tube, the inner wall tube top are equipped at the top of inner wall tube between seal plug and the inner wall tube sealed bottom plug
Positioning disk at the top of inner wall tube is arranged in the top exterior walls of seal plug;
It is enclosed with the first heat insulation foam in the outer surface of the stainless steel outer wall pipe, the outer layer covers of first heat insulation foam have
Second heat insulation foam is equipped with electromagnetic induction coil, the outer surface of the electromagnetic induction coil in the outer surface of second heat insulation foam
On be uniformly distributed more magnetic stripe columns, one layer of second heat insulation foam is also wrapped up in the periphery of the magnetic stripe column, in magnetic stripe column periphery
The second heat insulation foam on the outside of be socketed with aluminium sheet.
Preferably, material selection SUS430, SUS439, SUS440 of the stainless steel outer wall pipe or appointing in carbon steel
It anticipates one kind.
Preferably, the caliber of the stainless steel outer wall pipe is 219mm, 194mm, 180mm, 168mm or 159mm.
Preferably, the stainless steel outer wall pipe with a thickness of 4mm-7mm.
Preferably, the item number of the magnetic stripe column is 8-16.
A kind of manufacturing method of annular crack electromagnetic induction heater, it is characterised in that: the following steps are included:
Step 1: first using certain thickness stainless steel material thick-wall seamless successively by heating, hot-puncturing process,
Stainless steel outer wall pipe is formed after cutting head, pickling, reconditioning, lubrication, cold rolling processing, solution heat treatment, aligning, Pipe Cutting, acid cleaning process;
Step 2: the stainless steel outer wall pipe is welded and fixed with pipe fitting, constitutes entire electromagnetic induction face;
Step 3: the bottom surface of top blind flange is processed into cylindrical concave on lathe, makes the internal diameter of the cylindrical concave
It is adapted with the outer wall of pipe fitting, then pipe fitting and top blind flange is combined closely and welded together along concave surface junction, constituted whole
The top plugging surface of a heater;
Step 4: concentric circle holes will be drilled out with drilling tool at the center of pipe fitting and top blind flange, by the another side of top blind flange
Steam outlet pipe is welded in the position of center hole;
Step 5: processing cylindrical concave for the one side of bottom cover plate on lathe, the internal diameter of the cylindrical concave with
The outer wall of stainless steel outer wall pipe is adapted, and the lower end of stainless steel outer wall pipe and bottom cover plate are combined closely simultaneously along concave surface junction
Weld together, forms the bottom plugging surface of entire heater;
Step 6: drilling out circular hole with drilling tool for the center of bottom cover plate, and heater water inlet silk tooth pipe is passed through bottom
The circular hole at the center of cover board and with water inlet end bottom inlay welding;
Step 7: boss is processed in the center of water inlet head top part using lathe, inner wall tube sealed bottom is blocked up
Being drilled out at the center of head using drilling tool makes boss for the two concentric locating with the shrinkage pool for head top part boss size fit of intaking
The two is inlayed into welding again in close insertion shrinkage pool;
Step 8: boss is processed using center of the lathe at the top of inner wall tube top portion seal plug, by inner wall tube
The shrinkage pool with boss size fit at the top of seal plug at the top of inner wall tube is drilled out using drilling tool at the center of top positioning disk, by two
Person's concentric locating is embedded in boss closely in shrinkage pool and the two is inlayed welding again;
Step 9: combining closely the inner wall of positioning disk at the top of inner wall tube and pipe fitting and weld together, then by pipe fitting with
Stainless steel outer wall pipe does concentric circles welding, guarantees at the top of stainless steel inner wall tube and stainless steel outer wall pipe is concentric locating;
Step 10: the small of multiple conical surfaces is uniformly equidistantly bored on the annular surface of inner wall tube top portion positioning disk with jig drill head
Hole;
Step 11: the first heat insulation foam, then the outer layer in the first heat insulation foam are superscribed in the outer surface of stainless steel outer wall pipe
The second heat insulation foam is superscribed, is overlapped the junction of double thermal insulation cotton not, and fasten using glass fiber tape;
Step 12: the consistent copper pipe of thickness is selected, the adhesive tape of double-layer insulation high-temperature resisting is superscribed on copper pipe, second
Heat insulation foam outer surface replaces wire rod coiling by copper pipe, forms electromagnetic induction coil;
Step 13: more magnetic stripe columns are uniformly being placed on the outer surface that the electromagnetic induction coil made is formed, are being passed through
Viscose cements in electromagnetic induction coil periphery, then one layer of second heat insulation foam is wrapped up outside the good magnetic stripe column of cementation, finally in magnetic stripe
Outside the second heat insulation foam wrapped up outside column using aluminium sheet roll it is curved surround a circle, and use the glue of insulation in the head and the tail joint of aluminium sheet
Item connection.
Preferably, the magnetic stripe column passes through through multiple small magnetic stripes in the prefabricated bar shaped glass-fiber-fabric sack of sewing
Small magnetic stripe own wt forms whole magnetic stripe column.
Preferably, in the step 12 copper pipe coiling mode are as follows: one end it is close around, one circle closely one circle, one section dredge around,
One times of caliber of coil spacing is to 3 times of calibers.
Preferably, copper pipe caliber 10mm-12mm, thickness 1mm-1.5mm that the electromagnetic induction coil coiling uses.
Compared with prior art, beneficial effects of the present invention are as follows:
1, the circular hole place of combining closely at the center of the heater water inlet silk tooth pipe in the present invention and bottom cover plate is welded, and is guaranteed
Bottom cover plate and water inlet silk tooth pipe and water inlet end concentric locating, the top center protrusion part for the end that intakes is with inner wall tube bottom
The shrinkage pool of the bottom centre of portion's seal plug is inlayed, and guarantees the two concentric locating, in the upper edge and inner wall tube bottom of water inlet end
The junction of portion's seal plug is welded, and inner wall tube sealed bottom plug is concentric after being socketed with stainless steel inner wall tube to be welded, to protect
It demonstrate,proves stainless steel inner wall tube and heater water inlet silk tooth pipe is concentric, heater water inlet silk tooth pipe and bottom cover plate and stainless steel outer wall
Pipe with one heart, to reach entire heater inner wall tube and outer wall pipe be in the position of concentric circles, guarantee outer wall pipe and inner wall tube structure
Circularize crack and the annular crack uniformity.
2, it is concentric close knot that the bottom of the stainless steel inner wall tube in the present invention is same as seal plug at the top of inner wall tube
Merge soldering, there is a cylindric convex surface, positioning disk at the top of the convex surface and inner wall tube at the top of inner wall tube at the top of seal plug
Internal diameter circular hole be in close contact, and do the welding of same level at top, the inner wall of positioning disk and pipe fitting is tight at the top of inner wall tube
Close junction welds together, and pipe fitting and outer wall pipe do concentric circles welding, ensure that inner wall tube top and outer wall pipe are concentric fixed
Position, and will not be shaken during steam impringement, improve the stability of equipment.
3, the present invention plays the role of concentric locating by positioning disk at the top of inner wall tube;Positioning disk at the top of inner wall tube simultaneously
The aperture of the conical surface is evenly distributed on annular surface, the inner wall of positioning disk and pipe fitting welds together at the top of inner wall tube, does not stitch
Gap, the steam that liquid water particle is mingled with after being heated in base circle crack are flushed to behind top only by positioning disk at the top of inner wall tube
On conical surface aperture pour in the pipe fitting at top, these conical surface apertures can allow the steam in annular crack to form injection, play
The effect of steam jet, while allowing liquid water particle to be attached on the conical surface and forming moisture film, it flows back in annular crack and continues to be heated,
Play the role of a simple steam-water separation.
4, the present invention connects water inlet end and fever by seal plug at the top of inner wall tube and inner wall tube sealed bottom plug
Body water inlet silk tooth pipe, forms a concentric locating in the cavity that stainless steel outer wall pipe and top blind flange and bottom cover plate are constituted
Annular crack electromagnetic induction heating body, the main screw lift which is constituted is light, has saved metal material, high-power concentration heating
Water column in annular crack, the time for generating steam greatly shorten compared to the time of the water in one big water tank of heating, compare
In heating the water in entire water tank, the melt water amount of annular crack heating body structure greatly reduces, and Jie in annular crack
Matter is heated evenly, and is easy to produce the steam of high-quality.
Detailed description of the invention
Fig. 1 is overall structure diagram of the invention;
Fig. 2 is overall structure of the explosion figure of the invention;
Fig. 3 is overall structure sectional view of the invention.
In figure: 1, stainless steel inner wall tube;2, seal plug at the top of inner wall tube;3, heater water inlet silk tooth pipe;4, inner wall tube
Top positioning disk;5, stainless steel outer wall pipe;6, top blind flange;7, bottom cover plate;8, pipe fitting;9, inner wall tube sealed bottom plug;
10, intake end;11, steam outlet pipe;12, electromagnetic induction coil;13, the first heat insulation foam;14, the second heat insulation foam;15, aluminium
Plate;16, adhesive tape;17, magnetic stripe column;18, insulating supporting column.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Fig. 1-3 is please referred to, the present invention provides a kind of technical solution:
A kind of annular crack electromagnetic induction heater, including stainless steel outer wall pipe 5, the top of stainless steel outer wall pipe 5 are equipped with
Pipe 8, the top of pipe fitting 8 are equipped with top blind flange 6, are equipped with steam outlet pipe 11, stainless steel outer wall at the top center of top blind flange 6
The bottom end of pipe 5 is equipped with bottom cover plate 7, and the center of bottom cover plate 7 is provided with circular hole, the circle in the center of bottom cover plate 7
Through there is heater water inlet silk tooth pipe 3 in hole, the top of heater water inlet silk tooth pipe 3 is coaxially provided with into water end 10, water inlet end
First 10 top is equipped with inner wall tube sealed bottom plug 9, and the bottom end of pipe fitting 8 is equipped with positioning disk 4 at the top of inner wall tube, positions at top
The bottom end of disk 4 is equipped with seal plug 2 at the top of inner wall tube, seal plug 2 and inner wall tube sealed bottom plug 9 in inner wall tube top portion
Between be equipped with stainless steel inner wall tube 1, positioning disk 4 at the top of inner wall tube is arranged at the top of inner wall tube in the top exterior walls of seal plug 2;
It is enclosed with the first heat insulation foam 13 in the outer surface of stainless steel outer wall pipe 5, the outer layer covers of the first heat insulation foam 13 have
Two heat insulation foams 14 are equipped with electromagnetic induction coil 12 in the outer surface of the second heat insulation foam 14, on the outer surface of electromagnetic induction coil 12
More magnetic stripe columns 17 are uniformly distributed, one layer of second heat insulation foam 14 are also wrapped up in the periphery of magnetic stripe column 17, in 17 periphery of magnetic stripe column
Aluminium sheet 15 is socketed on the outside of second heat insulation foam 14.
In the present embodiment, the material selection SUS439 of stainless steel outer wall pipe 5 is reduced on the basis of common ferrite material
The content of C, while Ti be added etc. and changing element surely, mention the resistance to intergranular corrosion, mouldability and weldability of the stainless steel
It is high.
In addition, the caliber of stainless steel outer wall pipe 5 is 219mm, as a kind of preferred embodiment with a thickness of 4mm-7mm.
In the present embodiment, the item number of magnetic stripe column 17 is 16, and equally distributed 16 magnetic stripe columns 17, which play, prevents electromagnetism sense
Answer the effect of 12 leakage field of coil.
It is worth noting that, the circular hole place of combining closely at the center of heater water inlet silk tooth pipe 3 and bottom cover plate 7 is welded,
Guarantee bottom cover plate 7 and water inlet silk tooth pipe 3 and water inlet 10 concentric locating of end, part is protruded in the top center of water inlet end 10
Shrinkage pool with the bottom centre of inner wall tube sealed bottom plug 9 is inlayed, and guarantees the two concentric locating, in the top of water inlet end 10
It is welded along with the junction of inner wall tube sealed bottom plug 9, after inner wall tube sealed bottom plug 9 and the socket of stainless steel inner wall tube 1
Welding with one heart, thus guarantee that stainless steel inner wall tube 1 and heater water inlet silk tooth pipe 3 are concentric, heater water inlet silk tooth pipe 3 and bottom
Cover board 7 and stainless steel outer wall pipe 5 with one heart, to reach entire heater inner wall tube and outer wall pipe is in the position of concentric circles,
Guarantee that outer wall pipe and inner wall tube constitute annular crack and the annular crack uniformity.
In addition to this, the bottom of stainless steel inner wall tube 1 and seal plug 2 at the top of inner wall tube are equally concentric combine closely
And soldering, there are a cylindric convex surface, positioning disk 4 at the top of the convex surface and inner wall tube at the top of inner wall tube at the top of seal plug 2
Internal diameter circular hole be in close contact, and do the welding of same level at top, the inner wall of positioning disk 4 and pipe fitting 8 at the top of inner wall tube
The place of combining closely welds together, and pipe fitting 8 and outer wall pipe do concentric circles welding, ensure that at the top of inner wall tube with outer wall pipe it is concentric
Positioning, and will not be shaken during steam impringement, improve the stability of equipment.
A kind of manufacturing method of annular crack electromagnetic induction heater, comprising the following steps:
Step 1: first using certain thickness stainless steel material thick-wall seamless successively by heating, hot-puncturing process,
Stainless steel outer wall pipe is formed after cutting head, pickling, reconditioning, lubrication, cold rolling processing, solution heat treatment, aligning, Pipe Cutting, acid cleaning process
5;
Step 2: stainless steel outer wall pipe 5 is welded and fixed with pipe fitting 8, constitutes entire electromagnetic induction face;
Step 3: the bottom surface of top blind flange 6 is processed into cylindrical concave on lathe, makes the internal diameter of the cylindrical concave
It is adapted with the outer wall of pipe fitting 8, then pipe fitting 8 is combined closely and welded together along concave surface junction with top blind flange 6, constituted
The top plugging surface of entire heater;
Step 4: concentric circle holes will be drilled out with drilling tool at the center of pipe fitting 8 and top blind flange 6, by the another of top blind flange 6
Steam outlet pipe 11 is welded in the position of center hole in face;
Step 5: processing cylindrical concave for the one side of bottom cover plate 7 on lathe, the internal diameter of the cylindrical concave with
The outer wall of stainless steel outer wall pipe 5 is adapted, and the lower end of stainless steel outer wall pipe 5 is closely tied with bottom cover plate 7 along concave surface junction
Merging welds together, and forms the bottom plugging surface of entire heater;
Step 6: drilling out circular hole with drilling tool for the center of bottom cover plate 7, and heater water inlet silk tooth pipe 3 is passed through bottom
The circular hole at the center of portion's cover board 7 and with water inlet end 10 bottom inlay welding;
Step 7: boss is processed in the center at 10 top of water inlet end using lathe, by inner wall tube sealed bottom
Being drilled out at the center of plug 9 using drilling tool is made the two concentric locating with the shrinkage pool for 10 top boss size fit of end of intaking
Boss, which is closely embedded in shrinkage pool, inlays welding for the two again;
Step 8: boss is processed in the center at 2 top of inner wall tube top portion seal plug using lathe, by inner wall tube
The shrinkage pool with 2 top boss size fit of seal plug at the top of inner wall tube is drilled out using drilling tool at the center of top positioning disk 4, it will
The two concentric locating is embedded in boss closely in shrinkage pool and the two is inlayed welding again;
Step 9: combining closely the inner wall of positioning disk 4 at the top of inner wall tube and pipe fitting 8 and weld together, then by pipe fitting 8
Concentric circles welding is done with stainless steel outer wall pipe 5, guarantees 1 top of stainless steel inner wall tube and stainless steel outer wall pipe 5 is concentric locating;
Step 10: the small of multiple conical surfaces is uniformly equidistantly bored on the annular surface of inner wall tube top portion positioning disk 4 with jig drill head
Hole;
Step 11: the first heat insulation foam 13 is superscribed in the outer surface of stainless steel outer wall pipe 5, then in the first heat insulation foam 13
Second heat insulation foam 14 on outer layer covers, is overlapped the junction of double thermal insulation cotton not, and fasten using glass fiber tape;
Step 12: the consistent copper pipe of thickness is selected, the adhesive tape of double-layer insulation high-temperature resisting is superscribed on copper pipe, second
14 outer surface of heat insulation foam replaces wire rod coiling by copper pipe, forms electromagnetic induction coil 12;
Step 13: uniformly placing more magnetic stripe columns 17 on the outer surface that the electromagnetic induction coil 12 made is formed,
12 periphery of electromagnetic induction coil is cemented in by viscose, then wraps up one layer of second heat insulation foam 14 outside the good magnetic stripe column 17 of cementation,
Outside the second heat insulation foam 14 finally wrapped up outside magnetic stripe column 17 using aluminium sheet 15 roll it is curved surround a circle, and in the head and the tail of aluminium sheet 15
Joint is connected using the adhesive tape 16 of insulation.
Further, magnetic stripe column 17 passes through through multiple small magnetic stripes in the prefabricated bar shaped glass-fiber-fabric sack of sewing
Small magnetic stripe own wt forms whole magnetic stripe column 17.
In the present embodiment, in step 12 copper pipe coiling mode are as follows: one end it is close around, one circle closely one circle, one section dredge
Around, one times of caliber of coil spacing to 3 times of calibers is powered and is generated heat by the electromagnetic induction coil 12 of copper pipe coiling after powered up,
Compared to traditional wire rod coiling mode, heating efficiency improves several times.
In addition to this, the copper pipe caliber 12mm that 12 coiling of electromagnetic induction coil uses, with a thickness of 1.5mm.
It is extremely important that positioning disk 4 plays the role of concentric locating at the top of inner wall tube;Positioning at the top of inner wall tube simultaneously
Disk 4 is evenly distributed with the aperture of the conical surface on annular surface, and positioning disk 4 and the inner wall of pipe fitting 8 weld together at the top of inner wall tube, does not have
It has the gap, the steam that liquid water particle is mingled with after being heated in base circle crack is flushed to behind top only by fixed at the top of inner wall tube
Conical surface aperture on the disk 4 of position pours in the pipe fitting 8 at top, these conical surface apertures can allow the steam in annular crack to form spray
Penetrate, play the role of steam jet, while allowing liquid water particle to be attached on the conical surface and forming moisture film, flow back in annular crack after
It is continuous heated, play the role of a simple steam-water separation.
So far, by seal plug 2 at the top of inner wall tube and inner wall tube sealed bottom plug 9, water inlet end 10 and hair are connected
Hot body water inlet silk tooth pipe 3, formation one is concentric in the cavity that stainless steel outer wall pipe 5 and top blind flange 6 and bottom cover plate 7 are constituted
The annular crack electromagnetic induction heating body of positioning, the main screw lift which is constituted is light, has saved metal material, high-power collection
The middle water column heated in annular crack, the time for generating steam contract significantly compared to the time of the water in one big water tank of heating
Short, compared to the water heated in entire water tank, the melt water amount of annular crack heating body structure greatly reduces, and annular crack
Interior medium is heated evenly, and is easy to produce the steam of high-quality.
In addition, influencing heat insulation there are gap using interface when single layer heat insulation foam in order to prevent, the present inventor will
The outer surface of stainless steel outer wall pipe 5 superscribes the first heat insulation foam 13, and it is heat-insulated that the outer layer of heat insulation foam 13 wraps up one layer of package second again
The junction of cotton 14, double thermal insulation cotton is not overlapped, and is fastened using glass fiber tape.
Further, the adhesive tape that double-layer insulation high-temperature resisting is wrapped up before 12 coiling of electromagnetic induction coil, prevents coil from working
Turn-to-turn short circuit in the process.
Secondly, 14 periphery socket aluminium sheet 15 of the second heat insulation foam, plays the role of armoured magnetic field interference, in order to prevent aluminium sheet
15 generate vortex heat when electromagnetic induction coil 12 works, and the junction of aluminium sheet 15 is connected using the adhesive tape 16 of insulation.
It is worth noting that in order to make the first heat insulation foam 13 and the second heat insulation foam 14 heat-insulated while bringing good sound insulation
Effect, the present inventor are prepared using following methods: preparation polypropylene superfine fiber and polyester staple fiber first, wherein poly- third
Alkene fiber average fineness is 1~2 μm, and the fineness of polyester staple fiber is 25~35 μm, double groups mixed by both ingredients
Part material after electrostatic electret, is added syndiotactic polypropylene and isotactic polypropylene is mixed according to mass percent, then cut again
Melt-spraying spinning is carried out after piece, drying: being 200 DEG C~240 DEG C in die head temperature, stretching hot air temperature is 160 DEG C~200 DEG C,
Heat air pressure is 10MPa~15MPa, and hot-air jet angle carries out secondary slice to above-mentioned fiber under conditions of being 60 °~75 °
Extrusion molten afterwards carries out melt-spraying spinning and is made under conditions of receiving distance is 28cm~33cm, using side in the present embodiment
Method preparation the first heat insulation foam 13 and the second heat insulation foam 14 using syndiotactic polypropylene it is soft, fluffy, elasticity is good, flexibility
The advantages that good, further enhances the various performances of the first heat insulation foam 13 and the second heat insulation foam 14.
The basic principles, main features and advantages of the present invention have been shown and described above.The technology of the industry
For personnel it should be appreciated that the present invention is not limited to the above embodiments, described in the above embodiment and specification is only the present invention
Preference, be not intended to limit the invention, without departing from the spirit and scope of the present invention, the present invention also has various
Changes and improvements, these changes and improvements all fall within the protetion scope of the claimed invention.The claimed scope of the invention is by institute
Attached claims and its equivalent thereof.