CN114899635B - Electronic product interface protector - Google Patents

Abstract

The invention discloses an electronic product interface protection device, which comprises an interface seat and a socket seat, wherein the interface seat also comprises an interface slot and a plurality of contact wafers on the inner wall of the interface slot, the socket seat also comprises a plurality of fixedly installed contact columns, the contact wafers and the contact columns are distributed in an equal rectangular array, the distance between two adjacent contact wafers is larger than the diameter of the contact wafers, the distance between the outermost contact wafer and the inner wall of the interface slot is larger than the diameter of the contact wafer, the interface seat is in limited sliding connection with a partition plate towards the outer wall of the socket seat, positioning holes which are distributed in an equal matrix with the contact columns penetrate through the outer wall of the partition plate, the invention can switch the butt joint state between the contact wafers and the contact wafers, and can also ensure that the socket seat is always connected with the socket seat to prevent the socket seat from being incapable of resetting after being pulled out, and the stability of the contact column and the contact wafer in two switching states can be ensured.

Description

Electronic product interface protector

Technical Field

The invention relates to the technical field of electronic product interfaces, in particular to an electronic product interface protection device.

Background

With the rapid development of semiconductors and integrated circuits, electronic products are also more and more intelligent and precise, and data lines with interfaces are required to be used for data transmission and charging of the electronic products.

The interfaces of the existing electronic products are all installed in a plug-in mode so as to be convenient for quick installation and disassembly, but in use, particularly under the condition of multiple interfaces of large-scale equipment, the plug-in chaos is easily caused by reciprocating plug-in and pull-out, or the interface ends are in butt joint error, so that data cannot be transmitted between the two electronic products.

Disclosure of Invention

The invention aims to provide an electronic product interface protection device which can switch the butt joint state between a contact column and a contact wafer, can enable a socket seat to be always connected with the interface seat, prevents the socket seat from being incapable of resetting after being pulled out, can ensure the stability of the contact column and the contact wafer in two switching states, and solves the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the interface protection device for the electronic product comprises an interface seat and a socket seat, wherein the interface seat further comprises an interface groove and a plurality of contact wafers on the inner wall of the interface groove, the socket seat further comprises a plurality of fixedly installed contact columns, the contact wafers and the contact columns are distributed in an identical rectangular array, the distance between every two adjacent contact wafers is larger than the diameter of each contact wafer, and the distance between the outermost contact wafer and the inner wall of the interface groove is larger than the diameter of each contact wafer.

The connector comprises an interface seat and a switching assembly, wherein the interface seat is connected with a partition plate in a limiting and sliding manner towards the outer wall of the interface seat, the outer wall of the partition plate is provided with positioning holes which are distributed in a matrix manner and are identical to those of contact columns in a penetrating manner, the switching assembly is used for controlling the partition plate to be connected with the outer wall of the interface seat in a limiting and sliding manner, the contact columns are electrically butted with contact wafers through being inserted into the positioning holes, and when the partition plate slides, the contact columns and the contact wafers are staggered to suspend butting.

Preferably, the switching subassembly includes that two set up the switching groove on the outer wall of interface seat both sides, the middle part in switching groove is the bellied point portion that makes progress, point portion includes two slope sections, is located point portion both sides the interior bottom in switching groove is the horizontal segment, the equal fixed mounting of the outer wall of baffle both sides has the mounting panel, two the equal fixed mounting of mounting panel opposite face has the attenuator of sliding connection in switching inslot portion, the attenuator gets into in the horizontal segment can be by spacing locking, works as when the attenuator is located one of them horizontal segment, contact post and contact disk butt joint, work as when the attenuator crosses point portion and shifts to another horizontal segment, the gliding distance of baffle can make contact post crisscross with the contact disk.

Preferably, the attenuator includes the damping container of fixed mounting on the outer wall of mounting panel, damping container inner wall sliding connection has first drive lever, fixed mounting has first spring between the outer wall of the interior bottom of damping container and first drive lever, the tip that first spring was kept away from to first drive lever rotates and is connected with and switches inslot bottom sliding connection's transmission voussoir, just the bottom of transmission voussoir be provided with can with the mutual gliding inclined plane of slope section outer wall.

Preferably, the outer walls of the two sides of the interface seat are both provided with first sliding grooves, the starting ends and the tail ends of the first sliding grooves are both open, and first sliding blocks in sliding connection with the first sliding grooves are fixedly connected to the outer wall between the opposite surfaces of the mounting plate.

Preferably, the switching assembly comprises a second transmission rod rotatably connected to the outer wall of the interface seat through a pin shaft, a mounting cylinder is fixedly mounted inside the partition plate and perpendicular to the sliding direction of the partition plate, a sliding rod is slidably mounted on the inner wall of the mounting cylinder, a second spring is fixedly mounted between the inside of the mounting cylinder and the end part of the sliding rod, the end part, far away from the pin shaft, of the second transmission rod is hinged to the end part of the sliding rod, the second spring is always kept in a compressed state, the second transmission rod and the mounting cylinder are in an intersected state, and the switching assembly further comprises a limiting groove used for limiting the stroke of the partition plate, so that the partition plate is kept static under the release of potential energy of the second spring.

Preferably, the limiting groove comprises a plurality of second sliding grooves formed in the top of the interface seat, a second sliding block is connected to the inner wall of each second sliding groove in a limiting sliding mode, the second sliding block is fixedly connected with the outer wall of the partition plate, when the contact column is correctly abutted to the contact wafer, the second sliding block is located at one end of the inner wall of each second sliding groove and keeps abutting against the inner wall of the second sliding block, the partition plate is limited, and when the contact column is misaligned with the contact wafer, the second sliding block can move to the other end of the second sliding groove and keeps abutting against the inner portion of the second sliding groove.

Preferably, the outer wall of the opposite surface of the partition plate and the interface seat is rectangular with equal width, the length of the partition plate is greater than that of the interface seat, the redundant length of the partition plate is greater than twice of the diameter of the contact wafer, when the contact column is in butt joint with the contact wafer, the partition plate and the interface seat are in a central symmetrical state, and the outer wall of the partition plate can form a closed joint with the interface seat.

Preferably, a thin plate is laid on the outer wall, close to the socket seat, of the partition plate, a plurality of mounting holes are distributed in the thin plate, the distribution mode of the plurality of mounting holes is equal to that of the plurality of contact columns, each mounting hole is formed by a plurality of fan-shaped rubber pads, and the contact columns can break through the plurality of rubber pads and enter the positioning holes.

Preferably, the diameter of the mounting hole is larger than that of the contact column, and the plurality of rubber pads can seal the mounting hole.

Compared with the prior art, the invention has the following beneficial effects:

when the connector is used, the interface seat is in a state of being fixedly installed on the terminal equipment, the socket seat can only be in butt joint with the interface seat actively, the contact columns are inserted into the positioning holes, the socket seat is matched with the partition plate, guidance is provided for the contact columns, the contact columns can be ensured to be in one-to-one correspondence with the positioning holes, the socket seat and the interface seat can form data connection lines, and data transmission can be achieved between the two electronic equipment.

When the connector is not needed to be used, when the butt joint between the socket seat and the interface seat is stopped, the connector does not need to be pulled out, the partition plate slides on the interface seat only through the switching assembly, so that the socket seat is driven to slide relative to the interface seat, a staggered state in staggered distribution is formed between the contact wafers and the contact columns, the connection between the interface seat and the socket seat is disconnected, the socket seat can always keep the connection state with the interface seat, but the contact columns and the contact wafers are in the staggered state, the butt joint between the contact columns and the contact wafers is suspended, when the connector is needed to be used again, the partition plate is reset, the staggered state between the contact wafers and the contact columns is relieved, and the contact columns and the contact wafers work normally.

Drawings

FIG. 1 is a schematic structural diagram of a first embodiment of a switching element according to the present invention;

FIG. 2 is a schematic right side view of the FIG. 1 assembly of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 4 is a schematic diagram of a three-dimensional structure according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 4 at B;

FIG. 6 is a schematic cross-sectional view taken along line C-C of FIG. 3 illustrating the present invention;

FIG. 7 is a schematic structural diagram of a second embodiment of the present invention including a switching element;

FIG. 8 is an enlarged view of FIG. 7 at D in accordance with the present invention;

FIG. 9 is an enlarged view of E of FIG. 7 according to the present invention.

In the figure: 1. an interface seat; 2. a socket base; 3. a contact post; 4. contacting the wafer; 5. a partition plate; 6. positioning holes; 7. a thin plate; 8. mounting holes; 9. an interface slot; 10. mounting a plate; 11. a first slider; 12. a first chute; 13. a damping container; 14. a first spring; 15. a first drive lever; 16. a driving wedge block; 17. switching a slot; 18. a second transmission rod; 19. a second chute; 20. mounting the cylinder; 21. a slide bar; 22. and a second slider.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 9, the present invention provides a technical solution: the utility model provides an electronic product interface protector, includes interface seat 1 and socket 2, and interface seat 1 still includes a plurality of contact disk 4 on interface slot 9 and its inner wall, and socket 2 still includes a plurality of fixed mounting's contact post 3.

The contact wafers 4 and the contact columns 3 are distributed in an identical rectangular array, the distance between every two adjacent contact wafers 4 is larger than the diameter of each contact wafer 4, and the distance between the outermost contact wafer 4 and the inner wall of the interface slot 9 is larger than the diameter of each contact wafer 4.

Interface seat 1 has baffle 5 towards the spacing sliding connection of the outer wall of socket 2, runs through on the outer wall of baffle 5 and sets up the locating hole 6 with the equal matrix distribution of contact post 3, still includes the switching component of the spacing sliding connection of control baffle 5 on the outer wall of interface seat 1, and contact post 3 is through inserting locating hole 6 and contact disk 4 electrical property butt joint, and when baffle 5 slided, makes a plurality of contact posts 3 crisscross with contact disk 4, pauses the butt joint.

When a large-sized electronic product is used, when the number of interfaces is large and the wire harnesses are wound together, the connection error is easily caused by the butt joint dislocation when the wire harnesses are butted again, so that the butt joint error needs to be prevented.

When the connector base is used, the connector base 1 is fixedly mounted on the terminal equipment, so that the socket base 2 can be only actively butted with the connector base 1, the contact columns 3 are inserted into the positioning holes 6, the socket base 2 is matched with the partition plate 5, guidance is provided for the contact columns 3, the contact columns 3 can be ensured to be in one-to-one correspondence with the positioning holes 6, the socket base 2 and the connector base 1 can form data connecting lines, and data transmission can be achieved between two pieces of electronic equipment.

When the connector is not used, when the butt joint between the socket 2 and the interface seat 1 is stopped, the connector does not need to be pulled out, and only the switching assembly is needed, so that the partition plate 5 slides on the interface seat 1, the socket 2 is driven to slide relative to the interface seat 1, staggered states are formed between the contact wafers 4 and the contact columns 3, the connection between the interface seat 1 and the socket 2 is disconnected, the socket 2 can be always in a connection state with the interface seat 1, but the contact columns 3 and the contact wafers 4 are in a staggered state, the butt joint between the contact columns 3 and the contact wafers 4 is suspended, and when the connector is used again, the partition plate 5 is reset, the staggered states between the contact wafers 4 and the contact columns 3 are released, and the contact columns 3 and the contact wafers 4 work normally.

Secondly, through setting up locating hole 6, the socket 2 also can accomplish easily and break away from with baffle 5, and then breaks away from with interface seat 1, can not interfere normal plug retry.

Therefore, the invention can switch the butt joint state between the contact column 3 and the contact wafer 4, and can ensure that the socket 2 is always connected with the socket 1, thereby preventing the socket 2 from being incapable of resetting after being pulled out.

Two of the more preferred embodiments of the switching assembly.

The first embodiment:

the switching module includes that two set up the switching groove 17 on the outer wall of 1 both sides of interface pedestal, the middle part that switches over groove 17 is the bellied point portion that makes progress, point portion includes two slope sections, the interior bottom that is located point portion both sides switching groove 17 is the horizontal segment, the equal fixed mounting of the outer wall of 5 both sides of baffle has mounting panel 10, the equal fixed mounting of two mounting panel 10 opposite faces has the attenuator of sliding connection inside switching groove 17, the attenuator gets into in the horizontal segment can be by spacing locking, when the attenuator is located one of them horizontal segment, contact post 3 docks with contact disk 4, when the attenuator crosses point portion and shifts to another horizontal segment, the gliding distance of baffle 5 can make contact post 3 crisscross with contact disk 4.

As shown in fig. 6, the switching groove 17 is composed of two inclined sections and two horizontal sections, and by providing the damper, when the partition plate 5 and the damper enter from one of the horizontal sections to the other, the partition plate 5 needs to be turned over by one of the inclined sections, so that the sliding of the partition plate 5 requires an external force to shift the damper, and the contact column 3 and the contact wafer 4 can be dislocated.

On the basis of the first embodiment, the damper comprises a damping container 13 fixedly installed on the outer wall of the installation plate 10, a first transmission rod 15 is connected to the inner wall of the damping container 13 in a sliding mode, a first spring 14 is fixedly installed between the inner bottom of the damping container 13 and the outer wall of the first transmission rod 15, a transmission wedge 16 which is connected with the inner bottom of the switching groove 17 in a sliding mode is rotatably connected to the end portion, far away from the first spring 14, of the first transmission rod 15, and an inclined surface capable of sliding with the outer wall of the inclined section is arranged at the bottom of the transmission wedge 16.

This is a preferred embodiment of the damper, when the driving wedge 16 is located at one of the horizontal sections, the driving wedge 16 can break through the deformation limit of the first spring 14 with the assistance of external force due to the limit of the inclined section to the driving wedge 16 and the damping of the driving wedge 16 by the first spring 14.

Therefore, when the transmission wedge 16 is located at one of the horizontal sections, the stability of the sliding connection between the partition plate 5 and the interface seat 1 can be ensured, no deviation occurs, the butt joint state between the contact wafer 4 and the contact column 3 is maintained, and when the transmission wedge is not needed to be used, the mistaken contact between the contact wafer 4 and the contact column 3 can be prevented, and the normal work is influenced.

On the basis of the first embodiment, the outer walls of the two sides of the interface seat 1 are both provided with first sliding grooves 12, the starting ends and the tail ends of the first sliding grooves 12 are both in an open type, and the outer wall between the opposite surfaces of the mounting plate 10 is fixedly connected with first sliding blocks 11 which are in sliding connection with the first sliding grooves 12.

As shown in fig. 4, the first sliding groove 12 has openings at both ends, which facilitates the installation of the partition plate 5 on the mouthpiece 1, and at the same time, the partition plate 5 can also form the installation guide for the damper by communicating the first sliding groove 12 with the switching groove 17, so as to easily place the damper inside the switching groove 17.

Second embodiment:

the switching assembly comprises a second transmission rod 18 which is rotatably connected to the outer wall of the interface seat 1 through a pin shaft, a mounting barrel 20 which is perpendicular to the sliding direction of the partition plate 5 is fixedly mounted inside the partition plate 5, a sliding rod 21 is mounted on the inner wall of the mounting barrel 20 in a sliding manner, a second spring is fixedly mounted between the inside of the mounting barrel 20 and the end part of the sliding rod 21, the end part, far away from the pin shaft, of the second transmission rod 18 is hinged to the end part of the sliding rod 21, the second spring is always kept in a compressed state, the second transmission rod 18 and the mounting barrel 20 are in an intersected state, and the switching assembly further comprises a limiting groove used for limiting the stroke of the partition plate 5, so that the partition plate 5 is kept static under the release of potential energy of the second spring.

As shown in fig. 7 to 9, by providing the second transmission rod 18 on the interface seat 1 and providing the mounting tube 20, the sliding rod 21 and the second spring on the partition plate 5, when the partition plate 5 slides, the second transmission rod 18 needs to rotate and the second spring needs to be compressed continuously, so that when the limit groove limits the stroke of the partition plate 5, the potential energy released by the second spring can keep the partition plate 5 in a locked stationary state all the time, and the stability of the butt joint of the contact wafer 4 and the contact column 3 is ensured.

On the basis of the second embodiment, the limiting groove comprises a plurality of second sliding grooves 19 formed in the top of the interface seat 1, second sliding blocks 22 are connected to the inner walls of the second sliding grooves 19 in a limiting sliding mode, the second sliding blocks 22 are fixedly connected with the outer walls of the partition plates 5, when the contact columns 3 are correctly butted with the contact wafers 4, the second sliding blocks 22 are located at one ends of the inner walls of the second sliding grooves 19 and keep contact with the inner walls of the second sliding blocks 22, the partition plates 5 are limited, and when the contact columns 3 are dislocated with the contact wafers 4, the second sliding blocks 22 can move to the other ends of the second sliding grooves 19 and keep contact with the inner portions of the second sliding grooves.

The second sliding block 22 is in limited sliding connection with the inside of the second sliding groove 19, so that the partition plate 5 can always keep a sliding connection relation with the interface seat 1, after the contact wafer 4 is in butt joint with the contact column 3, the second sliding block 22 can always abut against the inner wall of the second sliding groove 19 through deformation potential energy released by the second spring, stable butt joint of the contact wafer 4 and the contact column 3 is guaranteed, secondly, when the error state needs to be transferred, the partition plate 5 slides through external force, the second transmission rod 18 crosses the horizontal state from the intersecting state and transfers the horizontal state to the intersecting state again, after the process is finished, the second spring is still in a compression state, the partition plate 5 after sliding can be limited, and the second sliding block 22 can abut against the inner wall of the second sliding groove 19, so that the partition plate 5 is prevented from sliding.

Further, the outer wall of the opposite surface of the partition plate 5 and the interface seat 1 is rectangular with the same width, the length of the partition plate 5 is larger than that of the interface seat 1, the redundant length of the partition plate 5 is larger than twice of the diameter of the contact wafer 4, when the contact column 3 is in butt joint with the contact wafer 4, the partition plate 5 and the interface seat 1 are in a centered symmetrical state, and the outer wall of the partition plate 5 can seal the interface slot 9.

In present interface product, the majority is difficult to seal socket 2, the majority is uncovered formula, consequently, there are dust or other debris very easily in the inside of interface groove 9, lead to the contact failure between contact disk 4 and the contact post 3, through installation baffle 5, can make it seal interface groove 9, guarantee the use that the contact post 3 of interface groove 9 inside can be normal, also can prevent humid gas's entering, guarantee inside service environment, secondly, owing to set up baffle 5, make baffle 5 can also guarantee the closure to interface groove 9 when gliding, can not interfere the sealed of interface groove 9 because of the factor of switching.

Furthermore, a thin plate 7 is laid on the outer wall, close to the socket base 2, of the partition plate 5, a plurality of mounting holes 8 are distributed in the thin plate 7, the distribution mode of the mounting holes 8 is identical to that of the contact columns 3, the mounting holes 8 are formed by a plurality of fan-shaped rubber pads, and the contact columns 3 can break through the rubber pads to enter the positioning holes 6.

Through setting up a plurality of mounting holes 8, can form certain stopping and limiting displacement to contact disk 4, prevent that contact disk 4 from rocking at will, and a plurality of mounting holes 8 can form sealedly to locating hole 6 on the baffle 5, and the diameter of mounting hole 8 is greater than the diameter of contact post 3, and mounting hole 8 can be sealed to a plurality of rubber pads.

In summary, the docking state between the contact posts 3 and the contact wafer 4 can be switched, the socket 2 can be always connected to the socket 1, the socket 2 is prevented from being unable to reset after being pulled out, and the stability of the contact posts 3 and the contact wafer 4 in the two switching states can be ensured.

The standard parts used in the present embodiment may be purchased directly from the market, and the non-standard structural components described in the specification and drawings may be obtained by processing without any doubt according to the common general knowledge in the art, and the connection manner of the respective parts is by the conventional means developed in the art, and the machines, parts and equipment are of the conventional type in the art, so that the detailed description thereof is omitted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an electronic product interface protector, includes interface seat (1) and socket (2), interface seat (1) still includes interface slot (9) and a plurality of contact disk (4) on the inner wall thereof, socket (2) still includes a plurality of fixed mounting's contact post (3), its characterized in that: the contact wafers (4) and the contact columns (3) are distributed in an identical rectangular array, the distance between every two adjacent contact wafers (4) is greater than the diameter of each contact wafer (4), and the distance between the outermost contact wafer (4) and the inner wall of the interface groove (9) is greater than the diameter of each contact wafer (4);

the connector seat is characterized in that a partition plate (5) is connected to the outer wall of the connector seat (1) facing the socket seat (2) in a limiting sliding mode, positioning holes (6) which are distributed in a matrix identical to the contact columns (3) penetrate through the outer wall of the partition plate (5), the connector seat further comprises a switching assembly which controls the partition plate (5) to be connected to the outer wall of the connector seat (1) in a limiting sliding mode, the contact columns (3) are in electric butt joint with contact wafers (4) through inserting the positioning holes (6), and when the partition plate (5) slides, the contact columns (3) and the contact wafers (4) are staggered and are temporarily stopped in butt joint.

2. The electronic product interface guard of claim 1, wherein: the switching component comprises two switching grooves (17) arranged on the outer walls of the two sides of the interface seat (1), the middle part of the switching groove (17) is an upward convex tip part, the tip part comprises two inclined sections, the inner bottom of the switching groove (17) positioned at the two sides of the tip part is a horizontal section, the outer walls of the two sides of the partition board (5) are fixedly provided with mounting plates (10), the opposite surfaces of the two mounting plates (10) are fixedly provided with dampers which are connected inside the switching groove (17) in a sliding way, the dampers can be limited and locked when entering the horizontal section, when the damper is positioned at one of the horizontal sections, the contact column (3) is butted with the contact disc (4), the distance that the partition (5) slides enables the contact columns (3) to be staggered with the contact discs (4) when the damper is transferred over the tip to another horizontal section.

3. The electronic product interface guard of claim 2, wherein: the attenuator includes damping container (13) of fixed mounting on the outer wall of mounting panel (10), damping container (13) inner wall sliding connection has first transfer line (15), fixed mounting has first spring (14) between the outer wall of the interior bottom of damping container (13) and first transfer line (15), the tip that first spring (14) were kept away from in first transfer line (15) rotates and is connected with and switches groove (17) interior bottom sliding connection's transmission voussoir (16), just the bottom of transmission voussoir (16) is provided with the inclined plane that can with slope section outer wall mutual slip.

4. The electronic product interface guard of claim 2, wherein: first spout (12) have all been seted up to the outer wall of interface seat (1) both sides, first spout (12) top and end are the open type, fixedly connected with and first spout (12) sliding connection's first slider (11) on the outer wall between mounting panel (10) opposite face.

5. The electronic product interface guard of claim 1, wherein: the switching assembly comprises a second transmission rod (18) which is rotatably connected to the outer wall of the interface seat (1) through a pin shaft, an installation barrel (20) which is perpendicular to the sliding direction of the partition plate (5) is fixedly installed inside the partition plate (5), a sliding rod (21) is installed on the inner wall of the installation barrel (20) in a sliding mode, a second spring is fixedly installed between the inside of the installation barrel (20) and the end portion of the sliding rod (21), the end portion, far away from the pin shaft, of the second transmission rod (18) is hinged to the end portion of the sliding rod (21), the second spring is always kept in a compressed state, the second transmission rod (18) and the installation barrel (20) are in an intersected state, and the switching assembly further comprises a limiting groove used for limiting the stroke of the partition plate (5), so that the partition plate (5) is kept static under the release of potential energy of the second spring.

6. The electronic product interface guard of claim 5, wherein: the limiting groove comprises a plurality of second sliding grooves (19) formed in the top of the interface seat (1), the inner walls of the second sliding grooves (19) are connected with second sliding blocks (22) in a limiting sliding mode, the second sliding blocks (22) are fixedly connected with the outer walls of the partition plates (5), when the contact column (3) is correctly butted with the contact wafer (4), the second sliding blocks (22) are located at one ends of the inner walls of the second sliding grooves (19) and keep contact with the inner walls of the second sliding blocks (22) to limit the partition plates (5), and when the contact column (3) is staggered with the contact wafer (4), the second sliding blocks (22) can move to the other ends of the second sliding grooves (19) and keep contact with the inner portions of the second sliding grooves.

7. The electronic product interface guard of any of claims 1-6, wherein: the outer wall of the opposite surface of the partition plate (5) and the interface seat (1) is rectangular with the same width, the length of the partition plate (5) is larger than that of the interface seat (1), the redundant length of the partition plate (5) is larger than twice of the diameter of the contact wafer (4), when the contact column (3) is in butt joint with the contact wafer (4), the partition plate (5) and the interface seat (1) are in a centered symmetrical state, and the outer wall of the partition plate (5) can seal the interface groove (9).

8. The electronic product interface guard as in claim 7, wherein: thin plate (7) have been laid to baffle (5) outer wall near socket seat (2), it has a plurality of mounting holes (8), a plurality of to distribute on thin plate (7) the distribution mode of mounting hole (8) is equal with a plurality of contact post (3), mounting hole (8) comprise a plurality of sectorial rubber pads, contact post (3) can break through a plurality of rubber pads and get into to inside locating hole (6).

9. The electronic product interface guard of claim 8, wherein: the diameter of the mounting hole (8) is larger than that of the contact column (3), and the rubber pads can seal the mounting hole (8).

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