CN204253720U - External many circular holes damp channel MR damper - Google Patents
External many circular holes damp channel MR damper Download PDFInfo
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- CN204253720U CN204253720U CN201420699904.3U CN201420699904U CN204253720U CN 204253720 U CN204253720 U CN 204253720U CN 201420699904 U CN201420699904 U CN 201420699904U CN 204253720 U CN204253720 U CN 204253720U
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- magnetic flow
- cylinder barrel
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- damp channel
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Abstract
The utility model discloses a kind of external many circular holes damp channel MR damper, relate to the device technique field by alter toughness adjustment damping property.Described damper comprises multiple external circular hole damp channel, magnetic flow liquid cavity, accumulation of energy cavity, piston assembly, electromagnetic coil assembly, compared with filling valve arrangement MR damper with the ring of routine, the structure that the utility model proposes arranges multiple uniform circular hole damp channel outside magnetic flow liquid cavity, magnetic flow liquid flow area is large, have the advantages that damping force under zero magnetic field condition is little, simultaneously by arranging multiple electromagnetic coil assembly, the damping force under magnetic fields condition can be improved, thus there is the advantage that damping force regulation range is wide.
Description
Technical field
The utility model relates to the device technique field by alter toughness adjustment damping property, particularly relates to a kind of external many circular holes damp channel MR damper.
Background technique
MR damper is a kind of On A Retrofitted Damper based on magnetic flow liquid controllable characteristics, have that thermal adaptability is strong, fast response time, volume are little, damping force regulation range is wide and low power consumption and other advantages, be a kind of desirable semi-active control damping device, be with a wide range of applications in vibration control field.
The electromagnetic coil of common MR damper is placed in clutch release slave cylinder, and piston is arranged annular channel or arrange annular channel between piston and cylinder body, during work, magnetic flow liquid flows through generation damping force from annular channel.During electromagnetic coil energising, annular channel produces the magnetic field perpendicular to magnetic flow liquid flowing direction, regulate magnetic intensity just can control magnetic current and liquid flow variation characteristic, change flow resistance, the damping force realizing MR damper regulates, when magnetic field reaches capacity, the damping force of MR damper reaches maximum.The maximum damping force improving said structure MR damper can by increasing cylinder diameter, reducing annular channel gap and adopt the measures such as multi-level piston, but when improving maximum damping force by changing above-mentioned parameter, the linear damping power under zero magnetic field condition can be made significantly to increase, be unfavorable for the requirement realizing semi-active control strategy, reduce vibration control effect.
Model utility content
Technical problem to be solved in the utility model is to provide a kind of external many circular holes damp channel MR damper, described damper is under zero magnetic field condition, magnetic flow liquid flow area is large, damping force is little, multiple electromagnetic coil assembly is set simultaneously, during magnetic fields, damping force is large, thus has the feature that damping force regulation range is wide.
For solving the problems of the technologies described above, technical solution adopted in the utility model is: a kind of external many circular holes damp channel MR damper, comprise magnetic flow liquid cavity components, accumulation of energy cavity components, piston assembly and one or more electromagnetic coil assembly, be fixedly connected with between described magnetic flow liquid cavity components and accumulation of energy cavity components, floating piston in piston assembly is between magnetorheological sap cavity and accumulation of energy chamber, described electromagnetic coil assembly is arranged along the periphery of described magnetic flow liquid cavity components, it is characterized in that: described damper also comprises several axial directions along described magnetic flow liquid cavity components and to extend and along the spaced external damp channel in periphery of magnetic flow liquid cavity components, described external damp channel is through described electromagnetic coil assembly, external damp channel comprises hypomere steel pipe, joint steel pipe, epimere steel pipe, be welded to connect between each section of steel pipe, wherein epimere steel pipe adopts non-magnet_conductible material to make, magnetorheological sap cavity is divided into by pull bar piston, lower two-part, the upper end of external damp channel is communicated with the upper part cavity of magnetorheological sap cavity, the lower end of external damp channel is communicated with the lower part of magnetorheological sap cavity, when pull bar piston upwards, the magnetic flow liquid of epicoele is back to cavity of resorption through several external damp channels, when pull bar piston moves downward, the magnetic flow liquid of cavity of resorption is back to epicoele through several external damp channels.
Further technological scheme is: described magnetic flow liquid cavity components comprises cylinder cap, magnetic flow liquid cylinder barrel and accumulation of energy cylinder barrel, described cylinder cap comprises cylinder cap body and upper magnetic flow liquid cylinder barrel adapting table, the middle part of cylinder cap body and upper magnetic flow liquid cylinder barrel adapting table is provided with concentric via hole, via hole on cylinder cap body is piston rod passing hole, via hole on magnetic flow liquid cylinder barrel adapting table is magnetic flow liquid passing hole, be fixedly connected with by the first ring connecting plate between cylinder cap body and upper magnetic flow liquid cylinder barrel adapting table, described first ring connecting plate is provided with external damp channel passing hole, the upper end of described magnetic flow liquid cylinder barrel is fixedly connected with upper magnetic flow liquid cylinder barrel adapting table, described accumulation of energy cylinder barrel comprises accumulation of energy cylinder barrel body and lower magnetic flow liquid cylinder barrel adapting table, the middle part of accumulation of energy cylinder barrel body and lower magnetic flow liquid cylinder barrel adapting table is provided with concentric via hole, via hole on lower magnetic flow liquid cylinder barrel adapting table is magnetic flow liquid passing hole, connected by the second ring connecting plate between accumulation of energy cylinder barrel body and lower magnetic flow liquid cylinder barrel adapting table, described second ring connecting plate is provided with lower external damp channel passing hole, the lower end of described magnetic flow liquid cylinder barrel is fixedly connected with lower magnetic flow liquid cylinder barrel adapting table.
Further technological scheme is: described accumulation of energy cavity components comprises the cylinder bottom that the via hole in the middle part of by described accumulation of energy cylinder barrel body is closed.
Further technological scheme is: described piston assembly comprises piston rod, pull bar piston and floating piston, described pull bar piston is positioned at described magnetic flow liquid cylinder barrel, one end of piston rod is connected with pull bar piston, the via hole of the other end in the middle part of upper magnetic flow liquid cylinder barrel adapting table and cylinder cap body extends to the outside of cylinder cap, via hole in the middle part of cylinder cap body and piston rod suitable, described floating piston is positioned at the inside of described accumulation of energy cylinder barrel, and can move between lower magnetic flow liquid cylinder barrel adapting table and cylinder bottom, be magnetorheological sap cavity between described cylinder cap body and floating piston, it is accumulation of energy chamber between floating piston and cylinder bottom.
Further technological scheme is: described electromagnetic coil assembly comprises several iron cores, the electromagnetic coil identical with iron core quantity, two envelope magnetic semi-rings and several envelope magnetic lids, iron core adopts high magnetic permeability soft magnetic material to make, the quantity of iron core is identical with external damp channel number, along the circumferential direction be arranged at intervals between several epimere steel pipes, electromagnetic coil is wound on iron core, envelope magnet ring and envelope magnetic lid adopt non-magnet_conductible material to make, envelope magnetic lid is divided into envelope magnetic upper cover and envelope magnetic lower cover, its quantity is identical with iron core quantity, lay respectively at above and below electromagnetic coil, and be along the circumferential direction arranged at intervals between several epimere steel pipes, on envelope magnetic semi-ring, corresponding each electromagnetic coil arranges threading hole, two envelope magnetic semi-rings are by iron core, electromagnetic coil and envelope magnetic lid surround.
Further technological scheme is: the periphery of described piston rod passing hole is provided with rod seal circle, the periphery of described external damp channel passing hole and lower external damp channel passing hole is provided with steel pipe sealing circle, the periphery of described pull bar piston is provided with pull bar piston packing, and the periphery of described floating piston is provided with floating piston seal ring.
Further technological scheme is: the described piston rod end extended to outside magnetic flow liquid cylinder barrel is provided with piston rod earrings.
Further technological scheme is: the bottom of described cylinder bottom is provided with cylinder bottom earrings.
Further technological scheme is: described external damp channel is provided with more than four, and the periphery uniformly along described magnetic flow liquid cavity components is arranged.
Further technological scheme is: described electromagnetic coil assembly arranges two or more along the axis of epimere steel pipe.
The beneficial effect adopting technique scheme to produce is: described damper passes through at the multiple external damp channel of the arranged outside of magnetic flow liquid cavity components, under zero magnetic field condition, magnetic flow liquid flow area is large, damping force is little, multiple electromagnetic coil assembly is set simultaneously, to increase the effective length of damp channel, during magnetic fields, increase damping force, thus described damper has the wide feature of damping force regulation range.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
Fig. 1 is structural representation of the present utility model;
Fig. 2 be Fig. 1 A-A to sectional structure schematic diagram;
Fig. 3 be Fig. 1 B-B to sectional structure schematic diagram;
Fig. 4 be Fig. 1 C-C to sectional structure schematic diagram;
Fig. 5 is the structural representation of iron core in the utility model;
Fig. 6 is the structural representation sealing magnetic lid in the utility model;
Fig. 7-8 is the structural representations sealing magnet ring in the utility model;
Fig. 9-10 is structural representations of cylinder cap in the utility model;
Figure 11-12 is structural representations of the utility model accumulation of energy cylinder barrel;
Wherein: 1, hypomere steel pipe 2, joint steel pipe 3, epimere steel pipe 4, iron core 5, electromagnetic coil 6, envelope magnet ring 7, envelope magnetic lid 8, magnetic flow liquid cylinder barrel 9, cylinder cap 10, floating piston 11, steel pipe sealing circle 12, rod seal circle 13, floating piston seal ring 14, cylinder bottom earrings 15, cylinder bottom 16, accumulation of energy cylinder barrel 17, pull bar piston 18, piston rod 19, piston rod earrings 20, pull bar piston packing 91, cylinder cap body 92, upper magnetic flow liquid cylinder barrel adapting table 93, piston rod passing hole 94, first ring connecting plate 95, upper external damp channel passing hole 161, accumulation of energy cylinder barrel body 162, lower magnetic flow liquid cylinder barrel adapting table 163, second ring connecting plate 164, lower external damp channel passing hole.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technological scheme in the utility model embodiment, obviously, described embodiment is only a part of embodiment of the present utility model, instead of whole embodiments.Based on the embodiment in the utility model, those skilled in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.
Description has below set forth a lot of detail so that fully understand the utility model, but the utility model can also adopt and be different from alternate manner described here to implement, those skilled in the art can when doing similar popularization without prejudice to when the utility model intension, and therefore the utility model is by the restriction of following public specific embodiment.
As shown in Figure 1, the utility model discloses a kind of external many circular holes damp channel MR damper, comprise magnetic flow liquid cavity components, accumulation of energy cavity components, piston assembly and multiple electromagnetic coil assembly.
As shown in Figure 1, described magnetic flow liquid cavity components comprises cylinder cap 9, magnetic flow liquid cylinder barrel 8 and accumulation of energy cylinder barrel 16.As shown in Fig. 1,9 and 10, described cylinder cap 9 comprises cylinder cap body 91 and upper magnetic flow liquid cylinder barrel adapting table 92.The middle part of cylinder cap body 91 and upper magnetic flow liquid cylinder barrel adapting table 92 is provided with concentric via hole, and the via hole on cylinder cap body 91 is piston rod passing hole 93, and the via hole on magnetic flow liquid cylinder barrel adapting table 92 is magnetic flow liquid passing hole.Be fixedly connected with by the first ring connecting plate 94 between cylinder cap body 91 and upper magnetic flow liquid cylinder barrel adapting table 92, described first ring connecting plate 94 is provided with external damp channel passing hole 95, and the upper end of described magnetic flow liquid cylinder barrel 8 is fixedly connected with upper magnetic flow liquid cylinder barrel adapting table 92.
As shown in Fig. 1,11 and 12, described accumulation of energy cylinder barrel 16 comprises accumulation of energy cylinder barrel body 161 and lower magnetic flow liquid cylinder barrel adapting table 162.The middle part of accumulation of energy cylinder barrel body 161 and lower magnetic flow liquid cylinder barrel adapting table 162 is provided with concentric via hole, via hole on lower magnetic flow liquid cylinder barrel adapting table 162 is magnetic flow liquid passing hole, connected by the second ring connecting plate 163 between accumulation of energy cylinder barrel body 161 and lower magnetic flow liquid cylinder barrel adapting table 162, described second ring connecting plate 163 is provided with lower external damp channel passing hole 164, and the lower end of described magnetic flow liquid cylinder barrel 8 is fixedly connected with lower magnetic flow liquid cylinder barrel adapting table 162.Magnetic flow liquid cylinder barrel 8 is connected as a single entity with cylinder cap 9 and accumulation of energy cylinder barrel 16.
As shown in Figure 1, described accumulation of energy cavity components comprises the cylinder bottom 15 that the via hole in the middle part of by described accumulation of energy cylinder barrel body 161 is closed.Described piston rod 18 end extended to outside magnetic flow liquid cylinder barrel 8 is provided with piston rod earrings 19, and the bottom of described cylinder bottom 15 is provided with cylinder bottom earrings 14, and piston rod earrings 19 and cylinder bottom earrings 14 are for being connected with miscellaneous part.
As shown in Figure 1, described piston assembly comprises piston rod 18, pull bar piston 17 and floating piston 10.Described pull bar piston 17 is positioned at described magnetic flow liquid cylinder barrel 8, one end of piston rod 18 is connected with pull bar piston 17, the via hole of the other end in the middle part of upper magnetic flow liquid cylinder barrel adapting table 92 and cylinder cap body 91 extends to the outside of cylinder cap 9, via hole in the middle part of cylinder cap body 91 and piston rod 18 suitable, described floating piston 10 is positioned at the inside of described accumulation of energy cylinder barrel 16, and can move between lower magnetic flow liquid cylinder barrel adapting table 162 and cylinder bottom 15, being magnetorheological sap cavity between described cylinder cap body 91 and floating piston 10, is accumulation of energy chamber between floating piston 10 and cylinder bottom 15.
As shown in figures 1-8, described electromagnetic coil assembly comprises several iron cores 4, the electromagnetic coil 5 identical with iron core quantity, two envelope magnetic semi-rings 6 and several envelope magnetic lids 7, iron core 4 adopts high magnetic permeability soft magnetic material to make, the quantity of iron core 4 is identical with external damp channel number, along the circumferential direction be arranged at intervals between several epimere steel pipes 3, electromagnetic coil 5 is wound on iron core 4, envelope magnet ring 6 and envelope magnetic lid 7 adopt non-magnet_conductible material to make, envelope magnetic lid 7 is divided into envelope magnetic upper cover and envelope magnetic lower cover, its quantity is identical with iron core quantity, lay respectively at above and below electromagnetic coil 5, and be along the circumferential direction arranged at intervals between several epimere steel pipes 3, on envelope magnetic semi-ring, corresponding each electromagnetic coil 5 arranges threading hole, two envelope magnetic semi-rings 6 are by iron core 4, electromagnetic coil 5 and envelope magnetic lid 7 surround.
As shown in Figure 1, outwards flow out to prevent magnetic flow liquid, the utility model is provided with seal ring between some parts, specifically arrange as follows: the periphery of described piston rod passing hole 93 is provided with rod seal circle 12, the periphery of described external damp channel passing hole 95 and lower external damp channel passing hole 164 is provided with steel pipe sealing circle 11, the periphery of described pull bar piston 17 is provided with pull bar piston packing 20, and the periphery of described floating piston 10 is provided with floating piston seal ring 13.
As shown in Figure 1, be fixedly connected with between described magnetic flow liquid cavity components and accumulation of energy cavity components, floating piston 10 in piston assembly is between magnetorheological sap cavity and accumulation of energy chamber, described electromagnetic coil assembly is arranged along the periphery of described magnetic flow liquid cavity components, described damper also comprises several axial directions along described magnetic flow liquid cavity components and to extend and along the spaced external damp channel in periphery of magnetic flow liquid cavity components, the number of external damp channel can be arranged according to actual needs.Described external damp channel is through described electromagnetic coil assembly, external damp channel comprises hypomere steel pipe 1, joint steel pipe 2, epimere steel pipe 3, be welded to connect between each section of steel pipe, wherein epimere steel pipe 3 adopts non-magnet_conductible material to make, magnetorheological sap cavity is divided into by pull bar piston 17, lower two-part, the upper end of external damp channel is communicated with the upper part cavity of magnetorheological sap cavity, the lower end of external damp channel is communicated with the lower part of magnetorheological sap cavity, when pull bar piston 17 moves upward, the magnetic flow liquid of epicoele is back to cavity of resorption through several external damp channels, when pull bar piston 17 moves downward, the magnetic flow liquid of cavity of resorption is back to epicoele through several external damp channels.
When electromagnetic coil 5 is energized, the magnetic line of force produced is closed in the annular space that magnetic flow liquid cylinder barrel 8, envelope magnet ring 6 and envelope magnetic lid 7 surround, and through epimere steel pipe 3 therebetween, produce the magnetic field perpendicular to the axis (magnetic flow liquid flowing direction) of epimere steel pipe 3, thus produce magnetic rheology effect.
Weld between hypomere steel pipe 1, joint steel pipe 2, epimere steel pipe 3, magnetic flow liquid cylinder barrel 8 welds with cylinder cap 9, accumulation of energy cylinder barrel 16 welds with magnetic flow liquid cylinder barrel 8, weld between cylinder bottom earrings, cylinder bottom and accumulation of energy cylinder barrel, the inner circle of envelope magnetic lid 7 is welded with magnetic flow liquid cylinder barrel 8 or cementing, the cylindrical of envelope magnetic lid 7 welds with envelope magnetic semi-ring 6 or cementing, and two envelope magnetic semi-rings 6 are by welding or cementingly becoming closed circle.
The assemble sequence of damper is as follows: floating piston 10 is placed in accumulation of energy cylinder barrel 16, pull bar piston 17, piston rod 18 is placed in magnetic flow liquid cylinder barrel 8, accumulation of energy cylinder barrel 16 and magnetic flow liquid cylinder barrel 8 are welded together, welding magnetic flow liquid cylinder barrel 8 and cylinder cap 9, epimere steel pipe 3 and cylinder cap 9 assemble, hypomere steel pipe 1 and accumulation of energy cylinder barrel 16 assemble, joint steel pipe 2 and hypomere steel pipe 1, epimere steel pipe 3 welds (limit is rotated side weld and connect), envelope magnetic lid 7(comprises envelope magnetic upper cover and seals magnetic lower cover) inner circle to weld with magnetic flow liquid cylinder barrel 8 or cementing, the iron core 4 being wound around electromagnetic coil 5 is placed between envelope magnetic lid 7, the cylindrical of envelope magnetic lid 7 seals magnetic semi-ring 6 to weld or cementing with two, two envelope magnetic semi-rings 6 weld or cementing be closed circle, the lead-in wire of electromagnetic coil 5 passes from two envelope magnetic semi-rings 6 simultaneously, the lead-in wire of electromagnetic coil 5 is connected in series outside envelope magnetic semi-ring 6.
Described damper passes through at the multiple external damp channel of the arranged outside of magnetic flow liquid cavity components, under zero magnetic field condition, magnetic flow liquid flow area is large, damping force is little, multiple electromagnetic coil assembly is set simultaneously, to increase the effective length of damp channel, during magnetic fields, increase damping force, thus described damper has the wide feature of damping force regulation range.
Claims (10)
1. external many circular holes damp channel MR damper, comprise magnetic flow liquid cavity components, accumulation of energy cavity components, piston assembly and one or more electromagnetic coil assembly, be fixedly connected with between described magnetic flow liquid cavity components and accumulation of energy cavity components, floating piston (10) in piston assembly is between magnetorheological sap cavity and accumulation of energy chamber, described electromagnetic coil assembly is arranged along the periphery of described magnetic flow liquid cavity components, it is characterized in that: described damper also comprises several axial directions along described magnetic flow liquid cavity components and to extend and along the spaced external damp channel in periphery of magnetic flow liquid cavity components, described external damp channel is through described electromagnetic coil assembly, external damp channel comprises hypomere steel pipe (1), joint steel pipe (2), epimere steel pipe (3), be welded to connect between each section of steel pipe, wherein epimere steel pipe (3) adopts non-magnet_conductible material to make, magnetorheological sap cavity is divided into by pull bar piston (17), lower two-part, the upper end of external damp channel is communicated with the upper part cavity of magnetorheological sap cavity, the lower end of external damp channel is communicated with the lower part of magnetorheological sap cavity, when pull bar piston (17) moves upward, the magnetic flow liquid of epicoele is back to cavity of resorption through several external damp channels, when pull bar piston (17) moves downward, the magnetic flow liquid of cavity of resorption is back to epicoele through several external damp channels.
2. external many circular holes damp channel MR damper according to claim 1, it is characterized in that: described magnetic flow liquid cavity components comprises cylinder cap (9), magnetic flow liquid cylinder barrel (8) and accumulation of energy cylinder barrel (16), described cylinder cap (9) comprises cylinder cap body (91) and upper magnetic flow liquid cylinder barrel adapting table (92), the middle part of cylinder cap body (91) and upper magnetic flow liquid cylinder barrel adapting table (92) is provided with concentric via hole, via hole on cylinder cap body (91) is piston rod passing hole (93), via hole on magnetic flow liquid cylinder barrel adapting table (92) is magnetic flow liquid passing hole, be fixedly connected with by the first ring connecting plate (94) between cylinder cap body (91) and upper magnetic flow liquid cylinder barrel adapting table (92), described first ring connecting plate (94) is provided with external damp channel passing hole (95), the upper end of described magnetic flow liquid cylinder barrel (8) is fixedly connected with upper magnetic flow liquid cylinder barrel adapting table (92), described accumulation of energy cylinder barrel (16) comprises accumulation of energy cylinder barrel body (161) and lower magnetic flow liquid cylinder barrel adapting table (162), the middle part of accumulation of energy cylinder barrel body (161) and lower magnetic flow liquid cylinder barrel adapting table (162) is provided with concentric via hole, via hole on lower magnetic flow liquid cylinder barrel adapting table (162) is magnetic flow liquid passing hole, connected by the second ring connecting plate (163) between accumulation of energy cylinder barrel body (161) and lower magnetic flow liquid cylinder barrel adapting table (162), described second ring connecting plate (163) is provided with lower external damp channel passing hole (164), the lower end of described magnetic flow liquid cylinder barrel (8) is fixedly connected with lower magnetic flow liquid cylinder barrel adapting table (162).
3. external many circular holes damp channel MR damper according to claim 2, is characterized in that: described accumulation of energy cavity components comprises the cylinder bottom (15) closed by the via hole at described accumulation of energy cylinder barrel body (161) middle part.
4. external many circular holes damp channel MR damper according to claim 3, it is characterized in that: described piston assembly comprises piston rod (18), pull bar piston (17) and floating piston (10), described pull bar piston (17) is positioned at described magnetic flow liquid cylinder barrel (8), one end of piston rod (18) is connected with pull bar piston (17), the via hole of the other end in the middle part of upper magnetic flow liquid cylinder barrel adapting table (92) and cylinder cap body (91) extends to the outside of cylinder cap (9), via hole and the piston rod (18) at cylinder cap body (91) middle part are suitable, described floating piston (10) is positioned at the inside of described accumulation of energy cylinder barrel (16), and can move between lower magnetic flow liquid cylinder barrel adapting table (162) and cylinder bottom (15), be magnetorheological sap cavity between described cylinder cap body (91) and floating piston (10), it is accumulation of energy chamber between floating piston (10) and cylinder bottom (15).
5. the external many circular holes damp channel MR damper according to any one in claim 1-4, it is characterized in that: described electromagnetic coil assembly comprises several iron cores (4), the electromagnetic coil (5) identical with iron core quantity, two envelopes magnetic semi-ring (6) and several envelope magnetic lids (7), iron core (4) adopts high magnetic permeability soft magnetic material to make, the quantity of iron core (4) is identical with external damp channel number, along the circumferential direction be arranged at intervals between several epimere steel pipes (3), electromagnetic coil (5) is wound on iron core (4), envelope magnet ring (6) and envelope magnetic lid (7) adopt non-magnet_conductible material to make, envelope magnetic lid (7) is divided into envelope magnetic upper cover and envelope magnetic lower cover, its quantity is identical with iron core quantity, lay respectively at above and below electromagnetic coil (5), and be along the circumferential direction arranged at intervals between several epimere steel pipes (3), on envelope magnetic semi-ring, corresponding each electromagnetic coil (5) arranges threading hole, two envelopes magnetic semi-ring (6) are by iron core (4), electromagnetic coil (5) and envelope magnetic lid (7) are surrounded.
6. external many circular holes damp channel MR damper according to claim 4, it is characterized in that: the periphery of described piston rod passing hole (93) is provided with rod seal circle (12), the periphery of described external damp channel passing hole (95) and lower external damp channel passing hole (164) is provided with steel pipe sealing circle (11), the periphery of described pull bar piston (17) is provided with pull bar piston packing (20), and the periphery of described floating piston (10) is provided with floating piston seal ring (13).
7. external many circular holes damp channel MR damper according to claim 4, is characterized in that: the end that described piston rod (18) extends to magnetic flow liquid cylinder barrel (8) outside is provided with piston rod earrings (19).
8. external many circular holes damp channel MR damper according to claim 4, is characterized in that: the bottom of described cylinder bottom (15) is provided with cylinder bottom earrings (14).
9. external many circular holes damp channel MR damper according to claim 1, is characterized in that: described external damp channel is provided with more than four, and the periphery uniformly along described magnetic flow liquid cavity components is arranged.
10. external many circular holes damp channel MR damper according to claim 1, is characterized in that: described electromagnetic coil assembly arranges two or more along the axis of epimere steel pipe (3).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420699904.3U CN204253720U (en) | 2014-11-20 | 2014-11-20 | External many circular holes damp channel MR damper |
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CN201420699904.3U CN204253720U (en) | 2014-11-20 | 2014-11-20 | External many circular holes damp channel MR damper |
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CN201420699904.3U Withdrawn - After Issue CN204253720U (en) | 2014-11-20 | 2014-11-20 | External many circular holes damp channel MR damper |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104373500A (en) * | 2014-11-20 | 2015-02-25 | 石家庄铁道大学 | Magnetorheological damper with multiple external round hole damping channels |
CN104747649A (en) * | 2015-04-20 | 2015-07-01 | 中国人民解放军装甲兵工程学院 | Magneto-rheological damper |
CN105508494A (en) * | 2015-12-30 | 2016-04-20 | 中国海洋大学 | Anti-impact magnetorheological damper |
CN111047937A (en) * | 2019-12-14 | 2020-04-21 | 上海工程技术大学 | Operation training system based on magnetorheological fluid |
-
2014
- 2014-11-20 CN CN201420699904.3U patent/CN204253720U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104373500A (en) * | 2014-11-20 | 2015-02-25 | 石家庄铁道大学 | Magnetorheological damper with multiple external round hole damping channels |
CN104747649A (en) * | 2015-04-20 | 2015-07-01 | 中国人民解放军装甲兵工程学院 | Magneto-rheological damper |
CN104747649B (en) * | 2015-04-20 | 2017-06-06 | 中国人民解放军装甲兵工程学院 | A kind of MR damper |
CN105508494A (en) * | 2015-12-30 | 2016-04-20 | 中国海洋大学 | Anti-impact magnetorheological damper |
CN111047937A (en) * | 2019-12-14 | 2020-04-21 | 上海工程技术大学 | Operation training system based on magnetorheological fluid |
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AV01 | Patent right actively abandoned |
Granted publication date: 20150408 Effective date of abandoning: 20151216 |
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C25 | Abandonment of patent right or utility model to avoid double patenting |