CN209414190U - Slim pumping configuration - Google Patents
Slim pumping configuration Download PDFInfo
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- CN209414190U CN209414190U CN201822067589.3U CN201822067589U CN209414190U CN 209414190 U CN209414190 U CN 209414190U CN 201822067589 U CN201822067589 U CN 201822067589U CN 209414190 U CN209414190 U CN 209414190U
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- pump case
- pumping configuration
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Abstract
The utility model provides a kind of slim pumping configuration, including a pump case, one rotor set, stator group, one deflector and a closure member, the pump case has one first side and a second side, first side forms a pumping chamber, and in one axle center of pumping chamber centre projection, then one alcove of recessed formation at the opposite pumping chamber of the second side, the rotor set has a pivot hole, rotor set correspondence is located in the pump cavity room and the pivot hole is enabled mutually to be pivoted with the axle center, the rotor set has an impeller and a magnetic element, the magnetic element is set to the impeller downside, the stator pack is corresponding to be located in the alcove and is oppositely arranged with the magnetic element in level with mutual induction excitation, the deflector corresponds to the cover pumping chamber, the corresponding lid of the closure member sets the pump case.
Description
Technical field
The utility model relates to a kind of slim pumping configurations, and espespecially one kind can be greatly decreased overall volume and improve using the longevity
The slim pumping configuration of life.
Background technique
Increasingly enhance as electronic equipment calculates efficiency, electronic component set by inside can generate a large amount of when running
Heat, usually need in radiator or radiating fin are arranged on electronic component to increase heat dissipation area and then heat radiation efficiency, but
Since radiator and radiating fin heat dissipation effect achieved are limited, therefore the existing prior art just has using water cooling plant as increasing
The settling mode of strong heat dissipation.
And existing water cooling plant is the heat and water cooling plant that will be absorbed into heater element (processor or graphics processor)
The cooling liquid heat-exchange of internal one, then by the pumping inside water cooling plant come circulating cooling liquid, the water cooling plant
A radiator is connected by plural tube body, enables cooling liquid that can carry out between the two heat exchange circulation in radiator and water cooling plant and dissipates
Heat, to heater element rapid cooling.
As shown in Figure 1, the pumping configuration 1 inside existing water cooling plant includes a pump case 10, a rotor set 11, a stator
Group (not shown), a deflector 12 and a closure member 13, the side of the pump case 10 forms a pumping chamber 101, in the pumping
One core seat 102 is set in chamber 101, and 11 system of rotor set is hubbed on the core seat 102, and the stator pack is located in this
For pump case 10 with respect to the other side of the pumping chamber 101, which, which corresponds to, pumps chamber 101, the closure member described in the cover
13 corresponding lids set the pump case 10, when existing pumping configuration 1 starts operation, the axle center of the rotor set 11 can constantly with
Pump case 10 rubs and causes mechanical loss problem, can thus reduce the service life of pumping configuration 1, then and, in axle center
With pump case 10 rub while be also easy to produce noise problem, in addition to this, the pump case 10 as the core seat 102 with should
The space installed needed for rotor set 11 and cause axial space requirement larger, it is thick that this will cause existing 1 overall volume of pumping configuration
It spends thicker.
Therefore how to solve the problems, such as above-mentioned existing and missing, the as inventor of this case and phase engaged in this industry
Shutout quotient wants to study improved direction place.
Utility model content
In this way, the main purpose of the utility model is to provide one kind to be greatly decreased effectively to solve the problem above-mentioned
The slim pumping configuration of overall volume.
The secondary objective of the utility model is to provide a kind of slim pumping configuration with slimming.
The secondary objective of the utility model is to provide a kind of slim pumping configuration that production cost can be greatly reduced.
The secondary objective of the utility model is to provide a kind of proportion of goods damageds that are greatly reduced into slim with what is improved service life
Pumping configuration.
In order to achieve the above objectives, the utility model provides a kind of slim pumping configuration characterized by comprising
One pump case, has one first side and a second side, which forms a pumping chamber, the pumping chamber projection
One axle center, one alcove of recessed formation at the opposite pumping chamber of the second side;
One rotor set, has a pivot hole, and rotor set correspondence is located in the pump cavity room and enables the pivot hole and the axle center
It is mutually pivoted, which has an impeller and a magnetic element, which is set to the impeller downside;
Stator group, correspondence are located in the alcove, and the stator pack is corresponding to be set with the magnetic element in horizontal relatively
It sets with mutual induction excitation;
One deflector corresponds to and pumps chamber described in the cover;And
One closure member, corresponding lid set the pump case.
The slim pumping configuration, in which: the alcove corresponds to the pumping chamber projection and forms a sleeved part, the set
If the peripheral side axially spaced-apart projection plural number raised line in portion, a holding part is formed between the plural number raised line, the stator pack is by plural silicon
Steel disc forms and forms a through-hole in centre, and through-hole correspondence is sheathed in the sleeved part.
The slim pumping configuration, in which: the stator pack has plural pole, and each pole is wound with plural line
Circle.
The slim pumping configuration, in which: the end of each pole also extends to form a magnet sensing part, the magnet sensing part
It is corresponding to be arranged in the holding part and be oppositely arranged with the magnetic element in level with mutual induction excitation.
The slim pumping configuration, in which: the deflector has a top surface and a bottom surface, which forms at least one
Convex body supports the closure member, which, which corresponds to, pumps chamber described in the cover.
The slim pumping configuration, in which: the deflector also has an aperture through the top surface and bottom surface, should
Aperture connection corresponding with the pivot hole.
The slim pumping configuration, in which: the pump case also has a lattice, and the lattice is by the pumping chamber
It is divided into a first chamber and a second chamber, a water inlet and a water outlet are respectively arranged on the peripheral side of the pump case, this enters
The mouth of a river is connected with the second chamber, which is connected with the first chamber.
The slim pumping configuration, in which: the stator cover that also there is the pump case a corresponding lid to set the stator pack, it should
Stator cover has an opening being connected with the through-hole, and stator cover correspondence is sheathed in the sleeved part.
By the design of this structure of the utility model, when the slim pumping configuration starts to be operated, by described
The magnetic element of magnet sensing part and the rotor set that pole end is formed incudes each other generates excitation, and in the same of excitation
When, it will form between the pivot hole and axle center and formed between one second between one first gap and rotor set peripheral side and pumping chamber
Gap makes the rotor set form magnetic and floats state, the rotor set is driven constantly to rotate in the pump cavity room to reach this turn
The operating mode of subgroup, then and, hanging working condition is formed since the rotor system magnetic floats in the pump cavity room, therefore can be prevented
Only service life is substantially improved into reduce mechanical loss rate in the rotor set and the pump case phase mutual friction, in addition, also
The parts such as existing pumping configuration inner bearing and fixed device can be saved, production cost are greatly reduced, and can also exempt existing axis
Hold the noise generated with axle center friction.
Detailed description of the invention
Fig. 1 is the stereogram exploded view of existing pumping configuration;
Fig. 2 is the stereogram exploded view of the first embodiment of the slim pumping configuration of the utility model;
Fig. 3 is another view stereo exploded view of the first embodiment of the slim pumping configuration of the utility model;
Fig. 4 is the three-dimensional combination figure of the first embodiment of the slim pumping configuration of the utility model;
Fig. 5 is the cross-sectional view of the first embodiment of the slim pumping configuration of the utility model.
Description of symbols: pumping configuration 1;Pump case 10;Pump chamber 101;Core seat 102;Rotor set 11;Deflector
12;Closure member 13;Slim pumping configuration 2;Pump case 20;First side 201;Pump chamber 2011;First chamber 2011a;Second
Chamber 2011b;Axle center 2013;Second side 202;Alcove 2021;Sleeved part 2022;Raised line 2023;Holding part 2024;Lattice
203;Water inlet 204;Water outlet 205;Rotor set 21;Pivot hole 211;Impeller 212;Magnetic element 213;First gap 214;Second
Gap 215;Stator pack 22;Silicon steel sheet 221;Pole 222;Magnet sensing part 223;Through-hole 224;Deflector 23;Top surface 231;Convex body
2311;Bottom surface 232;Aperture 2321;Closure member 24;Coil 25;Stator cover 26;Opening 261.
Specific embodiment
The above-mentioned purpose and its structure of the utility model and characteristic functionally, by the preferred embodiment according to institute's accompanying drawings
It is explained.
Fig. 2, Fig. 3, Fig. 4, Fig. 5 are please referred to, is the stereo decomposing of the first embodiment of the slim pumping configuration of the utility model
Figure and cross-sectional view, as shown, a kind of slim pumping configuration 2, including a pump case 20, a rotor set 21, stator group 22, one
Deflector 23 and a closure member 24, the pump case 20 have one first side 201 and a second side 202, which is formed with
One pumping chamber 2011,2011 projection of pumping chamber, one axle center 2013 are recessed at the opposite pumping chamber 2011 of the second side 202
If forming an alcove 2021, and projection forms a sleeved part 2022 at the corresponding pumping chamber 2011 of the alcove 2021,
The peripheral side axially spaced-apart projection plural number raised line 2023 of the sleeved part 2022, and formed between each raised line 2023 and raised line 2023
One holding part 2024;
In addition, the pumping chamber 2011 is divided into a first chamber 2011a with more a lattice 203 by the pump case 20
And a second chamber 2011b, a water inlet 204 and a water outlet 205 are divided into the peripheral side of the pump case 20, the water inlet
204 are connected with second chamber 2011b, which is connected with first chamber 2011a;
The rotor set 21 has a pivot hole 211, and the rotor set 21 correspondence is located in the pumping chamber 2011 and the pivot
Hole 211 is mutually pivoted with the axle center 2013, which includes an impeller 212 and a magnetic element 213, the magnetic element
213 are arranged in the downside of the impeller 212, and one first gap 214 is formed between the pivot hole 211 and the peripheral side in the axle center 2013,
One second gap 215 is formed between the peripheral side of the rotor set 21 and the inner circumferential side of the pumping chamber 2011, between described first and second
Gap 214,215 is connected with the pumping chamber 2011;
The stator pack 22 is made of plural silicon steel sheet 221, and is formed with a through-hole 224, the stator in its centre
Group 22 is corresponding to be located in the alcove 2021 and the through-hole 224 correspondence is sheathed in the sleeved part 2022, in addition, the stator pack 22
With plural pole 222, each 222 end of pole winds plural coil 25 respectively, and 222 end of each pole more extends to form
One magnet sensing part 223, the magnet sensing part 223 is corresponding to be arranged in the holding part 2024 and is in level with the magnetic element 213
Being oppositely arranged between the two can mutual induction excitation with order;
In addition, the pump case 20 sets stator pack 22 above-mentioned with more the corresponding lid of a stator cover 26, which has
One opening 261 is connected with through-hole 224 above-mentioned and corresponding is set in the sleeved part 2022;
The deflector 23 has a top surface 231 and a bottom surface 232, and then corresponding lid sets the pump case to the closure member 24
20, the top surface 231 of the deflector 23 forms an at least convex body 2311 and supports the closure member 24, the corresponding the cover institute in the bottom surface 232
Pumping chamber 2011 is stated, an aperture 2321 runs through the top surface 231 and bottom surface 232, and the aperture 2321 and the pivot hole 211 are opposite
It should be connected to;
By the design of this structure of the utility model, when the slim pumping configuration 2 starts to be operated, by described
The magnetic element 213 of magnet sensing part 223 and the rotor set 21 that 222 end of pole is formed incudes each other generates excitation, and
The first gap 214 above-mentioned and the second gap 215 are formed while excitation and then forms magnetic and floats state, drive the rotor set
21 in the pumping chamber 2011 in constantly rotating to reach the operating mode of the rotor set 21, then and, due to the rotor set 21
It is the working condition that magnetic floats on that formation is hanging in the pumping chamber 2011, therefore the rotor set 21 and the pump case 20 can be prevented
The service life of slim pumping configuration 2 is substantially improved into reduce mechanical loss rate in the problem of phase mutual friction, in addition, can also save
The parts such as existing pumping configuration inner bearing and fixed device are removed, overall volume is greatly decreased and makes it have slimming effect, and drops
Low production cost, and can also exempt the noise problem of existing bearing and axle center friction generation.
The above, the utility model have the advantage that compared to existing
1. overall volume is greatly decreased;
2. having slimming;
3. production cost is greatly reduced;
4. the proportion of goods damageds are greatly reduced into improve service life;
5. noise is greatly decreased.
It is described above to be merely exemplary for the utility model, and not restrictive, those of ordinary skill in the art
Understand, without departing from the spirit and scope defined by the claims, can many modifications may be made, variation or it is equivalent, but
It falls within the protection scope of the utility model.
Claims (8)
1. a kind of slim pumping configuration characterized by comprising
One pump case, has one first side and a second side, which forms a pumping chamber, one axis of pumping chamber projection
The heart, one alcove of recessed formation at the opposite pumping chamber of the second side;
One rotor set, has a pivot hole, and rotor set correspondence is located in the pump cavity room and enables the pivot hole and the axle center phase pivot
If the rotor set has an impeller and a magnetic element, which is set to the impeller downside;
Stator group, correspondence are located in the alcove, the stator pack it is corresponding with the magnetic element in level be oppositely arranged with
Mutual induction excitation;
One deflector corresponds to and pumps chamber described in the cover;And
One closure member, corresponding lid set the pump case.
2. slim pumping configuration as described in claim 1, it is characterised in that: the alcove corresponds to the pumping chamber projection shape
At a sleeved part, the peripheral side axially spaced-apart projection plural number raised line of the sleeved part forms a holding part between the plural number raised line, should
Stator pack is made of plural silicon steel sheet and forms a through-hole in centre, and through-hole correspondence is sheathed in the sleeved part.
3. slim pumping configuration as claimed in claim 2, it is characterised in that: the stator pack has plural pole, Mei Yiji
Column is wound with plural coil.
4. slim pumping configuration as claimed in claim 3, it is characterised in that: the end of each pole also extends to form one
Magnet sensing part, the magnet sensing part is corresponding to be arranged in the holding part and is oppositely arranged with the magnetic element in level with mutual induction
Excitation.
5. slim pumping configuration as described in claim 1, it is characterised in that: the deflector has a top surface and a bottom surface,
The top surface forms an at least convex body and supports the closure member, which, which corresponds to, pumps chamber described in the cover.
6. slim pumping configuration as claimed in claim 5, it is characterised in that: the deflector also has one to run through the top surface
And the aperture of bottom surface, aperture connection corresponding with the pivot hole.
7. slim pumping configuration as described in claim 1, it is characterised in that: the pump case also has a lattice, this point
The pumping chamber is divided into a first chamber and a second chamber every portion, a water inlet and a water outlet are respectively arranged on the pump case
The peripheral side of body, the water inlet are connected with the second chamber, which is connected with the first chamber.
8. slim pumping configuration as claimed in claim 2, it is characterised in that: it is fixed that also there is the pump case a corresponding lid to set this
The stator cover of subgroup, which has an opening being connected with the through-hole, and stator cover correspondence is sheathed on the set
If in portion.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822067589.3U CN209414190U (en) | 2018-12-10 | 2018-12-10 | Slim pumping configuration |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822067589.3U CN209414190U (en) | 2018-12-10 | 2018-12-10 | Slim pumping configuration |
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Publication Number | Publication Date |
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CN209414190U true CN209414190U (en) | 2019-09-20 |
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CN201822067589.3U Active CN209414190U (en) | 2018-12-10 | 2018-12-10 | Slim pumping configuration |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109441836A (en) * | 2018-12-10 | 2019-03-08 | 深圳兴奇宏科技有限公司 | Slim pumping configuration |
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2018
- 2018-12-10 CN CN201822067589.3U patent/CN209414190U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109441836A (en) * | 2018-12-10 | 2019-03-08 | 深圳兴奇宏科技有限公司 | Slim pumping configuration |
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