CN204089640U - The stator structure of the hot power generating equipment of a kind of magnetic - Google Patents

The stator structure of the hot power generating equipment of a kind of magnetic Download PDF

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Publication number
CN204089640U
CN204089640U CN201420573304.2U CN201420573304U CN204089640U CN 204089640 U CN204089640 U CN 204089640U CN 201420573304 U CN201420573304 U CN 201420573304U CN 204089640 U CN204089640 U CN 204089640U
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CN
China
Prior art keywords
fluid
soft magnetism
cavity
fluid inlet
cover plate
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Withdrawn - After Issue
Application number
CN201420573304.2U
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Chinese (zh)
Inventor
赵天安
龙克文
颜天宝
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Foshan Chuandong Magnetoelectricity Co Ltd
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Foshan Chuandong Magnetoelectricity Co Ltd
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Priority to CN201420573304.2U priority Critical patent/CN204089640U/en
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Abstract

The utility model relates to magnetic thermal engine technology field, the in particular stator structure of the hot power generating equipment of a kind of magnetic, comprise annular housing and cavity volume cover plate, described cavity volume cover plate and annular housing one side opening are equipped with, even number soft magnetism cavity is provided with in described annular housing, fluid inlet hole is provided with between two soft magnetism cavitys on annular housing top, Fluid-exiting apertures is provided with between two soft magnetism cavitys of annular housing bottom, described fluid inlet hole and Fluid-exiting apertures are all communicated with the fluid inlet hole of its both sides, between be not provided with fluid inlet hole or Fluid-exiting apertures two soft magnetism cavitys be interconnected, described cavity volume cover plate is provided with fluid inlet tube and fluid goes out pipe, and described fluid inlet tube and fluid go out Guan Jun and arrange through cavity volume cover plate, and described fluid inlet tube and fluid go out pipe and arrange with fluid inlet hole and Fluid-exiting apertures corresponding matching respectively, soft magnetism is provided with in described soft magnetism cavity.The utility model vibrational power flow is reasonable, makes to add hot fluid or cooling fluid directly contacts with soft magnetism, greatly raising thermal energy rate.

Description

The stator structure of the hot power generating equipment of a kind of magnetic
Technical field
The utility model relates to magnetic thermal engine technology field, in particular the stator structure of the hot power generating equipment of a kind of magnetic.
Background technology
The hot power generating equipment of magnetic is that thermal energy is become magnetic energy by one, recycling magnetic energy change into mechanical energy externally do work generating heat energy utilization equipment, it generally comprises the stator being provided with soft magnetism and the rotor being provided with Hard Magnetic, utilizes the soft magnetism in stator to coordinate with the Hard Magnetic in rotor and realizes correlation function.
Stator is wherein comparatively crucial parts, and its inside is provided with soft magnetism, and the hot power generating equipment of magnetic need heat soft magnetism or cool, and makes it lose or recovers magnetic, thus constantly driving Hard Magnetic, and realizes rotor turns and externally do work.Arranging of stator structure directly determines energy conversion efficiency, conversion rate etc.The rounded tabular of stator of the hot power generating equipment of existing magnetic arranges (see Chinese utility model patent specification 201310321824.4), its both sides are staggered is provided with soft magnetism, the soft magnetism of the same side is that decile is arranged, heat pipe or cooling water pipe is folded with between two soft magnetisms that described homonymy is adjacent, such setting, heat-conducting fluid in heat pipe and the cooling fluid in cooling water pipe directly directly do not contact with soft magnetism, heating is very limited with cooling effect, greatly affect heat trnasfer, thermal energy rate is low.
Therefore, prior art has yet to be improved and developed.
Summary of the invention
The purpose of this utility model is the stator structure providing the hot power generating equipment of a kind of magnetic, the heat-conducting fluid being intended to solve in the heat pipe that prior art exists directly directly does not contact with soft magnetism with the cooling fluid in cooling water pipe, thus the heating caused and the undesirable technical problem of cooling effect.
The technical solution of the utility model is as follows:
The stator structure of the hot power generating equipment of a kind of magnetic described in the utility model, comprise annular housing and cavity volume cover plate, the side seal of described annular housing one and opposite side opening, described cavity volume cover plate and annular housing one side opening are equipped with, even number soft magnetism cavity is provided with in described annular housing, described even number soft magnetism cavity is uniformly distributed in annular housing, fluid inlet hole is provided with between two soft magnetism cavitys on annular housing top, Fluid-exiting apertures is provided with between two soft magnetism cavitys of annular housing bottom, described fluid inlet hole and Fluid-exiting apertures are all communicated with the soft magnetism cavity of its both sides, between be not provided with fluid inlet hole or Fluid-exiting apertures two soft magnetism cavitys be interconnected, described cavity volume cover plate is that annular is arranged, and which is provided with fluid inlet tube and fluid and goes out pipe, and described fluid inlet tube and fluid go out Guan Jun and arrange through cavity volume cover plate, and described fluid inlet tube and fluid go out pipe and arrange with fluid inlet hole and Fluid-exiting apertures corresponding matching respectively, soft magnetism is provided with in described soft magnetism cavity.
Further, described fluid inlet hole both sides are communicated with the soft magnetism cavity of corresponding both sides by upper splitter box, and described Fluid-exiting apertures both sides are communicated with by the soft magnetism cavity of the corresponding both sides of lower splitter box; Between be not provided with fluid inlet hole or Fluid-exiting apertures two soft magnetism cavitys be communicated with by current limliting groove, the fluid inlet tube both sides inside described cavity volume cover plate are provided with flow distribution plate, and the fluid inside described cavity volume cover plate goes out pipe both sides and is provided with lower flow distribution plate; Described upper flow distribution plate and lower flow distribution plate are arranged with upper splitter box and lower splitter box corresponding matching respectively.
Further, described cavity volume cover plate medial surface is provided with even number diversion column group, and described even number diversion column group and even number soft magnetism cavity one_to_one corresponding are arranged.
Further, described soft magnetism cavity bottom side is provided with some diversion column A.
Further, described diversion column group comprises some diversion column B, and described diversion column A is corresponding with diversion column B to be arranged.
Further, the junction of described soft magnetism cavity and current limliting groove is provided with step, and the degree of depth of described soft magnetism cavity is greater than the degree of depth of current limliting groove, and the width of described soft magnetism cavity is greater than the width of splitter box or lower splitter box or current limliting groove.
Further, some fixed legs are provided with outside described cavity volume cover plate.
Further, the curved shape of described soft magnetism or tiles are arranged, and described soft magnetism upper and lower surface is laterally provided with some guiding gutters.
The beneficial effects of the utility model: after the utility model takes said structure, add hot fluid or cooling fluid can pass through fluid inlet tube, directly enter in annular housing through fluid inlet hole, after the shunting of annular housing both sides, soft magnetism is flowed through fully under the setting of soft magnetism chamber Inner guide post and current limliting groove step, pass through Fluid-exiting apertures again, fluid goes out pipe and flows out, add hot fluid or cooling fluid directly and soft magnetism bump contact, drastically increase heating and cooling effect, strengthen the actuating force between soft magnetism and Hard Magnetic, when miscellaneous equipment condition is identical, improve the power output of the hot power generating equipment of magnetic.The utility model structure is simple, arranges rationally, greatly improves thermal energy efficiency.
Accompanying drawing explanation
Fig. 1 is the utility model decomposition texture schematic diagram;
Fig. 2 is the utility model annular housing structural representation;
Fig. 3 is the utility model cavity volume covering plate structure schematic diagram;
Fig. 4 is the utility model soft magnetism Fig. 1 structural representation.
In figure: 1, annular housing; 11, soft magnetism cavity; 12, fluid inlet hole; 13, Fluid-exiting apertures; 14, upper splitter box; 15, lower splitter box; 16, current limliting groove; 17, step; 18, diversion column A; 2, cavity volume cover plate; 21, fluid inlet tube; 22, upper flow distribution plate; 23, fluid goes out pipe; 24, lower flow distribution plate; 25, fixed leg; 26, diversion column group; 27, diversion column B; 3, soft magnetism; 31, guiding gutter.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described in further detail, but execution mode of the present utility model is not limited thereto.
As shown in Figures 1 to 4, the stator structure of the hot power generating equipment of a kind of magnetic described in the utility model, comprises annular housing 1 and cavity volume cover plate 2, the side seal of described annular housing 1 one and opposite side opening, and described cavity volume cover plate 2 is equipped with annular housing 1 one side opening.Above-mentioned two parts form the utility model agent structure.
Be provided with even number soft magnetism cavity 11 in described annular housing 1, described even number soft magnetism cavity 11 is uniformly distributed in annular housing 1.The preferred described soft magnetism cavity 11 of the utility model is 4.Described annular housing 1 can be top two soft magnetism cavitys 11 between be provided with fluid inlet hole 12, be provided with Fluid-exiting apertures 13 between two soft magnetism cavitys 11 of annular housing 1 bottom, described fluid inlet hole 12 and Fluid-exiting apertures 13 are communicated with the soft magnetism cavity 11 of its both sides respectively.Between be not provided with fluid inlet hole 12 or Fluid-exiting apertures 13 two soft magnetism cavitys 11 be interconnected, in other words, flow with Fluid-exiting apertures 13 and be communicated with in described fluid inlet hole 12 both sides.
Described cavity volume cover plate 2 is that annular is arranged, which is provided with fluid inlet tube 21 and fluid goes out pipe 23, described fluid inlet tube 21 and fluid go out pipe 23 and all arrange through cavity volume cover plate 2, and described fluid inlet tube 21 and fluid go out pipe 23 and arrange with fluid inlet hole 12 and Fluid-exiting apertures 13 corresponding matching respectively.
Soft magnetism 3 is provided with in described soft magnetism cavity 11.
During use, the utility model is vertically arranged, when needing heat the soft magnetism 3 be located in the soft magnetism cavity 11 of annular housing 1 or cool, heating or cooling fluid enter annular housing 1 from fluid inlet tube 21 through fluid inlet hole 12, enter in the soft magnetism cavity 11 of both sides respectively, soft magnetism 3 is directly heated or cools, then from both sides through Fluid-exiting apertures 13, fluid goes out pipe 23 and flows out outside the utility model.Such vibrational power flow, makes to add hot fluid or cooling fluid directly contacts with soft magnetism 3, drastically increases heating or cooling effect, thus improves energy transformation ratio.It should be noted that, the upper and lower of annular housing 1 is a relative concept, and the utility model arranges the upper and lower of annular housing 1, is to go out pipe 23 for the ease of convection cell inlet pipe 21 and fluid effectively to illustrate, functionally, two can be exchanged mutually.
Preferred described fluid inlet hole 12 both sides of the utility model are communicated with the soft magnetism cavity 11 of corresponding both sides by upper splitter box 14, and described Fluid-exiting apertures 13 both sides are communicated with by the soft magnetism cavity 11 of the lower corresponding both sides of splitter box 15; Fluid inlet tube 21 both sides inside described cavity volume cover plate 2 are provided with flow distribution plate 22, and the fluid inside described cavity volume cover plate 2 goes out pipe 23 both sides and is provided with lower flow distribution plate 24.Described upper flow distribution plate 22 and lower flow distribution plate 24 are arranged with upper splitter box 14 and lower splitter box 15 corresponding matching respectively.Such setting, when adding after hot fluid or cooling fluid enter fluid inlet tube 21, translateral upper splitter box 14 carries out cloth stream, make to add the soft magnetism cavity 11 that hot fluid or cool stream physical efficiency are uniformly distributed in both sides as far as possible, avoid adding hot fluid or cooling fluid is line style stream, and impact heating or cooling effect.
Between be not provided with fluid inlet hole 12 or Fluid-exiting apertures 13 two soft magnetism cavitys 11 be communicated with by current limliting groove 16.Described soft magnetism cavity 11 is provided with step 17 with the junction of current limliting groove 16, and the degree of depth of described soft magnetism cavity 11 is greater than the degree of depth of current limliting groove 16, and the width of described soft magnetism cavity 11 is greater than the width of splitter box 14 or lower splitter box 15 or current limliting groove 16.The curved shape of described soft magnetism 3 or tiles are arranged, and described soft magnetism 3 upper and lower surface is laterally provided with some guiding gutters 31.Such setting, effectively can control the flow direction adding hot fluid or cooling fluid, make to add hot fluid or cooling fluid forms " S " type stream in annular housing 1, when adding hot fluid or cooling fluid enters soft magnetism cavity 11, it flows transversely through, just in time through soft magnetism 3 upper and lower surface people guiding gutter 31, make to add hot fluid or cooling fluid can more fully contact with soft magnetism 3.
Described cavity volume cover plate 2 medial surface is provided with even number diversion column group 26, and described even number diversion column group 26 is arranged with even number soft magnetism cavity 11 one_to_one corresponding.Described soft magnetism cavity 11 bottom side is provided with some diversion column A18, and described diversion column group 26 comprises some diversion column B27, and described diversion column A18 is corresponding with diversion column B27 to be arranged.Such setting, when adding hot fluid or cooling fluid enters soft magnetism cavity 11, diversion column group 26 and diversion column A18 correspondence arrange and can form fluid cavity, can guide and add hot fluid or cooling fluid flows transversely through soft magnetism cavity 11.
Some fixed legs 25 are provided with, for by corresponding to other for the utility model secure fit equipment outside described cavity volume cover plate 2.
The announcement of book and instruction according to the above description, the utility model those skilled in the art can also change above-mentioned execution mode and revise.Therefore, the utility model is not limited to above-mentioned embodiment, and any apparent improvement that every those skilled in the art do on basis of the present utility model, replacement or modification all belong to protection range of the present utility model.In addition, although employ some specific terms in this specification, these terms just for convenience of description, do not form any restriction to the utility model.

Claims (8)

1. the stator structure of the hot power generating equipment of magnetic, it is characterized in that: comprise annular housing (1) and cavity volume cover plate (2), the side seal of described annular housing (1) one and opposite side opening, described cavity volume cover plate (2) and annular housing (1) side opening are equipped with, even number soft magnetism cavity (11) is provided with in described annular housing (1), described even number soft magnetism cavity (11) is uniformly distributed in annular housing (1), fluid inlet hole (12) is provided with between two soft magnetism cavitys (11) on annular housing (1) top, Fluid-exiting apertures (13) is provided with between two soft magnetism cavitys (11) of annular housing (1) bottom, described fluid inlet hole (12) and Fluid-exiting apertures (13) are all communicated with the soft magnetism cavity (11) of its both sides, between be not provided with fluid inlet hole (12) or Fluid-exiting apertures (13) two adjacent soft magnetism cavitys (11) be interconnected, described cavity volume cover plate (2) is that annular is arranged, which is provided with fluid inlet tube (21) and fluid and go out pipe (23), described fluid inlet tube (21) and fluid go out pipe (23) and all arrange through cavity volume cover plate (2), and described fluid inlet tube (21) and fluid go out pipe (23) and arrange with fluid inlet hole (12) and Fluid-exiting apertures (13) corresponding matching respectively, soft magnetism (3) is provided with in described soft magnetism cavity (11).
2. the stator structure of the hot power generating equipment of magnetic according to claim 1, it is characterized in that: described fluid inlet hole (13) both sides are communicated with the soft magnetism cavity (11) of corresponding both sides by upper splitter box (14), and described Fluid-exiting apertures (13) both sides are communicated with by the soft magnetism cavity (11) of lower splitter box (15) corresponding both sides; Between be not provided with fluid inlet hole (12) or Fluid-exiting apertures (13) two soft magnetism cavitys (11) be communicated with by current limliting groove (16), fluid inlet tube (21) both sides of described cavity volume cover plate (2) inner side are provided with flow distribution plate (22), and the fluid of described cavity volume cover plate (2) inner side goes out pipe (23) both sides and is provided with lower flow distribution plate (24); Described upper flow distribution plate (22) and lower flow distribution plate (24) are arranged with upper splitter box (14) and lower splitter box (15) corresponding matching respectively.
3. the stator structure of the hot power generating equipment of magnetic according to claim 2, it is characterized in that: described cavity volume cover plate (2) medial surface is provided with even number diversion column group (26), described even number diversion column group (26) and even number soft magnetism cavity (11) one_to_one corresponding are arranged.
4. the stator structure of the hot power generating equipment of magnetic according to claim 3, is characterized in that: described soft magnetism cavity (11) bottom side is provided with some diversion column A (18).
5. the stator structure of the hot power generating equipment of magnetic according to claim 4, it is characterized in that: described diversion column group (26) comprises some diversion column B (27), described diversion column A (18) is corresponding with diversion column B (27) to be arranged.
6. according to the stator structure of the arbitrary described hot power generating equipment of magnetic of claim 2-5, it is characterized in that: described soft magnetism cavity (11) is provided with step (17) with the junction of current limliting groove (16), the degree of depth of described soft magnetism cavity (11) is greater than the degree of depth of current limliting groove (16), and the width of described soft magnetism cavity (11) is greater than the width of splitter box (14) or lower splitter box (15) or current limliting groove (16).
7. the stator structure of the hot power generating equipment of magnetic according to claim 6, is characterized in that: described cavity volume cover plate (2) outside is provided with some fixed legs (25).
8. the stator structure of the hot power generating equipment of magnetic according to claim 6, it is characterized in that: described soft magnetism (3) curved shape or tiles are arranged, and described soft magnetism (3) upper and lower surface is laterally provided with some guiding gutters (31).
CN201420573304.2U 2014-09-30 2014-09-30 The stator structure of the hot power generating equipment of a kind of magnetic Withdrawn - After Issue CN204089640U (en)

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Application Number Priority Date Filing Date Title
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104218849A (en) * 2014-09-30 2014-12-17 佛山市川东磁电股份有限公司 Stator structure of magnetic-thermal power generation equipment

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104218849A (en) * 2014-09-30 2014-12-17 佛山市川东磁电股份有限公司 Stator structure of magnetic-thermal power generation equipment

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C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20150107

Effective date of abandoning: 20160817

C25 Abandonment of patent right or utility model to avoid double patenting