CN203503906U

CN203503906U - Connector structure

Info

Publication number: CN203503906U
Application number: CN201320644558.4U
Authority: CN
Inventors: 张玲源
Original assignee: Energy Full Electronics Co Ltd
Current assignee: Energy Full Electronics Co Ltd
Priority date: 2013-09-06
Filing date: 2013-10-17
Publication date: 2014-03-26
Anticipated expiration: 2023-10-17
Also published as: TWM468809U

Abstract

A connector structure comprises a first connector and a second connector. The first connector comprises a shell, a spring plate and at least one stopping part. The elastic sheet comprises a pressing part and two buckling parts, and the buckling parts are respectively arranged on two sides of the elastic sheet. The second connector comprises two buckling parts respectively corresponding to the buckling parts. The first connector is manufactured by an integral molding process. The pressing part is pressed downwards to adjust the position of each buckling part, so that each buckling part is buckled or separated from the corresponding buckling part.

Description

Connector construction

Technical field

The utility model relates to a kind of connector construction, espespecially a kind of one-body molded connector construction of avoiding colloid distortion.

Background technology

Along with scientific and technological progress, various computer perimeter components are flourish, also driven the prosperity in connector market.When the demand of connector constantly expands, when output is constantly amplified, the specification demands when characteristic of connector also must meet application, such as transmission speed, mechanical strength, heat dissipation characteristics etc., the smoothly marketization.

Yet existing connector is often the design of two-piece type, the body by metal fastener spring piece collocation plastic material, because both Material Strength are different, easily produces some problems.Please refer to Fig. 1 to 3 figure, Fig. 1 is the stereogram of prior art the first connector, the end view of the first connector that Fig. 2 is prior art, and Fig. 3 is the stereogram of prior art the second connector.The first connector 1 of prior art, includes the outer shell 11 of an insulation, the front connecting hole 13 of several electrical pickoff 12, one and a bolt-lock spring 14.Front connecting hole 13 is a hole corresponding to the second connector 2, for accommodating the second connector 2, makes to arrange several electrical pickofves 21 and the several electrical pickofves 12 that are arranged in the outer shell 11 of insulation in the inner, when bolt-lock position, forms and is electrically connected to.Bolt-lock spring 14 is installed along the upper surface of the outer shell 11 of insulation, and bolt-lock spring 14 includes and presses and releasing piece 141 and be positioned at both sides and divide the projection 142,143 being arranged.Press and releasing piece 141 extends to the top of insulation crust 11.The outer shell 11 that insulate is made by plastics, and bolt-lock spring 14 is made by metal.

Projection 142 has respectively two-way inclined-plane with projection 143, and projection 142 has a front bevel 1421, a back bevel 1422 and a curve end face 1423, and projection 143 has a front bevel 1431, a back bevel 1432 and a curve end face 1433.Please also refer to Fig. 1 and Fig. 3, when the first connector 1 is inserted into the second connector 2, because front bevel 1421 and front bevel 1431 are all set to inclined-plane, relatively easy by making bolt-lock spring 14 be inserted into the action of bolt-lock groove 221,222 of the second connector 2, and then arrive and to fasten lock position, electrical pickoff 21 is electrically connected to smoothly with electrical pickoff 12.

And when user apply back pull in press and releasing piece 141 on time, can drive projection 142,143 to move downward, bolt-lock spring 14 is released from fastening lock position, and then electrical pickoff 21 is no longer electrically connected to electrical pickoff 12.Certainly, because back bevel 1422 and back bevel 1432 are all set to inclined-plane, can make bolt-lock spring 14 leave the action of bolt-lock groove 221,222 of the second connector 2 relatively easy.In addition, the setting of curve end face 1423 and curve end face 1433, provides respectively suitable transition between front bevel 1421, back bevel 1422 and front bevel 1431, back bevel 1432, can promote running steadily.

But design, but still has the problem in intensity so easily.Because the bolt-lock spring 14 as fastener spring piece is first made by metal, and then via the mode of assembling, and be fixed together by the outer shell 11 of the made insulation of plastics, and assembling place of bolt-lock spring 14 and the outer shell 11 of insulation, the material thickness of outer shell 11 of insulating is thinner, and relative intensity is poor.Be adjacent to again the position that bolt-lock occurs herein, in the time of on power puts on bolt-lock spring 14, its elastic force producing puts on again on the outer shell 11 of insulation (as shown in frame line part), easily causes colloid distortion simultaneously.

Therefore, how to design the connector construction making new advances, there is enough intensity and can avoid colloid distortion, just become very important problem.

Utility model content

Therefore, the purpose of this utility model is to provide a kind of connector construction, utilizes integrated mode to manufacture shell fragment and the plastic body for buckle, the problem on deformation that puts on colloid to be caused to solve the elastic force of fastener spring piece.

The utility model provides a kind of connector construction, and it includes one first connector and one second connector.Described the first connector includes a shell, a shell fragment and at least one stopper section.Described shell fragment includes a press section and two buckling partss, and described in each, buckling parts is arranged at respectively one of both sides of described shell fragment.Described the second connector includes two clamping parts that correspond to respectively buckling parts described in each.By the position that presses down described press section capable of regulating buckling parts described in each, and then make described in each buckling parts be clipped to corresponding clamping part described in each, or from corresponding described in each clamping part depart from.

According to embodiment of the present utility model, described shell fragment is a prong like, and described in each, buckling parts is arranged at respectively on one of two dichotomies.

According to embodiment of the present utility model, described the second connector includes two and is respectively used to the accommodating draw-in groove of buckling parts described in each, and described in each, clamping part lays respectively at the edge of draw-in groove described in each, with the buckling parts described in each of buckle respectively.

According to embodiment of the present utility model, described the first connector includes a stopper section, is arranged at described in each between dichotomy.

According to embodiment of the present utility model, described the second connector includes a tabula portion, for when described the first connector inserts described the second connector, accommodating and clamp described stopper section.

According to embodiment of the present utility model, described the first connector includes two stopper sections, is arranged at respectively one of two outsides of described shell fragment.

According to embodiment of the present utility model, described the second connector includes at least one tabula portion corresponding to stopper section described in each, for when described the first connector inserts described the second connector, accommodating and seize stopper section described in each on both sides by the arms.

The utility model separately provides a kind of connector construction, and it includes one first connector and one second connector.Described the first connector includes a shell, a shell fragment and two stopper sections.Described shell fragment includes a press section and two buckling partss, and described in each, buckling parts is arranged at respectively one of both sides of described shell fragment.Described in each, stopper section is arranged at respectively one of two outsides of described shell fragment.Described the second connector includes two clamping parts that correspond to respectively buckling parts described in each.By the position that presses down described press section capable of regulating buckling parts described in each, and then make described in each buckling parts be clipped to corresponding clamping part described in each, or from corresponding described in each clamping part depart from.

According to embodiment of the present utility model, described the second connector includes at least one tabula portion corresponding to stopper section described in each, for when described the first connector inserts described the second connector, accommodating and clamp stopper section described in each.

The utility model provides a kind of connector construction again, and it includes one first connector and one second connector.Described the first connector includes a shell, a shell fragment and a stopper section.Described shell fragment is a prong like, includes a press section and two buckling partss, and described in each, buckling parts is arranged at respectively on one of two dichotomies.Described stopper section is arranged at described in each between dichotomy.Described the second connector includes two clamping parts that correspond to respectively buckling parts described in each.By the position that presses down described press section capable of regulating buckling parts described in each, and then make described in each buckling parts be clipped to corresponding clamping part described in each, or from corresponding described in each clamping part depart from.

The utility model also provides a kind of connector, includes a shell, a shell fragment and two stopper sections.Described shell fragment includes a press section and two buckling partss, and described in each, buckling parts is arranged at respectively one of both sides of described shell fragment.Described in each, stopper section is arranged at respectively one of two outsides of described shell fragment.By the position that presses down described press section capable of regulating buckling parts described in each.

According to embodiment of the present utility model, described shell, described shell fragment and described two stopper sections are made via integrated processing procedure.

The utility model provides again a kind of connector, includes a shell, a shell fragment and a stopper section.Described shell fragment is a prong like, includes a press section and two buckling partss, and described in each, buckling parts is arranged at respectively on one of two dichotomies.Described stopper section is arranged at described in each between dichotomy.By the position that presses down described press section capable of regulating buckling parts described in each.

According to embodiment of the present utility model, described shell, described shell fragment and described stopper section are made via integrated processing procedure.

Compared to prior art, the utility model connector construction utilizes integrated mode to form the first connector, and therefore, being used for shell fragment and the plastic body of buckle is identical material, there is no the difference in intensity.Thus, forcing in press section, while making buckling parts snap into corresponding clamping part or depart from corresponding clamping part, the elastic force that can not produce because of shell fragment, causes the distortion of colloid, and then connector construction is produced to any destruction.Connector construction of the present utility model, has higher mechanical strength and reliability, can meet the specification demands in application.

Accompanying drawing explanation

Fig. 1 is the stereogram of the first connector of prior art;

Fig. 2 is the end view of the first connector of prior art;

Fig. 3 is the stereogram of the second connector of prior art;

Fig. 4 is the stereogram of the first connector of the utility model the first embodiment;

Fig. 5 is the front view of the second connector in the utility model the first embodiment;

Fig. 6 is schematic diagram when the first connector not yet inserts the second connector in the utility model the first embodiment;

Fig. 7 is the top view of the connector construction of the utility model the first embodiment;

Fig. 8 is along the profile of A-A ' in Fig. 7;

Fig. 9 is the engaging schematic diagram of the connector construction of the utility model the first embodiment;

Vertical view when Figure 10 is the engaging of connector construction of the utility model the first embodiment;

Figure 11 is along the profile of B-B ' in Figure 10;

Figure 12 is the stereogram of the first connector of the utility model the second embodiment;

Figure 13 is the front view of the second connector in the utility model the second embodiment;

Figure 14 is the top view of the connector construction of the utility model the second embodiment;

Figure 15 is along the profile of C-C ' in Figure 14;

Figure 16 is the engaging schematic diagram of the connector construction of the utility model the second embodiment;

Figure 17 is along the profile of D-D ' in Figure 16.

Embodiment

The explanation of following embodiment is graphic with reference to what add, can be in order to the specific embodiment of implementing in order to illustration the utility model.The direction term that the utility model is mentioned, such as " on ", D score, 'fornt', 'back', " left side ", " right side ", " top ", " end ", " level ", " vertically " etc., be only the direction with reference to annexed drawings.Therefore, the direction term of use is in order to illustrate and to understand the utility model, but not in order to limit the utility model.

Please refer to Fig. 4, Fig. 4 is the stereogram of the first connector of the utility model the first embodiment.The first connector 100 of the present utility model includes an outer shell 101, a shell fragment 102 and two stopper sections 1031,1032.Unlike the prior art, the structure that outer shell 101, shell fragment 102 and

stopper section

1031,1032 are integrated, is made by integrated processing procedure by plastic warp conventionally.Shell fragment 102 includes again a press section 104 and two buckling partss 1051,1052.Two

buckling partss

1051,1052 are arranged at respectively the both sides of shell fragment 102, and two

stopper sections

1031,1032 are arranged at respectively one of two outsides of shell fragment 102.And the physical location of

buckling parts

1051,1052 can reduce via pressing down press section 104.The first connector 100 of the present utility model separately includes several terminals (not being shown in figure), but due to the utility model emphasis of the utility model the first connector 100 and do not lie in this, therefore repeat no more in this.

Please refer to Fig. 5, Fig. 5 is the front view of the second connector in the utility model the first embodiment.The second connector 200 comprises two draw-in

grooves

2041,2042 corresponding to the

buckling parts

1051,1052 of the first connector 100, upper wall 203 and at least one tabula portion 205.Clamping part 201 is positioned at the edge of draw-in

groove

2041,2042.

Please also refer to Fig. 6 to Fig. 8, Fig. 6 is schematic diagram when the first connector not yet inserts the second connector in the utility model the first embodiment.Fig. 7 is the top view of the connector construction of the utility model the first embodiment, and Fig. 8 is along the profile of A-A ' in Fig. 7.As shown in Figure 6 to 8, connector construction 10 of the present utility model, including the first connector 100 and one second connector 200, the first connectors 100 and the second connector 200 is corresponding design, with the engaging of mutually arranging in pairs or groups.The second connector 200 is normally made by plastics.

Please refer to Fig. 6,8,9-11, Fig. 9 is the engaging schematic diagram of the connector construction of the utility model the first embodiment, vertical view when Figure 10 is the engaging of connector construction of the utility model the first embodiment.Figure 11 is along the profile of B-B ' in Figure 10.In fact, if comparison chart 4 and Fig. 6 can find that B-B ' line is along buckling parts 1052 to incision, because

buckling parts

1051,1052 is symmetrical design, the following description is all to narrate

buckling parts

1051,1052 simultaneously simultaneously.As shown in Fig. 6 and Fig. 8, because the physical location of

buckling parts

1051,1052 can reduce via pressing down (that is towards the direction F application of force shown in Fig. 6,8) press section 104, and when the action of pressing disappears, be returned to again original position.Therefore understandable, see through simple push action, can, according to the physical location that need to adjust

buckling parts

1051,1052, make

buckling parts

1051,1052 be clipped to the clamping part 201 of respective design in the second connector 200, or depart from from corresponding clamping part 201.When user forces on press section 104, and when press section 104 is pressed down to LAP, within two

buckling partss

1051,1052 can be accommodated in two

stopper sections

1031,1032 completely, if continue, the first connector 100 is pushed to the second connector 200, make two

buckling partss

1051,1052 snap into respectively corresponding clamping part 201(please also refer to Figure 11).When the first connector 100 inserts the second connector 200, remove the application of force pressing down, the

accommodating buckling parts

1051,1052 of now draw-in groove 204 meeting, buckling parts 201 fastens buckling parts 1051,1052.Meanwhile, the upper wall of the second connector 200 203 and tabula portion 205 are just being used on accommodating and are clamping the

stopper section

1031,1032 of the first connector 100, to avoid the first connector 100 to slide.Therefore, the first connector 100 and the second connector 200 become fastening state, form connector construction 10 as shown in Figure 9.

Be understandable that, when user forces on press section 104, and press section 104 is pressed down after LAP, within two

buckling partss

1051,1052 can be accommodated in again two

stopper sections

1031,1032 completely, make two

buckling partss

1051,1052 depart from respectively corresponding clamping part 201(please also refer to Fig. 8), and then the first connector 100 is released from the state engaging with the second connector 200, namely the first connector 100 can be pulled out easily.

Please refer to Figure 12, Figure 12 is the stereogram of the first connector of the utility model the second embodiment.As shown in figure 12, the first connector 300 of the present utility model includes an outer shell 301, a shell fragment 302 and a stopper section 303.The structure that outer shell 301, shell fragment 302 and stopper section 303 are integrated, is made by integrated processing procedure by plastic warp conventionally.Shell fragment 302 includes again a press section 304 and two buckling partss 3051,3052.Different from the first embodiment is, shell fragment 302 is prong like, two

buckling partss

3051,3052 are arranged at respectively the both sides of shell fragment 302, namely lay respectively on two

dichotomies

3021,3022, and stopper section 303 are arranged between two dichotomies 3021,3022.The physical location of

buckling parts

3051,3052 can reduce via pressing down press section 304 simultaneously.The first connector 300 of the present utility model separately includes several terminals (not being shown in figure), but due to the utility model emphasis of the utility model the first connector 300 and do not lie in this, therefore repeat no more in this.

Refer to Figure 13, Figure 13 is the front view of the second connector 400 of second embodiment of the invention.The second connector 400 (please refer to Figure 15) except clamping part 401, separately includes a shell 402, a upper wall 403, two draw-in grooves 4041,4042 and a tabula portion 405.Draw-in groove 4041,4042 is arranged among upper wall 403, for the accommodating

buckling parts

3051,3052 of difference.

Please also refer to Figure 14 and Figure 15, Figure 14 is the top view of the connector construction of the utility model the second embodiment, and Figure 15 is along the profile of C-C ' in Figure 14.As shown in Figure 14 and Figure 15, connector construction 20 of the present utility model, including the first connector 300 and one second connector 400, the first connectors 300 and the second connector 400 is corresponding design, with the engaging of mutually arranging in pairs or groups.The second connector 400 is normally made by plastics.

Please refer to Figure 12,15,16 and Figure 17, Figure 16 is the engaging schematic diagram of the connector construction of the utility model the second embodiment, and Figure 17 is along the profile of D-D ' in Figure 16.In fact, if comparison Figure 12 and Figure 13 can find that D-D ' line is along buckling parts 3052 to incision, because

buckling parts

3051,3052 is symmetrical design, the following description is all to narrate

buckling parts

3051,3052 simultaneously simultaneously.As shown in Figure 16 and Figure 17, because the physical location of

buckling parts

3051,3052 can reduce via pressing down (that is towards the application of force of direction G shown in Figure 12,15) press section 304, and when the action of pressing disappears, be returned to again original position.Therefore understandable, see through simple push action, can, according to the physical location that need to adjust

buckling parts

3051,3052, make

buckling parts

3051,3052 be clipped to the clamping part 401 of respective design in the second connector 400, or depart from from corresponding clamping part 401.

Clamping part 401 is positioned at the edge of draw-in groove 4041,4042, to withhold buckling parts 3051,3052.Simultaneously, the second connector 400 separately includes a tabula portion 405, when the first connector 300 inserts the second connector 400, upper wall 403 and tabula portion 405 between two draw-in grooves 4041,4042, just be used on accommodating and clamping the stopper section 303 of the first connector 300, to avoid the first connector 300 to slide.

In like manner, when user forces on press section 304, and press section 304 is pressed down after LAP, the physical location of two

buckling partss

3051,3052 reduces, and make two

buckling partss

3051,3052 snap into respectively corresponding clamping part 401 in the second connector 400, and then make the first connector 300 become with the second connector 400 state engaging.And work as user, again force on press section 304, and when press section 304 is pressed down to LAP, the physical location of two

buckling partss

3051,3052 can reduce again again, two

buckling partss

3051,3052 are released from the state of engaging, and then make the first connector 300 can be pulled out easily.

In addition, the clamping part in the utility model and buckling parts, can have according to actual needs different designs, as long as can reach the effect of engaging, all belongs to scope of the present utility model, is not limited to the shape shown in embodiment.

In sum, connector construction of the present utility model, for utilizing integrated mode to form the first connector, therefore, being used for shell fragment and the plastic body of buckle is identical material, there is no the difference in intensity.Thus, forcing in press section, while making buckling parts snap into corresponding clamping part or depart from corresponding clamping part, the elastic force that can not produce because of shell fragment, causes the distortion of colloid, and then connector construction is produced to any destruction.Connector construction of the present utility model, has higher mechanical strength and reliability, can meet the specification demands in application.

In sum; although the utility model discloses as above with preferred embodiment; but this preferred embodiment is not in order to limit the utility model; the utility model person of ordinary skill in the field; within not departing from spirit and scope of the present utility model; all can do various changes and retouching, the scope that therefore protection range of the present utility model defines with claim is as the criterion.

Claims

1. a connector construction, is characterized in that, it includes:

One first connector, described the first connector includes:

One shell; And

One shell fragment, described shell fragment includes a press section and two buckling partss, and described in each, buckling parts is arranged at respectively one of both sides of described shell fragment; And

One second connector, includes two clamping parts that correspond to respectively buckling parts described in each;

Wherein said shell and described shell fragment are made via integrated processing procedure, and by the position that presses down described press section capable of regulating buckling parts described in each, and then make described in each buckling parts be clipped to corresponding clamping part described in each, or from corresponding described in each clamping part depart from.

2. connector construction according to claim 1, is characterized in that, described shell fragment is a prong like, and described in each, buckling parts is arranged at respectively on one of two dichotomies.

3. connector construction according to claim 2, is characterized in that, described the second connector includes two and is respectively used to the accommodating draw-in groove of buckling parts described in each, and described in each, clamping part lays respectively at the edge of draw-in groove described in each, with the buckling parts described in each of buckle respectively.

4. connector construction according to claim 2, is characterized in that, described the first connector includes a stopper section, is arranged at described in each between dichotomy.

5. connector construction according to claim 4, is characterized in that, described the second connector includes a tabula portion, for when described the first connector inserts described the second connector, accommodating and clamp described stopper section.

6. connector construction according to claim 1, is characterized in that, described the first connector includes two stopper sections, is arranged at respectively one of two outsides of described shell fragment.

7. connector construction according to claim 6, is characterized in that, described the second connector includes two and is respectively used to the accommodating draw-in groove of buckling parts described in each, and described in each, clamping part lays respectively at the edge of draw-in groove described in each, with the buckling parts described in each of buckle respectively.

8. connector construction according to claim 6, it is characterized in that, described the second connector includes at least one tabula portion corresponding to stopper section described in each, for when described the first connector inserts described the second connector, accommodating and seize stopper section described in each on both sides by the arms.

9. a connector construction, is characterized in that, it includes:

One first connector, described the first connector includes:

One shell;

One shell fragment, includes a press section and two buckling partss, and described in each, buckling parts is arranged at respectively one of both sides of described shell fragment; And

Two stopper sections, described in each, stopper section is arranged at respectively one of two outsides of described shell fragment; And

One second connector, described the second connector includes two clamping parts that correspond to respectively buckling parts described in each;

Wherein by the position that presses down described press section capable of regulating buckling parts described in each, and then make described in each buckling parts be clipped to corresponding clamping part described in each, or from corresponding described in each clamping part depart from.

10. connector construction according to claim 9, is characterized in that, described shell, described shell fragment and described in each stopper section made by plastics.

11. connector constructions according to claim 9, is characterized in that, described the second connector includes two and is respectively used to the accommodating draw-in groove of buckling parts described in each, and described in each, clamping part lays respectively at the edge of draw-in groove described in each, with the buckling parts described in each of buckle respectively.

12. connector constructions according to claim 9, it is characterized in that, described the second connector includes at least one tabula portion corresponding to stopper section described in each, for when described the first connector inserts described the second connector, accommodating and clamp stopper section described in each.

13. 1 kinds of connector constructions, is characterized in that, it includes:

One first connector, described the first connector includes:

One shell;

One shell fragment, described shell fragment is a prong like, includes a press section and two buckling partss, and described in each, buckling parts is arranged at respectively on one of two dichotomies; And

One stopper section, is arranged at described in each between dichotomy; And

14. connector constructions according to claim 13, is characterized in that, described the second connector includes two and is respectively used to the accommodating draw-in groove of buckling parts described in each, and described in each, clamping part lays respectively at the edge of draw-in groove described in each, with the buckling parts described in each of buckle respectively.

15. connector constructions according to claim 13, is characterized in that, described the second connector includes a tabula portion, for when described the first connector inserts described the second connector, accommodating and clamp described stopper section.

16. 1 kinds of connectors, include a shell, it is characterized in that, described connector comprises:

Two stopper sections, described in each, stopper section is arranged at respectively one of two outsides of described shell fragment;

Wherein by the position that presses down described press section capable of regulating buckling parts described in each.

17. connectors according to claim 16, is characterized in that, described shell, described shell fragment and described two stopper sections are made via integrated processing procedure.

18. 1 kinds of connectors, include a shell, it is characterized in that, described connector comprises:

One stopper section, is arranged at described in each between dichotomy;

19. connectors according to claim 18, is characterized in that, described shell, described shell fragment and described stopper section are made via integrated processing procedure.