CN105958265A - Push-pull self-locking connector vibration resistance structure - Google Patents
Push-pull self-locking connector vibration resistance structure Download PDFInfo
- Publication number
- CN105958265A CN105958265A CN201610360183.7A CN201610360183A CN105958265A CN 105958265 A CN105958265 A CN 105958265A CN 201610360183 A CN201610360183 A CN 201610360183A CN 105958265 A CN105958265 A CN 105958265A
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- Prior art keywords
- shell
- end set
- annular groove
- wall
- adapter sleeve
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/46—Bases; Cases
- H01R13/533—Bases, cases made for use in extreme conditions, e.g. high temperature, radiation, vibration, corrosive environment, pressure
Abstract
The invention discloses a push-pull self-locking connector vibration resistance structure. The structure is arranged on a push-pull self-locking connector, the push-pull self-locking connector comprises a seat sleeve, a casing, a sealing ring, a jump ring I, a connection sleeve, a steel ball, a jump ring II and an end sleeve, wherein the casing is horizontally arranged, a left end is sleeved at a right end of the seat sleeve, a right end is sleeved at a left end of the end sleeve, the connection sleeve is sleeved on the casing, a joint portion of the casing and the end sleeve is provided with a peripheral limit structure, a left side of the casing jointed with the end sleeve is provided with a radial sealing structure, a joint portion of the casing and the connection sleeve is provided with an axial limit structure, the joint portion of the casing and the end sleeve is provided with an axial limit structure, a right side hole wall of an inner hole left side inner wall ring groove I of the casing is provided with more than one thread hole penetrating through the hole wall, and the thread holes are internally provided with locking screws. The structure is advantaged in that the right side hole wall of the casing is provided with more than one circumferentially-staggered thread hole, the joint portion of the casing and the end sleeve is provided with the circumferential limit structure. The structure can realize reliable self-locking and has good vibration prevention performance.
Description
Technical field
The present invention relates to electric field, be specifically related to a kind of cable connector vibration proof structure.
Background technology
The cable connector that cable connector is especially applicable on moving component must have certain resistance to shock.Commercially available push-and-pull self-feeding type connector has certain resistance to shock, and this push-and-pull self-feeding type connector includes cover for seat, shell, sealing ring, jump ring, adapter sleeve, steel ball, end set;Shell horizontal, left end is sleeved on cover for seat right-hand member, and right-hand member is sleeved on end set left end;Adapter sleeve is sleeved on shell;Shell, end set junction are provided with circumference position limiting structure;The left side that shell combines with end set is provided with radial seal structure;Shell and adapter sleeve junction are provided with axial limit structure;Shell, end set junction are provided with axial limit structure.Existing push-and-pull self-feeding type connector shell, end set junction are provided with position limiting structure axial, circumferential, and fit clearance is the least, there is certain resistance to shock, but owing to shell, end set junction exist gap, will necessarily cause and produce vibration between shell, end set, make shell, end set gap, junction increasing, uneven wear between contact pin and female seat, can be produced.Cable connector will necessarily be made to connect effect be deteriorated, affect electric property.
Summary of the invention
The present invention is directed to the deficiencies in the prior art, propose a kind of vibration being substantially reduced between shell, end set, it is ensured that cable connector connects the push-and-pull self-feeding type connector vibration proof structure of effect.
The present invention is achieved through the following technical solutions technical goal.
Push-and-pull self-feeding type connector vibration proof structure, is arranged on push-and-pull self-feeding type connector;Described push-and-pull self-feeding type connector includes cover for seat, shell, sealing ring, jump ring I, adapter sleeve, steel ball, jump ring II, end set;Described shell horizontal, left end is sleeved on cover for seat right-hand member, and right-hand member is sleeved on end set left end;Described adapter sleeve is sleeved on shell;End set outer wall on the right side of described shell right side is provided with convex shoulder;Described end set convex shoulder left side is provided with axial projection I;When shell, end set are in bonding state, shell right side is combined with end set convex shoulder left side, holds the projection I of set convex shoulder left side to embed in shell right-hand member straight trough I, forms shell, end set combination circumference position limiting structure;The endoporus inner left wall that described shell combines with end set is provided with annular groove I, is provided with sealing ring in annular groove I, and when shell, end set are in bonding state, ring set, in end set outer right wall, forms radial seal structure;Corresponding axial location on the adapter sleeve endoporus inner left wall combined, outer shell outer wall is respectively equipped with annular groove III, annular groove IV, jump ring I outer annular edge embeds in adapter sleeve internal circular-grooves III, internal ring limit is stretched in outer shell outer wall annular groove IV, can move axially in outer shell outer wall annular groove IV, formation adapter sleeve, shell combine axial limit structure;On the right side of described shell endoporus, inwall is provided with annular groove II, and end set outer wall is provided with annular groove V;When shell, end set are in bonding state, shell endoporus inwall annular groove II and end set outer wall annular groove V are corresponding on axial location;Being provided with jump ring II in described shell endoporus inwall annular groove II, jump ring II is elastic circlip, and free state lower circlip II is retracted in annular groove II;Outer shell outer wall is provided with more than 1 radial hole communicated with annular groove II, in radial hole, is provided with steel ball;On the right side of described adapter sleeve endoporus, inwall is provided with arc groove;When shell, end set are in bonding state, adapter sleeve moves right, adapter sleeve inwall pressure steel ball, and jump ring II outer wall inwardly pushed down by steel ball, and jump ring II snaps in end set outer wall annular groove V, forms shell, end set combined axis to position limiting structure;It thes improvement is that: on the right side of described shell endoporus inner left wall annular groove I, hole wall is provided with more than 1, extends radially through the screw of hole wall, is provided with lock-screw in screw.
In said structure, on the right side of described shell endoporus inner left wall annular groove I, hole wall is provided with more than 1, the screw that staggers of circumference.
In said structure, described end set convex shoulder left side is provided with axial projection II in the position staggered with axial projection I circumference, and the position that shell right-hand member overlaps convex shoulder left side axial projection II corresponding with end is provided with straight trough II;When shell, end set are in bonding state, end set convex shoulder left side axial projection II embeds in shell right-hand member straight trough II, forms shell, holds set to combine another circumference position limiting structure.
The present invention compared with prior art, has the positive effect that:
1. the present invention is in use, end set left end inserts shell endoporus from shell right-hand member, shell right side is combined with end set convex shoulder left side, move right adapter sleeve, adapter sleeve inwall pressure steel ball, jump ring II outer wall inwardly pushed down by steel ball, and jump ring II snaps in end set outer wall annular groove V, forms shell, the push-and-pull self-locking structure holding set to combine;If self-locking to be released, as long as being moved to the left adapter sleeve, on the right side of female connector endoporus, on inwall, arc groove moves to the axial location at steel ball place, steel ball is under jump ring II elastic force effect, falling on the right side of female connector endoporus on inwall in arc groove, jump ring II is retracted in shell endoporus inwall annular groove II, now, end set just can be made to disengage from shell endoporus, self-locking releasing.Connection procedure is quick, reliable.
2. on the right side of shell endoporus inner left wall annular groove I, hole wall is provided with more than 1, extends radially through the screw of hole wall, lock-screw it is provided with in screw, when shell, end set combine, lock-screw end is pressed on end set outer wall, make shell, end set without relatively circumferentially rotating, moving axially, it is substantially reduced the vibration between shell, end set, it is ensured that cable connector connects effect.
3. on the right side of shell endoporus inner left wall annular groove I, hole wall is provided with more than 1, the screw that staggers of circumference, and in circumferencial direction diverse location opposite end, set fastens, and reduces the vibration between shell, end set further.
4. shell, end set junction have additional a circumferential position limiting structure, improve antivibration effect further.
Accompanying drawing explanation
Fig. 1 is present configuration schematic diagram.
Fig. 2 is that end of the present invention overlaps 1.8 structural representations.
Fig. 3 is the top view of Fig. 2.
Fig. 4 is the left view of Fig. 2.
Fig. 5 is shell 1.2 structural representation of the present invention.
Fig. 6 is the top view of Fig. 5.
Fig. 7 is the A direction view of Fig. 5.
Fig. 8 is adapter sleeve 1.5 structural representation of the present invention.
Fig. 9 is I enlarged schematic partial view figure in Fig. 8.
Detailed description of the invention
Below according to accompanying drawing and the invention will be further described in conjunction with the embodiments.
The vibration proof structure of push-and-pull self-feeding type connector shown in accompanying drawing, is arranged on push-and-pull self-feeding type connector 1;Push-and-pull self-feeding type connector 1 includes cover for seat 1.1, shell 1.2, sealing ring 1.3, jump ring I 1.4, adapter sleeve 1.5, steel ball 1.6, jump ring II 1.7, end set 1.8;Shell 1.2 horizontal, left end is sleeved on cover for seat 1.1 right-hand member, and right-hand member is sleeved on end set 1.8 left ends;Adapter sleeve 1.5 is sleeved on shell 1.2;End on the right side of shell 1.2 right side overlaps 1.8 outer walls and is provided with convex shoulder 1.8.3;End set 1.8 convex shoulder 1.8.3 left sides are respectively equipped with axial projection I 1.8.2, axial projection II 1.8.4 in circumference staggered positions;When shell 1.2, end set 1.8 are in bonding state, shell 1.2 right side is combined with end set 1.8 convex shoulder 1.8.3 left sides, end set projection I 1.8.2 of 1.8 convex shoulder 1.8.3 left sides, axial projection II 1.8.4 embed in shell 1.2 right-hand member opposite position straight trough I 1.2.2, straight trough II 1.2.7, form shell 1.2, hold set 1.8 to combine two circumferential position limiting structures;The endoporus inner left wall that shell 1.2 is combined with end set 1.8 is provided with annular groove I 1.2.1, it is provided with sealing ring 1.3 in annular groove I 1.2.1, when shell 1.2, end set 1.8 are in bonding state, sealing ring 1.3 is sleeved in end set 1.8 outer right wall, forms radial seal structure;Corresponding axial location on the adapter sleeve 1.5 endoporus inner left wall combined, shell 1.2 outer wall is respectively equipped with annular groove III 1.5.1, annular groove IV 1.2.4, jump ring I 1.4 outer annular edge embeds in adapter sleeve 1.5 internal circular-grooves III 1.5.1, internal ring limit is stretched in shell 1.2 outer wall annular groove IV 1.2.4, can move axially in shell 1.2 outer wall annular groove IV 1.2.4, formation adapter sleeve 1.5, shell 1.2 combine axial limit structure;On the right side of shell 1.2 endoporus, inwall is provided with annular groove II 1.2.3, and end set 1.8 outer walls are provided with annular groove V 1.8.1;When shell 1.2, end set 1.8 are in bonding state, shell 1.2 endoporus inwall annular groove II 1.2.3 and end set 1.8 outer wall annular groove V 1.8.1 is corresponding on axial location;Being provided with jump ring II 1.7 in shell 1.2 endoporus inwall annular groove II 1.2.3, jump ring II 1.7 is elastic circlip, in free state lower circlip II 1.7 retraction annular groove II 1.2.3;Shell 1.2 outer wall is provided with more than 1 the radial hole 1.2.5 communicated with annular groove II 1.2.3, in radial hole 1.2.5, is provided with steel ball 1.6;On the right side of adapter sleeve 1.5 endoporus, inwall is provided with arc groove 1.5.2;When shell 1.2, end set 1.8 are in bonding state, adapter sleeve 1.5 moves right, adapter sleeve 1.5 inwall pressure steel ball 1.6, and jump ring II 1.7 outer wall inwardly pushed down by steel ball 1.6, jump ring II 1.7 snaps in end set 1.8 outer wall annular groove V 1.8.1, forms shell 1.2, holds set 1.8 to combine axial limit structure;On the right side of shell 1.2 endoporus inner left wall annular groove I 1.2.1, hole wall is provided with 1, extends radially through in other embodiments of screw 1.2.6(of hole wall, also more than 2, the screw 1.2.6 that staggers of circumference can be provided with on hole wall on the right side of shell 1.2 endoporus inner left wall annular groove I 1.2.1), it is provided with lock-screw 2 in screw 1.2.6.
The present invention is in use, end set 1.8 left ends insert shell 1.2 endoporus from shell 1.2 right-hand member, shell 1.2 right side is combined with end set 1.8 convex shoulder 1.8.3 left sides, end set projection I 1.8.2 of 1.8 convex shoulder 1.8.3 left sides, axial projection II 1.8.4 embed in shell 1.2 right-hand member opposite position straight trough I 1.2.2, straight trough II 1.2.7, form shell 1.2, hold set 1.8 to combine two circumferential position limiting structures;Move right adapter sleeve 1.5, adapter sleeve 1.5 inwall pressure steel ball 1.6, jump ring II 1.7 outer wall inwardly pushed down by steel ball 1.6, jump ring II 1.7 snaps in end set 1.8 outer wall annular groove V 1.8.1, form shell 1.2, end set 1.8 combines axial limit structure, forms shell 1.2, the push-and-pull self-locking structure of end set 1.8 combination.Tightening lock-screw 2, lock-screw 2 end is pressed on end set 1.8 outer walls so that shell 1.2, end set 1.8 are without relatively circumferentially rotating, moving axially.If being provided with more than 2 lock-screws 2 in screw 1.2.6, then tightening the lock-screw 2 on top so that it is be pressed down against the lock-screw 2 of bottom, the effect preventing lock-screw 2 from loosening can be played.
Unclamp lock-screw 2, if being moved to the left adapter sleeve 1.5, on the right side of female connector 1.5 endoporus, on inwall, arc groove 1.5.2 moves to the axial location at steel ball 1.6 place, steel ball 1.6 is under jump ring II 1.7 elastic force effect, fall on the right side of female connector 1.5 endoporus on inwall in arc groove 1.5.2, in jump ring II 1.7 retraction shell 1.2 endoporus inwall annular groove II 1.2.3, now, so that it may make end set 1.8 disengage from shell 1.2 endoporus.
Claims (3)
1. a push-and-pull self-feeding type connector vibration proof structure, is arranged on push-and-pull self-feeding type connector (1);Described push-and-pull self-feeding type connector (1) includes cover for seat (1.1), shell (1.2), sealing ring (1.3), jump ring I (1.4), adapter sleeve (1.5), steel ball (1.6), jump ring II (1.7), end set (1.8);Described shell (1.2) horizontal, left end is sleeved on cover for seat (1.1) right-hand member, and right-hand member is sleeved on end set (1.8) left end;Described adapter sleeve (1.5) is sleeved on shell (1.2);End set (1.8) outer wall on the right side of described shell (1.2) right side is provided with convex shoulder (1.8.3);Described end set (1.8) convex shoulder (1.8.3) left side is provided with axial projection I (1.8.2);When shell (1.2), end set (1.8) are in bonding state, shell (1.2) right side is combined with end set (1.8) convex shoulder (1.8.3) left side, the projection I (1.8.2) of end set (1.8) convex shoulder (1.8.3) left side embeds in shell (1.2) right-hand member straight trough I (1.2.2), forms shell (1.2), holds set (1.8) to combine circumference position limiting structure;The endoporus inner left wall that described shell (1.2) combines with end set (1.8) is provided with annular groove I (1.2.1), sealing ring (1.3) it is provided with in annular groove I (1.2.1), when shell (1.2), end set (1.8) are in bonding state, sealing ring (1.3) is sleeved in end set (1.8) outer right wall, forms radial seal structure;Corresponding axial location on adapter sleeve (1.5) the endoporus inner left wall combined, shell (1.2) outer wall is respectively equipped with annular groove III (1.5.1), annular groove IV (1.2.4), jump ring I (1.4) outer annular edge embeds in adapter sleeve (1.5) internal circular-grooves III (1.5.1), internal ring limit is stretched in shell (1.2) outer wall annular groove IV (1.2.4), can move axially in shell (1.2) outer wall annular groove IV (1.2.4), formation adapter sleeve (1.5), shell (1.2) combine axial limit structure;On the right side of described shell (1.2) endoporus, inwall is provided with annular groove II (1.2.3), and end set (1.8) outer wall is provided with annular groove V (1.8.1);When shell (1.2), end set (1.8) are in bonding state, shell (1.2) endoporus inwall annular groove II (1.2.3) and end set (1.8) outer wall annular groove V (1.8.1) are corresponding on axial location;Being provided with jump ring II (1.7) in described shell (1.2) endoporus inwall annular groove II (1.2.3), jump ring II (1.7) is elastic circlip, in free state lower circlip II (1.7) retraction annular groove II (1.2.3);Shell (1.2) outer wall is provided with more than 1 radial hole (1.2.5) communicated with annular groove II (1.2.3), in radial hole (1.2.5), is provided with steel ball (1.6);On the right side of described adapter sleeve (1.5) endoporus, inwall is provided with arc groove (1.5.2);When shell (1.2), end set (1.8) are in bonding state, adapter sleeve (1.5) moves right, adapter sleeve (1.5) inwall pressure steel ball (1.6), jump ring II (1.7) outer wall inwardly pushed down by steel ball (1.6), jump ring II (1.7) snaps in end set (1.8) outer wall annular groove V (1.8.1), forms shell (1.2), holds set (1.8) to combine axial limit structure;It is characterized in that: described shell (1.2) endoporus inner left wall annular groove I (1.2.1) right side hole wall is provided with more than 1, extends radially through the screw (1.2.6) of hole wall, is provided with lock-screw (2) in screw (1.2.6).
2. according to the structure increasing push-and-pull self-feeding type connector resistance to shock described in claims 1, it is characterised in that: described shell (1.2) endoporus inner left wall annular groove I (1.2.1) right side hole wall is provided with more than 1, the screw (1.2.6) that staggers of circumference.
3. according to the structure increasing push-and-pull self-feeding type connector resistance to shock described in claims 1 or 2, it is characterized in that: described end set (1.8) convex shoulder (1.8.3) left side is provided with axial projection II (1.8.4) in the position staggered with axial projection I (1.8.2) circumference, shell (1.2) the right-hand member position corresponding with end set (1.8) convex shoulder (1.8.3) left side axial projection II (1.8.4) is provided with straight trough II (1.2.7);When shell (1.2), end set (1.8) are in bonding state, end set (1.8) convex shoulder (1.8.3) left side axial projection II (1.8.4) embeds in shell (1.2) right-hand member straight trough II (1.2.7), forms shell (1.2), holds set (1.8) to combine another circumference position limiting structure.
Priority Applications (1)
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CN201610360183.7A CN105958265A (en) | 2016-05-27 | 2016-05-27 | Push-pull self-locking connector vibration resistance structure |
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CN201610360183.7A CN105958265A (en) | 2016-05-27 | 2016-05-27 | Push-pull self-locking connector vibration resistance structure |
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CN201610360183.7A Pending CN105958265A (en) | 2016-05-27 | 2016-05-27 | Push-pull self-locking connector vibration resistance structure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108493681A (en) * | 2018-05-22 | 2018-09-04 | 镇江申庭电子科技有限公司 | A kind of connector with radially fixed mechanism |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101447620A (en) * | 2008-12-29 | 2009-06-03 | 杭州航天电子技术有限公司 | plug with separating mechanism of unlocking sleeve |
CN201541026U (en) * | 2010-02-08 | 2010-08-04 | 陕西四菱电子有限责任公司 | Seal water-proof mixed round connector |
CN102651524A (en) * | 2012-04-18 | 2012-08-29 | 中航光电科技股份有限公司 | Pulling-resisting push-pull locking plug and electric connector assembly adopting same |
CN203826650U (en) * | 2014-05-12 | 2014-09-10 | 宿州中矿三杰科技有限公司 | Mining flameproof multi-core wiring terminal |
CN204517035U (en) * | 2015-03-02 | 2015-07-29 | 龙友科技(深圳)有限公司 | Secondary-locking push-pull connector |
CN104979700A (en) * | 2015-06-29 | 2015-10-14 | 江苏赛洋机电科技有限公司 | Improved 5015 army regulation cable connector |
CN205900923U (en) * | 2016-05-27 | 2017-01-18 | 江苏赛洋机电科技有限公司 | Push -and -pull is from locking -type connector anti vibration structure |
-
2016
- 2016-05-27 CN CN201610360183.7A patent/CN105958265A/en active Pending
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101447620A (en) * | 2008-12-29 | 2009-06-03 | 杭州航天电子技术有限公司 | plug with separating mechanism of unlocking sleeve |
CN201541026U (en) * | 2010-02-08 | 2010-08-04 | 陕西四菱电子有限责任公司 | Seal water-proof mixed round connector |
CN102651524A (en) * | 2012-04-18 | 2012-08-29 | 中航光电科技股份有限公司 | Pulling-resisting push-pull locking plug and electric connector assembly adopting same |
CN203826650U (en) * | 2014-05-12 | 2014-09-10 | 宿州中矿三杰科技有限公司 | Mining flameproof multi-core wiring terminal |
CN204517035U (en) * | 2015-03-02 | 2015-07-29 | 龙友科技(深圳)有限公司 | Secondary-locking push-pull connector |
CN104979700A (en) * | 2015-06-29 | 2015-10-14 | 江苏赛洋机电科技有限公司 | Improved 5015 army regulation cable connector |
CN205900923U (en) * | 2016-05-27 | 2017-01-18 | 江苏赛洋机电科技有限公司 | Push -and -pull is from locking -type connector anti vibration structure |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108493681A (en) * | 2018-05-22 | 2018-09-04 | 镇江申庭电子科技有限公司 | A kind of connector with radially fixed mechanism |
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