CN212434949U - High-power template-to-plate floating connector - Google Patents

Abstract

The creation is a high power template to board floating connector, contains a public head and a female seat. The male plug comprises a first electrode, a first shell and a first plug-in unit, and the female socket comprises a second electrode, a second shell, a floating unit and a second plug-in unit. The second shell is combined with the floating piece to form a port which can slightly move in one or more directions, so that the male head can be connected with the female seat in a different place within an allowable range, and the first electrode is electrically connected with the second electrode.

Description

High-power template-to-plate floating connector

[ technical field ] A method for producing a semiconductor device

The creation relates to the technical field of connectors, in particular to a floating connector for high-power template plates capable of being connected in a floating mode.

[ background of the invention ]

Traditionally, when the male head is connected with the female head, the electric connection male throw and the female seat which can be smooth only by accurate positioning are needed.

However, in installation environments where space is limited, such as vehicle bodies. Because the installation space of the vehicle body is limited, an installer cannot easily install the male head and the female seat, and the installer may damage the male head or the female seat. In addition, when the male connector and the female connector are connected in a high-power environment, a large amount of waste heat is generated, and if the waste heat cannot be removed in real time, the waste heat is accumulated in the male connector and the female connector, so that the male connector and the female connector are possibly damaged, even an electric wire is short-circuited, and the problem of safety obviously exists in an environment with extremely high safety requirements, such as a vehicle environment.

In view of this, the present invention provides a high power board-to-board floating connector to solve the disadvantages of the prior art.

[ Utility model ] content

The first purpose of this creation is to providing a high power template is to board connector that floats, has public head and female seat, through unsteady connection structure to reach public head and female seat and need not be through accurate counterpoint and still can accomplish the purpose that the connector is connected.

The second objective of the present creation is to dissipate heat of the floating board connector through the through hole adjacent to the insertion hole according to the above high power board, so as to achieve the purpose of being applied in high power (or high current) environment.

The third purpose of this creation is according to above-mentioned high power template to board floating connector, and the electrode passes through S type structure to the mesh of floating connection is realized to the cooperation connection structure that floats.

The fourth purpose of this creation is according to above-mentioned high power template to board floating connector, through the joint part combination plug-in components, fixes the purpose at the plate body with public head and female seat.

To achieve the above and other objects, the present creation provides a high power template connecting a first board body and a second board body to a board floating connector. The high-power template-to-board floating connector comprises a male head and a female seat. The male connector further comprises a first electrode, a first shell and a first plug-in. One end of the first electrode can be connected with the other end of the first plate body and the first electrode to form a free end. The first shell comprises a first body, a first connecting part and a first combining part. The first body forms a first space with a first jack. The first jack is provided with a first electrode. The first connecting part extends from the first body to expose the free end of the first electrode. The first combining part is formed on the two wings of the first body. The first insert is combined with the first combining part so as to fix the first shell on the first plate body. The female socket further comprises a second electrode, a second shell, a floating piece and a second plug-in piece. One end of the second electrode can be connected with the second plate body and the other end of the second electrode is a free end. The second housing includes a second body and a second coupling portion. The second body forms a second space with a second jack. The second jack is provided with a second electrode and a free end of the second electrode is exposed in the second space. The second combining part is formed on the two wings of the second body and protrudes out of the second body to form a C-shaped opening. The floating piece comprises a third body and a third combining part. The third body forms a third space with a third jack. The third jack corresponds to the second jack to accommodate the free end of the second electrode. The third combining part is formed on the two wings of the third body and protrudes out of the third body. The third combining part is arranged at the C-shaped opening. The second plug-in components combine the second joint portion to can fix the second casing at the second plate body and with the third joint portion spacing in C type opening. The first connecting part is connected with the floating part, so that the first electrode is electrically connected with the second electrode.

Compared with the prior art, the high-power template provides a floating structure for the plate-to-plate floating connector in the female seat, so that the male connector can be connected in a movable range in the process of being inserted into the female seat, for example, in the same direction of the insertion direction, the vertical direction or the horizontal direction, so as to adapt to different application environments.

The specific techniques employed in the present invention will be further described with reference to the following examples and accompanying drawings.

[ description of the drawings ]

Fig. 1 is a perspective view of a high power template-to-plate floating connector according to an embodiment of the present invention.

Fig. 2 is a detailed exploded view illustrating the inventive male of fig. 1.

Fig. 3 is a combined front view illustrating the creation of the male part of fig. 2.

Fig. 4 is a detailed exploded view illustrating the female housing of fig. 1 according to the present invention.

Fig. 5 is an assembled front view illustrating the mother socket of fig. 4 according to the present invention.

Fig. 6 is a schematic diagram illustrating the combination of the mother socket of fig. 4.

Description of the main element symbols:

10 high power template is to board floating connector

12 male head

122 first electrode

1222. 1224 electrode terminal

124 first housing

1242 first body

12422 first jack

12424 through hole

1244 first connection part

1246 first joint part

126 first plug-in

14 female seat

142 second electrode

1422. 1424 electrode terminal

144 second casing

1442 second body

14422 second jack

1444 second coupling part

14442C type opening

146 float member

1462 third body

14622 third socket

1464 third engaging part

148 second plug-in unit

14424. 14624 through hole

FSP first space

SSP second space

TSP third space

[ detailed description ] embodiments

For a fuller understanding of the objects, features and advantages of the present disclosure, reference should be made to the following detailed description taken in conjunction with the accompanying drawings.

In this disclosure, the use of "a" or "an" is used to describe elements, components and assemblies described herein. This is for convenience of illustration only and provides a general sense of the scope of the present disclosure. Thus, unless clearly indicated to the contrary, such description should be read to include one, at least one and the singular also includes the plural.

In this disclosure, the terms "comprising," "including," "having," "containing," or any other similar term are intended to cover non-exclusive inclusions. For example, an element, structure, article, or apparatus that comprises a plurality of elements is not limited to only those elements but may include other elements not expressly listed or inherent to such element, structure, article, or apparatus. In addition, unless expressly stated to the contrary, the term "or" is intended to mean an inclusive "or" rather than an exclusive "or".

Please refer to fig. 1, which is a perspective view of a floating connector of a high power board-to-board type according to an embodiment of the present invention. In fig. 1, a high-power board-to-board floating connector 10 connects a first board and a second board, which are not shown in fig. 1, but it should be understood by those skilled in the art that the first board and the second board may be in the form of a housing or a circuit board with a circuit layout.

The high power template-to-plate floating connector 10 includes a male header 12 and a female socket 14.

The male tip 12 includes a first electrode 122, a first housing 124, and a first insert 126, and reference is made to fig. 2, which is a detailed exploded view of the male tip of fig. 1 illustrating the present invention.

One end 1222 of the first electrode 122 can be connected to the first plate and the other end 1224 of the first electrode 122 is a free end, that is, the male header 12 is suspended and not connected to any object when not connected to the female socket 14, in this embodiment, the number of the first electrodes 122 is illustrated as three, and in other embodiments, the number of the first electrodes 122 may be one or more. Furthermore, the first electrode 122 is in the form of a sheet, and is here an L-shaped sheet.

The first housing 124 is a rectangular body, and includes a first body 1242, a first connecting portion 1244 and a first combining portion 1246.

The first body 1242 forms a first space FSP having a first inserting hole 12422. In the embodiment, the first inserting hole 12422 is a through hole type, and the first electrode 122 can be inserted and received when the first inserting hole 12422 is combined. In the present embodiment, the number of the first inserting holes 12422 is illustrated as three, and in other embodiments, the number of the first inserting holes 12422 may be one or more. In practice, the number of the first inserting holes 12422 is equal to or more than the number of the first electrodes 122.

The first connecting portion 1244 extends from the first body 1242, where the width of the first connecting portion 1244 is smaller than the width of the first body 1242 to form a T-shape, for example. A free end of the first electrode 122 may be exposed at the first connection portion 1244.

The first combining portion 1246 is formed on two wings of the first body 1242, where the first combining portion 1246 also extends from the first body 1242 to the two wings, and respectively forms a C-shaped groove, the C-shaped groove provides a guiding function, and by designing the opening size of the C-shaped groove, the function of tightly combining the C-shaped groove with the first insert 126 can be achieved.

The first insert 126 can be combined with the first combining portion 1246, and when the opening size of the C-shaped groove is the same as the thickness of the first insert 126, the first shell 124 can be stably fixed on the first plate, and herein, the first insert 126 is a C-shaped member. Reference is also made to fig. 3, which is a front view of the disclosure in combination with the male portion of fig. 2.

It is noted that the first space FSP may also form another via 12424, where the via 12424 may also represent a hole where the first electrode 122 is not disposed. The through hole 12424 is formed at a side of the first inserting hole 12422 or between a plurality of first inserting holes 12422. Furthermore, the shape of the via 12424 may be any shape, and is illustrated herein as a rectangular via.

The female housing 14 further includes a second electrode 142, a second housing 144, a floating member 146, and a second insert 148, and reference is made to fig. 4, which is a detailed exploded view of the female housing of fig. 1.

One end of the second electrode 142 can be connected to the second plate and the other end of the second electrode is a free end, that is, when the female socket 14 is not connected to the male plug 12, the second electrode is suspended and not connected to any object, in this embodiment, the number of the second electrodes 142 is six as an example, and in other embodiments, the number of the second electrodes 142 may be multiple. Furthermore, one end 1422 of the second electrode 142 is a plate. A Y-shaped holder may be formed by adding, for example, two second electrodes 142 at the other end 1424 thereof to hold the first electrode 122. It is noted that the second electrode 142 forms an S-shaped bend between the two ends 1422 and 1424 to provide flexibility in displacement, such as left-right or front-back movement, when connected to the first electrode 122.

The second housing 144 is a rectangular body, and includes a second body 1442 and a second coupling portion 1444.

The second body 1442 forms a second space SSP having a second insertion hole 14422. In the embodiment, the second insertion hole 14422 is a through hole type, and the combination of the through hole and the through hole allows the second electrode 142 to be inserted and received. In the present embodiment, the number of the second insertion holes 14422 is illustrated as three, and in other embodiments, the number of the second insertion holes 14422 may be one or more. In practice, the number of the second insertion holes 14422 is equal to or more than the number of the second electrodes 142. In addition, the size of the second socket 14422 is slightly larger than the size of the second socket 12422, for example, to accommodate two second electrodes 142.

The second insertion hole 14422 is provided such that the second electrode 142 and the free end of the second electrode 142 are exposed in the second space SSP.

The second coupling portion 1444 is formed at the wing of the second body 1442 and protrudes from the second body 1442 to form a C-shaped opening 14442. In addition, the second coupling portions 1444 also respectively form C-shaped grooves, which provide a guiding function, and the opening size of the C-shaped grooves is designed to achieve the function of tightly coupling the C-shaped grooves with the second insert 148.

The floatation member 146 includes a third body 1462 and a third engagement portion 1464.

The third body 1462 forms a third space TSP having a third socket 14622. The third insertion hole 14622 corresponds to the second insertion hole 14422 for receiving the free end of the second electrode 142. The third engaging portion 1464 is formed on the wing of the third body 1462 and protrudes from the third body 1462, and fig. 5 is a front view of the mother socket of fig. 4 according to the present invention. Here, the third coupling portion 1464 is illustrated as a bump, and a gap is provided between the bump and the inner edge of the C-shaped opening 14442, so that when the third coupling portion 1464 is provided in the C-shaped opening, the bump can be displaced in the front, rear, left, and right directions in the C-shaped opening 14442.

The second insert 148 engages the second engagement portion 1444 to enable securing the second housing 144 to the second plate and limiting the third engagement portion 1464 to the C-shaped opening 14442. When the opening size of the C-shaped groove is the same as the thickness of the second insert 148, the second housing 144 can be stably fixed to the second plate, and the second insert 148 is a C-shaped member. Referring to fig. 6, the present invention is illustrated in the assembled view of the female socket of fig. 4.

The first electrode 122 is electrically connected to the second electrode 142 by connecting the first connecting portion 1244 to the floating member 146.

It should be noted that the second space SSP and the third space TSP may further form another through hole 14424,14624, and the through hole 14424,14624 may also represent a hole where the second electrode 142 is not disposed. The through holes 14424 are formed between the side of the second insertion hole 14422 or the plurality of second insertion holes 14422, and the through holes 14624 are formed between the side of the third insertion hole 14622 or the plurality of third insertion holes 14622. Furthermore, the shape of the via 12424 may be any shape, and is illustrated herein as a rectangular via.

Although the embodiments of the present disclosure have been described above, it should be understood that various changes in the form, construction, features, methods and quantities described in the claims may be made by those skilled in the art without departing from the spirit and scope of the present disclosure, and therefore the scope of the present disclosure should not be limited by the claims appended hereto.

Claims (10)

1. The utility model provides a high power template is to board floating connector connects first plate body and second plate body, its characterized in that, the high power template contains to board floating connector:

public head still contains:

one end of the first electrode is connected with the first plate body, and the other end of the first electrode is a free end;

a first housing having a first body forming a first space having a first receptacle in which the first electrode is disposed, a first connection part extending from the first body to expose a free end of the first electrode, and a first coupling part formed at both wings of the first body; and

the first plug-in is combined with the first combination part so as to fix the first shell on the first plate body;

female seat still contains:

one end of the second electrode is connected with the second plate body, and the other end of the second electrode is a free end;

a second housing having a second body forming a second space having a second insertion hole in which the second electrode and a free end of the second electrode are exposed, and a second coupling portion formed at a wing of the second body and protruding from the second body to form a C-shaped opening;

the floating piece is provided with a third body and a third combining part, the third body forms a third space with a third jack, the third jack corresponds to the second jack so as to accommodate the free end of the second electrode, the third combining part is formed on two wings of the third body and protrudes out of the third body, and the third combining part is arranged at the C-shaped opening; and

the second plug-in unit is combined with the second combination part so as to fix the second shell on the second plate body and limit the third combination part at the C-shaped opening;

the first connecting part is connected with the floating part, so that the first electrode is electrically connected with the second electrode.

2. The high power template-to-plate floating connector of claim 1, wherein the first engaging portion forms a C-shaped slot to allow insertion of the first insert.

3. The high power template-to-plate floating connector of claim 1, wherein the second joining portion forms a C-shaped groove for insertion of the second insert.

4. The high power stencil-to-board floating connector of claim 3, wherein the third engagement portion is a tab having a gap with an inner edge of the C-shaped opening.

5. The high power stencil-to-board floating connector of claim 1, wherein the first space further forms a through hole and the through hole is formed at a side of the first receptacle.

6. The high power stencil-to-board floating connector of claim 1, wherein the second space further forms a through hole and the through hole is formed at a side of the second receptacle.

7. The high power stencil-to-board floating connector of claim 1, wherein the third space further forms a through hole and the through hole is formed at a side of the third insertion hole.

8. The high power board-to-board floating connector of claim 1, wherein the second electrode forms an S-shaped bend between two ends for the second electrode to connect to the first electrode.

9. The high power board-to-board floating connector of claim 8, wherein the second electrode is a sheet, and a plurality of the second electrodes form a Y-shaped clamp to clamp the first electrode.

10. The high power template-to-plate floating connector of claim 1, wherein the first electrode is a wafer.

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