CN103633500A - Connector mechanism and electronic device - Google Patents

Abstract

A connector mechanism and an electronic device are provided. The connector mechanism is used for being connected with an external connector, the external connector comprises a main body and a bolt, and the connector mechanism comprises a base, a guide rod, a bolt fastener and an elastic component; the base is internally provided with a connecting terminal and a limiting groove, the connecting terminal is arranged at the rear end of the limiting groove, and the external joint moves along the limiting groove so as to be electrically connected with the connecting terminal; the first end of the guide rod is arranged on the base; the latch piece is arranged on the base and comprises a bearing surface and a rail structure; the bearing part comprises at least one bearing surface and at least one connecting part; at least one connecting part is arranged at the end edge of the bearing part, the connecting part is pivoted on the side wall of the base, and the connecting part moves in a gap between the side wall and the limiting groove and pivots relative to the base; the track structure is arranged on the connecting part, and the second end of the guide rod is arranged in the track structure; two ends of the elastic component are respectively abutted against the base and the latch fastener, and the elastic restoring force drives the latch fastener to be far away from the base. The invention has simple structure and wide application.

Description

Connector mechanism and electronic installation

Technical field

The invention provides a kind of connector mechanism and electronic installation, espespecially a kind of connector mechanism of its volume height of capable of regulating and relevant applicable thin type electronic device thereof.

Background technology

Along with the prosperity of information and the progress of computer technology, the volume of computer system day by day dwindles, and uses also day by day polynary.In order to expand the function of computer system, adapt to the demand that each user is different, computer system external device miscellaneous also just arises at the historic moment.For instance, similarly be external connected hand disk or portable memory device, can expand the originally limited memory capacity of computer system; Circumscribed CD drive and CD writer can expand the multimedia resource access facility of computer system, and the ability of Large Volume Data backup is provided; Or connect external network with grid line, and reach the functions such as online acquisition data and browsing page.Yet, notebook computer develops towards frivolous trend now, mechanism's spatial design requirement for thickness is increasingly strict, and the height that is arranged at the connectivity port of notebook computer side tends to limit notebook computer integral thickness, and causes the restriction of mechanism design.

For instance, being used for connection network winding thread can have permanent opening size standard because of its joint dimension Ethernet (Ethernet) connectivity port (as RJ45 connectivity port) of wired internet function to be provided or to be used for connecting the RJ11 connectivity port of telephone wire, therefore increase thickness coordinating the size of network connection port or modulator-demodulator connectivity port aspect notebook computer mechanism design, or network connection port or modulator-demodulator connectivity port are gone out to mode design with outward appearance Local Convex, but so just can affect aesthetic appearance.Therefore how to design a part height, can meet product specification requirement now, can meet again frivolous trend and without the connector mechanism of sacrificing aesthetic appearance, be just the problem of the required effort of electronic industry mechanism design now.

Summary of the invention

The invention provides a kind of connector mechanism and relevant applicable thin type electronic device thereof of its volume height of capable of regulating, to solve the above problems.

A kind of connector mechanism of the present invention, in order to be linked to an external lug, this external lug comprises a main body and a latch, this connector mechanism comprises: a pedestal, the inside of this pedestal is provided with a splicing ear and a stopper slot, this splicing ear is arranged at the rear end of this stopper slot, and this external lug is moved along this stopper slot, to be electrically connected on this splicing ear; One guide rod, a first end of this guide rod is arranged at this pedestal in a rotatable manner; One latch part, can pivotable mode being arranged at this pedestal, this latch part comprises: a supporting part, this supporting part comprises: at least one loading end, is used for carrying this main body of this external lug; And at least one connecting portion, this at least one connecting portion is arranged at the limit, one end of this supporting part, and this connecting portion is articulated in a sidewall of this pedestal, and movable and relative this pedestal pivotable in the space of this connecting portion between this sidewall and this stopper slot; An and track structure, this track structure is arranged on this connecting portion, one second end of different this first end of this guide rod is can the mode of sliding being arranged in this track structure, this latch part is partly accommodated in this pedestal when this second end slides the first stop to this track structure, this latch part also when this second end slides second dwell point to different this first stop of this track structure away from this pedestal, so that this external lug can be placed between this pedestal and this latch part; And an elastic parts, the two ends of this elastic parts are connected to respectively this pedestal and this latch part, and an elastic restoring force of this elastic parts drives this latch part away from this pedestal.

The present invention discloses a kind of connector mechanism, and in order to be linked to an external lug, this external lug comprises a main body and a latch.This connector mechanism includes a pedestal, a guide rod, a latch part and an elastic parts.The inside of this pedestal is provided with a splicing ear and a stopper slot.This splicing ear is arranged at the rear end of this stopper slot, and this external lug moves along this stopper slot, to be electrically connected on this splicing ear.One first end of this guide rod is arranged at this pedestal in a rotatable manner.This latch part is can pivotable mode being arranged at this pedestal.This latch part includes a supporting part, at least one connecting portion and a track structure.This supporting part includes at least one loading end, a sunk structure and a buckle structure.This loading end is used for carrying this main body of this external lug.This sunk structure is arranged at by this loading end.This buckle structure is arranged at the bottom of this sunk structure, is used for snapping onto this latch of this external lug, limits by this this external lug and moves relative to one of this pedestal.This connecting portion is arranged at the limit, one end of this supporting part, and a sidewall of this pedestal.Movable and relative this pedestal pivotable in the space of this connecting portion between this sidewall and this stopper slot.This track structure is arranged on this connecting portion.One second end of different this first end of this guide rod is can the mode of sliding being arranged in this track structure.This latch part is partly accommodated in this pedestal when this second end slides the first stop to this track structure; This latch part also when this second end slides second dwell point to different this first stop of this track structure away from this pedestal, so that this external lug can be placed between this pedestal and this latch part.The two ends of this elastic parts are connected to respectively this pedestal and this latch part, and an elastic restoring force of this elastic parts drives this latch part away from this pedestal.

The present invention is also openly when this guide rod slides to this first stop, and a spacing of this pedestal and this latch part is less than in fact a height summation of this main body and this latch.

The present invention is also openly when this guide rod slides to this second dwell point, and a spacing of the bottom of this pedestal and this buckle structure is same as in fact a height summation of this main body and this latch.

The present invention also discloses this track structure and also includes a first passage and a second channel, is communicated between this first stop and this second dwell point respectively along different paths.

This second end that the present invention also discloses this guide rod slides to this second dwell point via this first passage from this first stop, so that this latch part is away from this pedestal, and this second end slides to this first stop via this second channel from this second dwell point, so that this door bolt fastener portion is accommodated in this pedestal.

The present invention also discloses this first passage and includes one first section, one second section and one first relay point, this first section is communicated between this first stop and this first relay point, this second section is communicated between this first relay point and this second dwell point, and this first section has one section of poor structure from high to low via this first relay point toward the path of this second section.

The present invention also discloses this second channel and includes one the 3rd section, one the 4th section and one second relay point, the 3rd section is communicated between this second dwell point and this second relay point, the 4th section is communicated between this second relay point and this first stop, and the 3rd section has one section of poor structure from high to low via this second relay point toward the path of the 4th section.

The present invention also discloses this second section and toward the path of the 3rd section, has one section of poor structure from high to low via this second dwell point, and the 4th section has one section of poor structure from high to low via this first stop toward the path of this first section.

The present invention also discloses this connector mechanism and also includes a baffle plate, and the two ends of this baffle plate are arranged at respectively this pedestal and are resisted against on this guide rod in movable mode.

The present invention also discloses this baffle plate and is consisted of elastomeric material, and an elastic restoring force of this baffle plate this guide rod of exerting pressure, so that this of this guide rod the second end is placed in this track structure.

A kind of electronic installation of the present invention, this electronic installation comprises: a housing, this enclosure interior is provided with at least one electronic building brick; And a connector mechanism, this connector mechanism is arranged in this housing, in order to be linked to an external lug, and this external lug comprises a main body and a latch, this connector mechanism comprises: a pedestal, and the inside of this pedestal is provided with a splicing ear and a stopper slot, and this splicing ear is arranged at the rear end of this stopper slot and is electrically connected to this electronic building brick, this external lug is moved along this stopper slot, to be electrically connected on this splicing ear; One guide rod, a first end of this guide rod is arranged at this pedestal in a rotatable manner; One latch part, can pivotable mode being arranged at this pedestal, this latch part comprises: a supporting part, this supporting part comprises: at least one loading end, is used for carrying this main body of this external lug; And at least one connecting portion, this at least one connecting portion is arranged at the limit, one end of this supporting part, and this connecting portion is articulated in a sidewall of this pedestal, and movable and relative this pedestal pivotable in the space of this connecting portion between this sidewall and this stopper slot; An and track structure, this track structure is arranged on this connecting portion, one second end of different this first end of this guide rod is can the mode of sliding being arranged in this track structure, this latch part is partly accommodated in this pedestal when this second end slides the first stop to this track structure, this latch part also when this second end slides second dwell point to different this first stop of this track structure away from this pedestal, so that this external lug can be placed between this pedestal and this latch part; And an elastic parts, the two ends of this elastic parts are connected to respectively this pedestal and this latch part, and an elastic restoring force of this elastic parts drives this latch part away from this pedestal.

The present invention also discloses a kind of electronic installation, and it comprises a housing and a connector mechanism.This enclosure interior is provided with at least one electronic building brick.This connector mechanism is arranged in this housing, and in order to be linked to an external lug, and this external lug comprises a main body and a latch.This connector mechanism comprises a pedestal, a guide rod, a latch part and an elastic parts.The inside of this pedestal is provided with a splicing ear and a stopper slot.This splicing ear is arranged at the rear end of this stopper slot and is electrically connected to this electronic building brick.This external lug is moved along this stopper slot, to be electrically connected on this splicing ear.One first end of this guide rod is arranged at this pedestal in a rotatable manner.This latch part is can pivotable mode being arranged at this pedestal.This latch part comprises a supporting part, at least one connecting portion and a track structure.This supporting part comprises at least one loading end, a sunk structure and a buckle structure.This loading end is used for carrying this main body of this external lug.This sunk structure is arranged at by this loading end.This buckle structure is arranged at the bottom of this sunk structure, is used for snapping onto this latch of this external lug, limits by this this external lug and moves relative to one of this pedestal.This connecting portion is arranged at the limit, one end of this supporting part, and a sidewall of this pedestal.Movable and relative this pedestal pivotable in the space of this connecting portion between this sidewall and this stopper slot.This track structure is arranged on this connecting portion.One second end of different this first end of this guide rod is can the mode of sliding being arranged in this track structure.This latch part is partly accommodated in this pedestal when this second end slides the first stop to this track structure; This latch part also when this second end slides second dwell point to different this first stop of this track structure away from this pedestal, so that this external lug can be placed between this pedestal and this latch part.The two ends of this elastic parts are connected to respectively this pedestal and this latch part, and an elastic restoring force of this elastic parts drives this latch part away from this pedestal.

The latch part of connector mechanism of the present invention is pedestal pivotable relatively, to adjust actively the volume of connector mechanism.Do not use in the situation of external lug, the volume of connector mechanism is reduced to minimum, to coordinate the application that is installed in thin type electronic device; While need linking external lug, latch part is turning easy to use to open the insert port of connector mechanism away from pedestal.Between latch part and pedestal, utilize the combination of guide rod and track structure to produce segmented unlatching and closed function.Track structure designs its construction unit (dwell point, passage and relay point) according to the demand of connector mechanism, so connector mechanism can utilize elastic press type (push-push) design to carry out the pivoting action of the relative pedestal of drive bolt fastener.Therefore, connector mechanism of the present invention has advantages of simple in structure, processing ease and with low cost, and visual actual user demand adjusts the size of its insert port, can be widely used in thin type electronic device, not only improve the aesthetic property of product, also relatively improved its market competitiveness.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the electronic installation of embodiments of the invention.

Fig. 2 is the assembly decomposing schematic representation of the connector mechanism of embodiments of the invention.

Fig. 3 is the vertical figure of group of the connector mechanism of embodiments of the invention.

Fig. 4 is the schematic diagram of the track structure of embodiments of the invention.

The connector mechanism that Fig. 5 to Fig. 9 is respectively embodiments of the invention open and closing course at the cutaway view of different phase.

Primary clustering symbol description:

200 electronic installation 202 housings

204 electronic building brick 206 connector mechanisms

208 external lug 210 main bodys

212 latch 214 pedestals

216 splicing ear 218 stopper slots

220 sidewall 222 guide rods

222A first end 222B the second end

224 latch part 226 supporting parts

228 loading end 230 sunk structures

232 buckle structure 234 connecting portions

236 track structure 238 elastic partss

240 baffle plate 242 first stops

244 second dwell point 246 first passages

246A first section 246B the second section

246C the first relay point 248 second channels

248A the 3rd section 248B the 4th section

248C the second relay point D1 spacing

D2 spacing

Embodiment

Referring to Fig. 1 is the schematic diagram of an electronic installation 200 of embodiments of the invention.Electronic installation 200 can be a desktop PC, notebook computer, flat computer or other intelligent type computers etc.Electronic installation 200 includes a housing 202, and housing 202 inside are provided with a plurality of electronic building bricks 204, such as Winchester disk drive, CD drive, processor, motherboard etc.Electronic installation 200 includes a connector mechanism 206, is arranged at housing 202 inside and is electrically connected on electronic building brick 204(as motherboard).User can insert connector mechanism 206 to produce and to link with electronic building brick 204 by an external lug 208, by this transmission electronic signal.In general, external lug 208 includes a main body 210 and a latch 212, and latch 212 is arranged on main body 210 surfaces in deflection mode.When main body 210 is inserted connector mechanism 206, latch 212 is buckled on connector mechanism 206, to avoid external lug 208 to come off from connector mechanism 206.

Refer to assembly decomposing schematic representation and the vertical figure of group that Fig. 2 and Fig. 3 are respectively the connector mechanism 206 of embodiments of the invention.Connector mechanism 206 includes a pedestal 214.The inside of pedestal 214 is provided with a splicing ear 216, a stopper slot 218 and two sidewalls 220.Stopper slot 218 is arranged between two sidewalls 220.When stopper slot 218 is used for limiting external lug 208 insertion connector mechanism 206, a motion track of relative pedestal 214.216 of splicing ears are arranged at the rear end of stopper slot 218 and are electrically connected to electronic building brick 204, so external lug 208 is moved just and can be electrically connected to splicing ear 216 along stopper slot 218.Connector mechanism 206 also includes a guide rod 222, and a first end 222A of guide rod 222 is arranged at pedestal 214 in a rotatable manner.

In addition, connector mechanism 206 also includes a latch part 224, and it is can pivotable mode being arranged on pedestal 214.Latch part 224 includes a supporting part 226.Supporting part 226 includes two loading ends 228, a sunk structure 230 and a buckle structure 232.Loading end 228 is used for carrying the main body 210 of external lug 208.Sunk structure 230 is arranged between two loading ends 228, and buckle structure 232 is arranged at the bottom of sunk structure 230.Buckle structure 232 is used for the latch 212 of snapping external lug 208, limits by this external lug 208 moving relative to pedestal 214.Latch part 224 also includes two connecting portions 234.Connecting portion 234 is arranged at respectively two limits, opposite end of supporting part 226, and is articulated in the respective side walls 220 of pedestal 214.When latch part 224 relative pedestal 214 pivotable, the space of connecting portion 234 between sidewall 220 and stopper slot 218 is movable, rotates by this relative to pedestal 214.

Latch part 224 also includes a track structure 236, and it is arranged on one of them connecting portion 234.The one second end 222B of the different first end 222A of guide rod 222 is can the mode of sliding being arranged in track structure 236.In other words, first end 222A is a stiff end, and the second end 222B is a free end.Moreover connector mechanism 206 also includes at least one elastic parts 238.The two ends of elastic parts 238 are connected to respectively on pedestal 214 and latch part 224, and an elastic restoring force of elastic parts 238 is used for drive bolt fastener 224 away from pedestal 214.Connector mechanism 206 also can include a baffle plate 240.The two ends of baffle plate 240 are arranged at respectively pedestal 214, and are resisted against on guide rod 222 in movable mode.Baffle plate 240 can be consisted of elastomeric material.Therefore an elastic restoring force of baffle plate 240 is used for pressing on guide rod 222, so that the second end 222B of guide rod 222 can maintain the state being placed in track structure 236.Yet guide rod 222 also can be consisted of elastic material, to utilize the elastic restoring force of itself to maintain the state being placed in track structure 236, meaning is that baffle plate 240 can be a selectivity configuration component.The detailed action of connector mechanism 206 will be chatted bright in the back.

Referring to Fig. 4 is the schematic diagram of the track structure 236 of embodiments of the invention.Track structure 236 includes a first stop 242, one second dwell point 244, a first passage 246 and a second channel 248.First passage 246 can be communicated between first stop 242 and the second dwell point 244 along different paths respectively from second channel 248.When the second end 222B of guide rod 222 moves to first stop 242, latch part 224 parts are accommodated in pedestal 214, not only can avoid dust or foreign matter to fall in connector mechanism 206, also can dwindle the volume (highly) of connector mechanism 206.On the other hand, when the second end 222B moves to the second dwell point 244,224 of latch parts can be away from pedestal 214, and the distance between latch part 224 and pedestal 214 can widen, so that external lug 208 can be via between latch part 224 and the pedestal 214 and inside of inserting connector mechanism 206.

As shown in Figure 4, first passage 246 can include one first section 246A, one second section 246B and one first relay point 246C.The first section 246A is communicated between first stop 242 and the first relay point 246C, and the second section 246B is communicated between the first relay point 246C and the second dwell point 244.Wherein the first section 246A can have one section of poor structure from high to low via the first relay point 246C toward the path of the second section 246B.

In addition, second channel 248 can include one the 3rd section 248A, one the 4th section 248B and one second relay point 248C.The 3rd section 248A is communicated between the second dwell point 244 and the second relay point 248C, and the 4th section 248B is communicated between the second relay point 248C and first stop 242.Wherein the 3rd section 248A can have one section of poor structure from high to low via the second relay point 248C toward the path of the 4th section 248B.In addition, the second section 246B also can have one section of poor structure from high to low via the second dwell point 244 toward the path of the 3rd section 248A, and the 4th section 248B also can have one section of poor structure from high to low via first stop 242 toward the path of the first section 246A.

In other words, the first section 246A is one by high and low ramp structure from first stop 242 toward the first relay point 246C, the second section 246B is one by high and low ramp structure from the first relay point 246C toward the second dwell point 244, the 3rd section 248A is one by high and low ramp structure from the second dwell point 244 toward the second relay point 248C, and the 4th section 248B is one by high and low ramp structure from the second relay point 248C toward first stop 242.The poor structure of section between each section can be used to avoid guide rod 222 along non-preset direction, to move in track structure 236.Thus, guide rod 222 can slide at track structure 236 along the direction of arrow shown in Fig. 4, guide rod 222 can move between each construction unit (dwell point, relay point, section) along with the surface slope of each section track structure 236 in, provide by this connector mechanism 206 of the present invention utilize guide rod 222 with a combination and unlatching and the closed action of control latch part 224 relative pedestals 214.

Refer to connector mechanism 206 that Fig. 5 to Fig. 9 is respectively embodiments of the invention open and closing course at the cutaway view of different phase.As shown in Figure 5, the second end 222B of guide rod 222 is still in first stop 242, space D 1 distance between latch part 224 and pedestal 214 is the shortest, it is less than in fact the main body 210 of external lug 208 and a height summation of latch 212, therefore external lug 208 cannot be inserted in connector mechanism 206, and the volume capable of regulating of connector mechanism 206 dwindles with fit applications at thin type electronic device 200.

As shown in Figure 6, user can on the fastener 224 of pushing bolt, the second end 222B of guide rod 222 cannot move toward the second relay point 248C because its section differs from structure from first stop 242 migration the first relay point 246C(along the gradient of the first section 246A), now the volume of connector mechanism 206 is reduced to minimum.When user is applied to after the external force removal of latch part 224; elastic parts 238 can be with to press down latch part 224; as shown in Figure 7; connector mechanism 206 is being opened; the second end 222B of guide rod 222 along the gradient of the second section 246B from first relay point 246C migration the second dwell point 244; so that latch part 224, away from pedestal 214, is opened the insert port of connector mechanism 206 (for external lug 208) to maximum; Connector mechanism 206 is when closure, guide rod 222 is still in the second dwell point 244, one space D 2 of the bottom of pedestal 214 and buckle structure 232 can be same as in fact the height summation of main body 210 and latch 212, and user can insert between latch parts 224 and pedestal 214 external lug 208 to be electrically connected to splicing ear 216.Want closed connector mechanism 206, user can on the fastener 224 of pushing bolt, as shown in Figure 8, the second end 222B of guide rod 222 can be along the gradient of the 3rd section 248A from second dwell point 244 migration the second relay point 248C, and now the volume of connector mechanism 206 is reduced to minimum.

Along with user's removal is applied to the external force of latch part 224,238 of elastic partss can press down relative pedestal 214 pivotables of latch part 224, as shown in Figure 9, the second end 222B of guide rod 222 along the gradient of the 4th section 248B from the second relay point 248C migration first stop 242, so latch part 224 can partly be accommodated in pedestal 214, and then dwindle the volume of connector mechanism 206, so that connector mechanism of the present invention 206 is suitable for being widely used on thin type electronic device 200.

The prior art of comparing, the latch part of connector mechanism of the present invention is pedestal pivotable relatively, to adjust actively the volume of connector mechanism.In the situation that not using external lug, the volume of connector mechanism can be reduced to minimum, to coordinate the application that is installed in thin type electronic device; While need linking external lug, latch part is turning easy to use to open the insert port of connector mechanism away from pedestal.Between latch part and pedestal, utilize the combination of guide rod and track structure to produce segmented unlatching and closed function.Track structure designs its construction unit (dwell point, passage and relay point) according to the demand of connector mechanism, so connector mechanism can utilize elastic press type (push-push) design to carry out the pivoting action of the relative pedestal of drive bolt fastener.

Comprehensive, connector mechanism of the present invention has advantages of simple in structure, processing ease and with low cost, and visual actual user demand adjusts the size of its insert port, can be widely used in thin type electronic device, not only improve the aesthetic property of product, also relatively improved its market competitiveness.

The foregoing is only preferred embodiment of the present invention, every equivalent variations of doing according to the scope of the claims in the present invention book and modification, all should belong to covering scope of the present invention.

Claims (22)

1. a connector mechanism, in order to be linked to an external lug, this external lug comprises a main body and a latch, this connector mechanism comprises:

One pedestal, the inside of this pedestal is provided with a splicing ear and a stopper slot, and this splicing ear is arranged at the rear end of this stopper slot, and this external lug is moved along this stopper slot, to be electrically connected on this splicing ear;

One guide rod, a first end of this guide rod is arranged at this pedestal in a rotatable manner;

One latch part, can pivotable mode being arranged at this pedestal, this latch part comprises:

One supporting part, this supporting part comprises:

At least one loading end, is used for carrying this main body of this external lug; And

At least one connecting portion, this at least one connecting portion is arranged at the limit, one end of this supporting part, and this connecting portion is articulated in a sidewall of this pedestal, and movable and relative this pedestal pivotable in the space of this connecting portion between this sidewall and this stopper slot; And

One track structure, this track structure is arranged on this connecting portion, one second end of different this first end of this guide rod is can the mode of sliding being arranged in this track structure, this latch part is partly accommodated in this pedestal when this second end slides the first stop to this track structure, this latch part also when this second end slides second dwell point to different this first stop of this track structure away from this pedestal, so that this external lug can be placed between this pedestal and this latch part; And

One elastic parts, the two ends of this elastic parts are connected to respectively this pedestal and this latch part, and an elastic restoring force of this elastic parts drives this latch part away from this pedestal.

2. connector mechanism as claimed in claim 1, wherein, when this guide rod slides to this first stop, a spacing of this pedestal and this latch part is less than in fact a height summation of this main body and this latch.

3. connector mechanism as claimed in claim 1, wherein this supporting part of this latch part also comprises:

One sunk structure, this sunk structure is arranged at by this loading end; And

One buckle structure, this buckle structure is arranged at the bottom of this sunk structure, is used for snapping onto this latch of this external lug, limits by this this external lug and moves relative to one of this pedestal.

4. connector mechanism as claimed in claim 3, wherein, when this guide rod slides to this second dwell point, a spacing of the bottom of this pedestal and this buckle structure is same as in fact a height summation of this main body and this latch.

5. connector mechanism as claimed in claim 1, wherein this track structure also comprises a first passage and a second channel, this first passage is communicated between this first stop and this second dwell point along different paths respectively from this second channel.

6. connector mechanism as claimed in claim 5, wherein this second end of this guide rod slides to this second dwell point via this first passage from this first stop, so that this latch part is away from this pedestal, and this second end slides to this first stop via this second channel from this second dwell point, so that this door bolt fastener portion is accommodated in this pedestal.

7. connector mechanism as claimed in claim 5, wherein this first passage comprises one first section, one second section and one first relay point, this first section is communicated between this first stop and this first relay point, this second section is communicated between this first relay point and this second dwell point, and this first section has one section of poor structure from high to low via this first relay point toward the path of this second section.

8. the connector mechanism as described in claim 5 or 7, wherein this second channel comprises one the 3rd section, one the 4th section and one second relay point, the 3rd section is communicated between this second dwell point and this second relay point, the 4th section is communicated between this second relay point and this first stop, and the 3rd section has one section of poor structure from high to low via this second relay point toward the path of the 4th section.

9. connector mechanism as claimed in claim 8, wherein this second section has one section of poor structure from high to low via this second dwell point toward the path of the 3rd section, and the 4th section has one section of poor structure from high to low via this first stop toward the path of this first section.

10. connector mechanism as claimed in claim 1, this connector mechanism also comprises:

One baffle plate, the two ends of this baffle plate are arranged at respectively this pedestal and are resisted against on this guide rod in movable mode.

11. connector mechanisms as claimed in claim 10, wherein this baffle plate is consisted of elastomeric material, and an elastic restoring force of this baffle plate this guide rod of exerting pressure, so that this of this guide rod the second end is placed in this track structure.

12. 1 kinds of electronic installations, this electronic installation comprises:

One housing, this enclosure interior is provided with at least one electronic building brick; And

A connector mechanism, this connector mechanism is arranged in this housing, and in order to be linked to an external lug, and this external lug comprises a main body and a latch, and this connector mechanism comprises:

One pedestal, the inside of this pedestal is provided with a splicing ear and a stopper slot, and this splicing ear is arranged at the rear end of this stopper slot and is electrically connected to this electronic building brick, and this external lug is moved along this stopper slot, to be electrically connected on this splicing ear;

One guide rod, a first end of this guide rod is arranged at this pedestal in a rotatable manner;

One latch part, can pivotable mode being arranged at this pedestal, this latch part comprises:

One supporting part, this supporting part comprises:

At least one loading end, is used for carrying this main body of this external lug; And

At least one connecting portion, this at least one connecting portion is arranged at the limit, one end of this supporting part, and this connecting portion is articulated in a sidewall of this pedestal, and movable and relative this pedestal pivotable in the space of this connecting portion between this sidewall and this stopper slot; And

One track structure, this track structure is arranged on this connecting portion, one second end of different this first end of this guide rod is can the mode of sliding being arranged in this track structure, this latch part is partly accommodated in this pedestal when this second end slides the first stop to this track structure, this latch part also when this second end slides second dwell point to different this first stop of this track structure away from this pedestal, so that this external lug can be placed between this pedestal and this latch part; And

One elastic parts, the two ends of this elastic parts are connected to respectively this pedestal and this latch part, and an elastic restoring force of this elastic parts drives this latch part away from this pedestal.

13. electronic installations as claimed in claim 12, wherein, when this guide rod slides to this first stop, a spacing of this pedestal and this latch part is less than in fact a height summation of this main body and this latch.

14. electronic installations as claimed in claim 12, wherein this supporting part of this latch part also comprises:

One sunk structure, this sunk structure is arranged at by this loading end; And

One buckle structure, this buckle structure is arranged at the bottom of this sunk structure, is used for snapping onto this latch of this external lug, limits by this this external lug and moves relative to one of this pedestal.

15. electronic installations as claimed in claim 12, wherein, when this guide rod slides to this second dwell point, a spacing of the bottom of this pedestal and this buckle structure is same as in fact a height summation of this main body and this latch.

16. electronic installations as claimed in claim 12, wherein this track structure also comprises a first passage and a second channel, this first passage is communicated between this first stop and this second dwell point along different paths respectively from this second channel.

17. electronic installations as claimed in claim 16, wherein this second end of this guide rod slides to this second dwell point via this first passage from this first stop, so that this latch part is away from this pedestal, and this second end slides to this first stop via this second channel from this second dwell point, so that this door bolt fastener portion is accommodated in this pedestal.

18. electronic installations as claimed in claim 16, wherein this first passage comprises one first section, one second section and one first relay point, this first section is communicated between this first stop and this first relay point, this second section is communicated between this first relay point and this second dwell point, and this first section has one section of poor structure from high to low via this first relay point toward the path of this second section.

19. electronic installations as described in claim 16 or 18, wherein this second channel comprises one the 3rd section, one the 4th section and one second relay point, the 3rd section is communicated between this second dwell point and this second relay point, the 4th section is communicated between this second relay point and this first stop, and the 3rd section has one section of poor structure from high to low via this second relay point toward the path of the 4th section.

20. electronic installations as claimed in claim 19, wherein this second section has one section of poor structure from high to low via this second dwell point toward the path of the 3rd section, and the 4th section has one section of poor structure from high to low via this first stop toward the path of this first section.

21. electronic installations as claimed in claim 12, wherein this connector mechanism also comprises:

One baffle plate, the two ends of this baffle plate are arranged at respectively this pedestal and are resisted against on this guide rod in movable mode.

22. electronic installations as claimed in claim 21, wherein this baffle plate is consisted of elastomeric material, and an elastic restoring force of this baffle plate this guide rod of exerting pressure, so that this of this guide rod the second end is placed in this track structure.

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