CN117613609B - High-speed connector with semi-wrapped shielding plate structure - Google Patents

Abstract

The invention relates to the field of connector equipment, in particular to a high-speed connector with a semi-wrapped shielding plate structure, which comprises a connector body, a shielding shell, a rectangular shielding plate and a movable limiting piece, wherein the connector body is provided with a first opening; the shielding shell is sleeved on the connector body, an arc shielding plate structure is arranged at the tail end of the shielding shell, and inserting ports are formed in two opposite side surfaces of the head end of the shielding shell; the rectangular shielding plate is arranged on the butt joint piece of the connector body, and is clamped in the plugging port after the connector body is correspondingly plugged with the butt joint piece; the movable limiting piece is movably mounted in the connector body, the tail end of the movable limiting piece extends to the outside of the tail end of the connector body, the head end of the movable limiting piece extends to the position corresponding to the arc-shaped shielding plate on the connector body, and when the tail end of the movable limiting piece is pushed, the head end of the movable limiting piece can be clamped into the arc-shaped shielding plate to fix the shielding shell. The connector is regular in overall shape, easy to store and install and quick to disassemble and assemble the shielding shell.

Description

High-speed connector with semi-wrapped shielding plate structure

Technical Field

The invention relates to the field of connector equipment, in particular to a high-speed connector with a semi-wrapped shielding plate structure.

Background

A connector is generally referred to as an electrical connector, which is a device that connects two active devices for transmitting electrical current or signals. The high-speed connector is a connector with higher transmission new energy, which is developed on the basis of the traditional connector.

The existing high-speed connector basically has a shielding function, but because the existing shielding shell is directly arranged at the plugging end of the connector and is connected and fixed by virtue of frictional resistance between the shielding shell and the connector, in addition, the existing high-speed connector is not fixed in any other way, so that after the existing high-speed connector is plugged and used for a long time, the shielding shell is easy to slip off from the connector to influence the normal use of the connector, taking a shielding structure of the high-speed connector with the publication number of CN114914761B as an example, in order to solve the problem that the shielding shell on the high-speed connector is easy to fall off in the long-time plugging process, the whole shielding shell is detachably arranged on the connector body, various holes are formed in the shielding shell for installing a dustproof structure and moving the dustproof structure, and the structure is provided with excessive holes for influencing the use effect of the shielding shell.

Disclosure of Invention

Based on this, it is necessary to provide a high-speed connector with a half-wrapped shielding plate structure, which has regular overall shape, is easy to store and install, is more convenient to use, and is also more rapid to disassemble and assemble the shielding shell.

The invention provides a high-speed connector with a half-wrapped shielding plate structure, which comprises:

a connector body;

the shielding shell is sleeved on the connector body, an arc shielding plate structure is arranged on the tail end of the shielding shell, and inserting ports are formed in two opposite side surfaces of the head end of the shielding shell;

the rectangular shielding plate is arranged on the butt joint piece of the connector body, and is clamped in the plug-in port after the connector body is correspondingly plugged with the butt joint piece;

the movable limiting piece is movably installed in the connector body, the tail end of the movable limiting piece extends to the outside of the tail end of the connector body, the head end of the movable limiting piece extends to the position, corresponding to the arc-shaped shielding plate, on the connector body, when the tail end of the movable limiting piece is pushed, the head end of the movable limiting piece can be clamped into the arc-shaped shielding plate, and the fixing of the shielding shell is completed.

In one embodiment, the two sides of the head end of the movable limiting member are connected with adjusting members, the adjusting members penetrate through the shielding shell, when the tail end of the movable limiting member is integrally clamped into the connector body, and when the head end of the movable limiting member is clamped into the arc-shaped shielding plate, the head end of the movable limiting member can be separated from the arc-shaped shielding plate by stirring the adjusting members, and the tail end of the movable limiting member is separated from the connector body.

In one embodiment, a connector insert is mounted in the connector body, the connector insert is used for being connected with the butting piece, and when the connector insert is connected with the butting piece, the rectangular shielding plate is clamped in the inserting port.

In one embodiment, the upper surface of the tail end of the connector body is provided with two first mounting grooves, the end parts of the first mounting grooves penetrate through the side surfaces of the tail end of the connector body, the tail end of the connector body is provided with a second mounting groove, the second mounting groove is connected with the two first mounting grooves through a first connecting channel and a second connecting channel respectively, and the first connecting channel and the second connecting channel are bent.

In one embodiment, the movable limiting piece comprises two arc-shaped top plates, a first movable plate and a second movable plate; the arc roof activity joint is in the first mounting groove, just the arc top of arc roof with the arc shield plate is relative, first fly leaf with the equal movable mounting of one end of second fly leaf is in the second mounting groove, the other end activity of first fly leaf is pegged graft first connecting channel, and with one arc roof is connected, the other end activity of second fly leaf is pegged graft second connecting channel, and with another arc roof is connected.

In one embodiment, the second mounting groove is further inserted with a positioning block, one end of the positioning block is respectively connected with the first movable plate and the second movable plate, the other end of the positioning block is located at the outer side of the second mounting groove, when the positioning block is integrally inserted into the second mounting groove, the top ends of the two arc-shaped top plates are abutted to the arc-shaped shielding plates, and the bottom ends of the two arc-shaped top plates are still located in the first mounting groove.

In one embodiment, one end of the positioning block has a thickness smaller than the depth of the second mounting groove, and the other end of the positioning block has a thickness larger than the depth of the second mounting groove.

In one embodiment, the first movable plate and the second movable plate are made of a ductile metal plate, and the first movable plate and the second movable plate are capable of deforming with bending of the first connection channel and the second connection channel and capable of being restored to a rectangular flat plate when being separated from the first connection channel and the second connection channel.

In one embodiment, the positioning block is made of elastic material, and the positioning block can deform under the action of external force.

In one embodiment, the adjusting member is located at a clamping interface formed in a side surface of the shielding shell on a side surface of the connector body, and two ends of the adjusting member are bent and connected with two side ends of the arc-shaped top plate respectively.

The connector body and the corresponding butt joint piece are a group of high-speed connector plug connectors, the shielding shell is sleeved on the connector body for shielding, dust possibly enters the connector body when the connector is not used and is not easy to clean, the side face of the shielding shell is provided with the plug connector for exposing the layout in the connector, and after the connector body is connected with the butt joint piece, the rectangular shielding plate on the butt joint piece can be just clamped in the plug connector on the side face of the shielding shell, and the rectangular shielding plate and the connector body are combined to form a finished shielding structure. When the shield shell is installed, the movable limiting piece is positioned at the tail end of the connector body except the tail end, the rest parts are positioned in the connector body, and when the shield shell is integrally sleeved on the connector body, the tail end of the movable limiting piece is pushed so that the tail end of the movable limiting piece is inserted into the connector body, and the head end of the movable limiting piece is abutted on the arc-shaped shield plate, so that the fixation of the shield shell is completed, and when the movable limiting piece is used for completing the fixation of the shield shell, the connector is easy to store and install in the whole shape rule, is more convenient to use, and is also quicker to disassemble and assemble the shield shell.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a high-speed connector according to the present invention;

FIG. 2 is a schematic view of a high-speed connector according to the present invention;

fig. 3 is a schematic structural view of a connector body according to the present invention;

FIG. 4 is a schematic view of a movable limiting member according to the present invention;

fig. 5 is a schematic structural view of a shielding shell provided by the invention;

fig. 6 is a schematic view of an application scenario of the movable limiting member provided by the present invention;

fig. 7 is a schematic view of an application scenario of a positioning block provided by the present invention;

fig. 8 is an assembly schematic diagram of a shielding shell and a rectangular shielding plate provided by the invention.

Reference numerals:

110. a connector body; 111. a first mounting groove; 112. a second mounting groove; 113. a first connection channel; 114. a second connection channel; 120. a connector insert; 210. a shield case; 211. an interface; 212. a card interface; 220. an arc-shaped shielding plate; 300. a rectangular shielding plate; 400. a movable limiting piece; 410. an arc-shaped top plate; 420. a first movable plate; 430. a second movable plate; 440. a positioning block; 500. an adjusting member.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The high-speed connector of the half-wrapped shield structure of the present invention is described below with reference to fig. 1 to 8.

In one embodiment, a high-speed connector of a half-wrapped shield structure includes a connector body 110, a shield shell 210, a rectangular shield plate 300, and a movable stop 400; the shielding shell 210 is sleeved on the connector body 110, an arc shielding plate 220 structure is arranged on the tail end of the shielding shell 210, and the opposite two side surfaces of the head end of the shielding shell 210 are provided with inserting ports 211; the rectangular shielding plate 300 is mounted on the butt joint part of the connector body 110, and after the connector body 110 is correspondingly spliced with the butt joint part, the rectangular shielding plate 300 is clamped in the splicing opening 211; the movable limiting piece 400 is movably mounted in the connector body 110, the tail end of the movable limiting piece 400 extends to the outside of the tail end of the connector body 110, the head end of the movable limiting piece 400 extends to the position corresponding to the arc-shaped shielding plate 220 on the connector body 110, and when the tail end of the movable limiting piece 400 is pushed, the head end of the movable limiting piece 400 can be clamped into the arc-shaped shielding plate 220, so that the shielding shell 210 is fixed.

The connector body 110 and the corresponding butt-joint piece are a group of high-speed connector plug connectors, the shielding shell 210 is sleeved on the connector body 110 for shielding, and dust possibly enters the connector body 110 and is not easy to clean when the connector is not used, so that the side surface of the shielding shell 210 is provided with the plug connector 211 for exposing the layout in the connector, and after the connector body 110 is connected with the butt-joint piece, the rectangular shielding plate 300 on the butt-joint piece can be just clamped in the plug connector 211 on the side surface of the shielding shell 210, and the rectangular shielding plate 300 and the plug connector 211 are combined to form a finished shielding structure. When the shield shell 210 is installed, the movable limiting piece 400 is positioned in the connector body 110 except the tail end of the connector body 110, the rest parts are positioned in the connector body 110, and when the shield shell 210 is integrally sleeved on the connector body 110, the tail end of the movable limiting piece 400 is pushed so that the tail end of the movable limiting piece 400 is inserted into the connector body 110, and the head end of the movable limiting piece 400 is abutted on the arc-shaped shielding plate 220, so that the fixation of the shield shell 210 is completed, and when the movable limiting piece 400 is used for completing the fixation of the shield shell 210, the whole connector is regular in shape, easy to store and install, more convenient to use and quicker to disassemble and assemble the shield shell 210.

In one embodiment, the two sides of the head end of the movable limiting member 400 are connected with the adjusting member 500, the adjusting member 500 penetrates through the shielding shell 210, and when the tail end of the movable limiting member 400 is integrally clamped into the connector body 110 and the head end of the movable limiting member 400 is clamped into the arc shielding plate 220, the head end of the movable limiting member 400 can be separated from the arc shielding plate 220 by pulling the adjusting member 500, and the tail end of the movable limiting member 400 can be separated from the connector body 110.

In order to enable the shielding shell 210 to be sleeved on the connector body 110, the connector body 110 can keep a regular shape, so that the connector body 110 is easy to store and install, the tail end of the movable limiting piece 400 can be inserted into the connector body 110 in use, so that the movable limiting piece 400 cannot be removed again when the shielding shell 210 is removed, in order to enable the movable limiting piece 400 to be removed, the head end of the movable limiting piece 400 is provided with the connecting adjusting piece 500, and the head end of the movable limiting piece 400 only moves up and down, so that the adjusting piece 500 only needs to move up and down, the adjusting piece 500 cannot protrude out of the surface of the connector body 110 in the use process, and the shape of the connector body 110 can still be kept regular.

In one embodiment, the connector body 110 has a connector insert 120 mounted therein, the connector insert 120 is configured to connect with a mating member, and when the connector insert 120 is connected with the mating member, the rectangular shielding plate 300 is snapped into the mating port 211.

The connector insert 120 is a device for the transmission of electrical signals or data signals, and in use there will be an electrical component within the docking station similar to the connector insert 120 for connection to the connector insert 120.

In one embodiment, two first mounting grooves 111 are formed on the upper surface of the tail end of the connector body 110, and the end portions of the first mounting grooves 111 penetrate through the side surface of the tail end of the connector body 110, and a second mounting groove 112 is formed on the tail end of the connector body 110, wherein the second mounting groove 112 is connected with the two first mounting grooves 111 through a first connecting channel 113 and a second connecting channel 114, and the first connecting channel 113 and the second connecting channel 114 are arranged in a bending manner.

For stable mounting of the shield case 210, two first mounting grooves 111 are also formed on the lower surface of the rear end of the connector body 110, and a second mounting groove 112 is also formed on the lower half of the rear end of the connector body 110, and the second mounting groove 112 is also connected to the two first mounting grooves 111 of the lower surface of the rear end of the connector body 110 through a first connection channel 113 and a second connection channel 114, respectively. The upper and lower halves of the connector body 110 are symmetrically disposed, so that the two sets of movable stoppers 400 fix the upper and lower surfaces of the shield case 210, respectively, in use.

In one embodiment, the movable stopper 400 includes two arc-shaped top plates 410, a first movable plate 420, and a second movable plate 430; the arc-shaped top plate 410 is movably clamped in the first mounting groove 111, the arc top of the arc-shaped top plate 410 is opposite to the arc-shaped shielding plate 220, one ends of the first movable plate 420 and the second movable plate 430 are movably mounted in the second mounting groove 112, the other end of the first movable plate 420 is movably inserted into the first connecting channel 113 and connected with one arc-shaped top plate 410, and the other end of the second movable plate 430 is movably inserted into the second connecting channel 114 and connected with the other arc-shaped top plate 410.

The arc-shaped top plate 410 is composed of a semi-circular plate and two flat plates, the two flat plates are arranged in parallel and connected to two ends of the semi-circular plate, the maximum distance of the two flat plates is slightly smaller than the width of the first mounting groove 111, and when one end of each flat plate is abutted to the bottom surface of the first mounting groove 111, the top end of the semi-circular plate and the opening of the first mounting groove 111 are located on the same plane. Besides, the second mounting groove 112 is inserted with a positioning block 440, one end of the positioning block 440 is connected with the first movable plate 420 and the second movable plate 430, the other end of the positioning block 440 is located outside the second mounting groove 112, when the positioning block 440 is integrally inserted into the second mounting groove 112, the top ends of the two arc-shaped top plates 410 are abutted with the arc-shaped shielding plate 220, and the bottom ends of the two arc-shaped top plates 410 are still located in the first mounting groove 111.

In one embodiment, one end of the positioning block 440 has a thickness less than the depth of the second mounting groove 112, and the other end of the positioning block 440 has a thickness greater than the depth of the second mounting groove 112. The positioning block 440 is made of elastic material, and the positioning block 440 can deform under the action of external force.

The tangent plane of locating piece 440 is the trapezium structure setting, and this trapezium structure's topside is towards second mounting groove 112, and preferably, the thickness of locating piece 440 towards the one side of second mounting groove 112 is slightly less than the degree of depth of second mounting groove 112, and this structure setting can be convenient for the initial propulsion of locating piece 440 for locating piece 440 can block into second mounting groove 112 smoothly, prevents to block.

In one embodiment, the first and second movable plates 420 and 430 are made of a metal plate having toughness, and the first and second movable plates 420 and 430 can be deformed with the bending of the first and second connection passages 113 and 114 and can be restored to a rectangular flat plate when they are separated from the first and second connection passages 113 and 114.

The flexible metal plate may be an elastic steel plate, or a rigid plastic plate with toughness may be used, where the flexible metal plate can ensure structural stability of the metal plate in the process of moving in the connection channel, and can ensure that the arc-shaped top plate 410 is pushed to abut against the arc-shaped shielding plate 220. The cost and the material weight of the plastic plate are lower, and the first mounting groove 111, the first connecting channel 113 and the second connecting channel 114 are not damaged in the bending process of the plastic plate.

In one embodiment, the adjusting member 500 is located at the card interface 212 formed on the side of the shielding shell 210 on the side of the connector body 110, and two ends of the adjusting member 500 are bent and connected to the side ends of the two arc-shaped top plates 410, respectively.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (7)

1. A high-speed connector of a semi-wrapped shield structure, comprising:

a connector body;

the shielding shell is sleeved on the connector body, an arc shielding plate structure is arranged on the tail end of the shielding shell, and inserting ports are formed in two opposite side surfaces of the head end of the shielding shell;

the rectangular shielding plate is arranged on the butt joint piece of the connector body, and is clamped in the plug-in port after the connector body is correspondingly plugged with the butt joint piece;

the movable limiting piece is movably arranged in the connector body, the tail end of the movable limiting piece extends to the outside of the tail end of the connector body, the head end of the movable limiting piece extends to the position, corresponding to the arc-shaped shielding plate, on the connector body, when the tail end of the movable limiting piece is pushed, the head end of the movable limiting piece can be clamped into the arc-shaped shielding plate, and the fixing of the shielding shell is completed;

the two sides of the head end of the movable limiting piece are connected with adjusting pieces, the adjusting pieces penetrate through the shielding shell, when the tail end of the movable limiting piece is integrally clamped into the connector body and the head end of the movable limiting piece is clamped into the arc-shaped shielding plate, the head end of the movable limiting piece can be separated from the arc-shaped shielding plate by stirring the adjusting pieces, and the tail end of the movable limiting piece is separated from the connector body;

two first mounting grooves are formed in the upper surface of the tail end of the connector body, the end parts of the first mounting grooves penetrate through the side face of the tail end of the connector body, a second mounting groove is formed in the tail end of the connector body, the second mounting groove is connected with the two first mounting grooves through a first connecting channel and a second connecting channel respectively, and the first connecting channel and the second connecting channel are bent;

the movable limiting piece comprises two arc-shaped top plates, a first movable plate and a second movable plate; the arc roof activity joint is in the first mounting groove, just the arc top of arc roof with the arc shield plate is relative, first fly leaf with the equal movable mounting of one end of second fly leaf is in the second mounting groove, the other end activity of first fly leaf is pegged graft first connecting channel, and with one arc roof is connected, the other end activity of second fly leaf is pegged graft second connecting channel, and with another arc roof is connected.

2. The high-speed connector of half-wrapped shield structure according to claim 1, wherein a connector insert is mounted in the connector body, the connector insert being adapted to be connected to the mating member, the rectangular shield plate being snapped into the mating opening when the connector insert is connected to the mating member.

3. The high-speed connector with the semi-wrapped shielding plate structure according to claim 2, wherein a positioning block is inserted in the second mounting groove, one end of the positioning block is respectively connected with the first movable plate and the second movable plate, the other end of the positioning block is located outside the second mounting groove, when the positioning block is integrally inserted into the second mounting groove, the top ends of the two arc-shaped top plates are abutted to the arc-shaped shielding plates, and the bottom ends of the two arc-shaped top plates are still located in the first mounting groove.

4. A half-wrapped shield structure high-speed connector according to claim 3, wherein one end of the locating block has a thickness less than the depth of the second mounting groove and the other end of the locating block has a thickness greater than the depth of the second mounting groove.

5. The high-speed connector of half-wrapped shield structure according to claim 4, wherein the first and second movable plates are made of ductile metal plates, the first and second movable plates being deformable with bending of the first and second connection channels and being capable of reverting to rectangular plates upon disengagement of the first and second connection channels.

6. The high-speed connector of half-wrapped shield structure according to claim 5, wherein the positioning block is made of an elastic material, and the positioning block can deform under the action of external force.

7. The high-speed connector of semi-wrapped shield structure according to claim 6, wherein the adjusting member is located at a clamping interface formed in the side surface of the shield shell on the side surface of the connector body, and two ends of the adjusting member are bent and connected with two side ends of the arc-shaped top plate respectively.