CN210866634U - Anti-loosening connecting assembly for computer signal transmission port - Google Patents

Abstract

The utility model discloses an anti-loosening connecting assembly for a computer signal transmission port, which comprises a computer mainboard and a signal transmission port, wherein the computer mainboard is fixed with a computer mainboard connecting block, a computer mainboard groove is formed in the computer mainboard connecting block, a USB interface is arranged in the computer mainboard groove, and a zigzag groove is formed in the computer mainboard connecting block; a signal transmission port connecting block is fixed on the signal transmission port, a signal transmission port groove is formed in the signal transmission port connecting block, and a USB plug is arranged in the signal transmission port groove; the computer mainboard connecting block is provided with a computer screw hole, the signal transmission port connecting block is provided with a signal transmission port screw hole, and the relative position of the signal transmission port screw hole and the signal transmission port screw hole is fixed through a bolt. The utility model discloses fix the USB plug for position between the USB interface of the USB plug of signal transmission port and computer motherboard keeps relatively fixed, thereby prevents that the USB plug of signal transmission port and computer motherboard's USB interface from producing not hard up.

Description

Anti-loosening connecting assembly for computer signal transmission port

Technical Field

The utility model relates to a computer technology field, in particular to locking coupling assembling that moves of computer signal transmission port.

Background

When a computer transmits data with the outside, the data is generally transmitted through a data interface. Generally, a plug of a signal transmission port and an interface of a computer motherboard are used for plug-in connection, so that two data sources can be transmitted, but when the plug of the signal transmission port is plugged into the interface of the computer motherboard, poor contact is sometimes caused by loose between the interface and the plug, so that data cannot be transmitted mutually.

In current computer interface, there are multiple type, for example VGA interface and USB interface, to the VGA interface, all fasten it through the bolt at the both ends of VGA interface at present for the VGA interface can not produce not hard up when using, but, to the USB interface, do not have any locking measure at present, just so make the USB interface lead to contact failure when not hard up with the plug easily, thereby can't carry out the transmission of data.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the problem that exists among the above-mentioned prior art, provide a locking coupling assembling of computer signal transmission port for the USB plug of signal transmission port is fixed the USB plug when inserting, makes the position between the USB plug of signal transmission port and the USB interface of computer motherboard keep relatively fixed, thereby prevents that the USB plug of signal transmission port and the USB interface of computer motherboard from producing not hard up.

Therefore, the utility model provides a locking coupling assembling of computer signal transmission port, including computer motherboard and signal transmission port, the edge of computer motherboard is fixed with the computer motherboard connecting block, computer motherboard recess has been seted up to the computer motherboard connecting block one side of keeping away from the computer motherboard, be equipped with the USB interface with computer motherboard signal connection in the computer motherboard recess, the computer motherboard connecting block one side of keeping away from the computer motherboard still sets up the shape of a circle recess that surrounds the computer motherboard recess; a signal transmission port connecting block is fixed at the edge of the signal transmission port, a signal transmission port groove is formed in one side, away from the signal transmission port, of the signal transmission port connecting block, a USB plug in signal connection with the signal transmission port is arranged in the signal transmission port groove, a distance is formed between the USB plug and the groove wall of the signal transmission port groove, and the size of the outer edge of the signal transmission port connecting block is consistent with that of the outer edge of the square-shaped groove; set up the intercommunication on the computer mainboard connecting block the computer screw of returning the shape recess, set up the intercommunication on the signal transmission port connecting block the signal transmission port screw of signal transmission port recess when the signal transmission port connecting block inserts return the shape recess, the computer screw is located same straight line with signal transmission port screw, and computer screw and signal transmission port screw pass through its relative position of bolt fastening, the external screw thread on bolt surface respectively with the internal thread on computer screw surface and the internal thread phase-match on signal transmission port screw surface.

Furthermore, a plurality of recesses are uniformly formed in the groove wall of the square-shaped groove, a plurality of protrusions matched with the recesses are formed in the outer surface of the computer mainboard connecting block, the number of the protrusions and the number of the recesses are equal, and the protrusions and the recesses are in one-to-one correspondence in position.

Further, the computer screw hole comprises an external computer screw hole positioned on the outer groove wall of the square-shaped groove and an internal computer screw hole positioned on the inner groove wall of the square-shaped groove, the external computer screw hole penetrates through the outer groove wall of the square-shaped groove, and the internal computer screw hole is not communicated with the square-shaped groove and the computer mainboard groove.

Furthermore, the bottom of the inner computer screw hole is provided with a rubber layer with the same size as the bottom of the hole.

Furthermore, a butterfly handle for rotating the bolt is arranged on the bolt.

The utility model provides a pair of locking coupling assembling that moves of computer signal transmission port has following beneficial effect:

1. when the USB plug of the signal transmission port is inserted, the USB plug is fixed, so that the position between the USB plug of the signal transmission port and the USB interface of the computer mainboard is kept relatively fixed, and the USB plug of the signal transmission port and the USB interface of the computer mainboard are prevented from being loosened;

2. the signal transmission port connecting block is inserted into the clip-shaped groove of the computer mainboard connecting block, and the position of the USB plug and the USB interface is fixed by using the bolt to lock the position;

3. the groove wall of the square-shaped groove is provided with a plurality of recesses, and the outer surface of the computer mainboard connecting block is provided with a plurality of protrusions matched with the recesses, so that friction force between the protrusions is increased, and looseness is further prevented.

Drawings

Fig. 1 is a front view of an overall structural schematic diagram of a computer signal transmission port anti-loosening connection assembly provided by the present invention;

fig. 2 is a rear view of an overall structural schematic diagram of the anti-loosening connecting assembly for the computer signal transmission port provided by the present invention;

fig. 3 is the utility model provides a pair of the locking coupling assembling that moves of computer signal transmission port's overall structure sketch map.

Description of reference numerals:

1. a computer motherboard; 2. a bolt; 3. a computer screw hole; 3-1, external computer screw holes; 3-2, internal computer screw holes; 4. a signal transmission port screw hole; 5. a signal transmission port; 6. a signal transmission port connecting block; 7. a computer motherboard connecting block; 8. a clip-shaped groove; 9. a USB interface; 10. a computer motherboard groove; 11. a USB plug; 12. a signal transmission port recess.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the invention is not limited by the embodiments.

In the present application, the type and structure of components that are not specified are all the prior art known to those skilled in the art, and those skilled in the art can set the components according to the needs of the actual situation, and the embodiments of the present application are not specifically limited.

Example 1

This embodiment provides a locking coupling assembling that moves of computer signal transmission port, realizes through essential necessary technical characteristic the utility model discloses to solve the problem that the technical background part proposed in this application file.

Specifically, as shown in fig. 1-3, an embodiment of the present invention provides a loosening prevention connection assembly for a computer signal transmission port, including a computer motherboard 1 and a signal transmission port 5, a computer motherboard connection block 7 is fixed at an edge of the computer motherboard 1, a computer motherboard groove 10 is opened at one side of the computer motherboard connection block 7 away from the computer motherboard 1, a USB interface 9 in signal connection with the computer motherboard 1 is arranged in the computer motherboard groove 10, and a rectangular groove 8 surrounding the computer motherboard groove 10 is further opened at one side of the computer motherboard connection block 7 away from the computer motherboard 1; a signal transmission port connecting block 6 is fixed at the edge of the signal transmission port 5, a signal transmission port groove 12 is formed in one side, away from the signal transmission port 5, of the signal transmission port connecting block 6, a USB plug 11 in signal connection with the signal transmission port 5 is arranged in the signal transmission port groove 12, a distance is formed between the USB plug 11 and the groove wall of the signal transmission port groove 12, and the size of the outer edge of the signal transmission port connecting block 6 is consistent with that of the outer edge of the square-shaped groove 8; set up the intercommunication on the computer mainboard connecting block 7 return the computer screw 3 of shape recess 8, set up the intercommunication on the signal transmission port connecting block 6 the signal transmission port screw 4 of signal transmission port recess 12 when the signal transmission port connecting block 6 inserts return shape recess 8, computer screw 3 and signal transmission port screw 4 are located same straight line, and computer screw 3 and signal transmission port screw 4 pass through bolt 2 and fix its relative position, the external screw thread on bolt 2 surface respectively with the internal thread on the 3 surfaces of computer screw and the internal thread on the 4 surfaces of signal transmission port screw match.

When in use, the signal transmission port connecting block 6 is inserted into the square-shaped groove 8 on the computer mainboard connecting block 7, because the outer edge dimension of the signal transmission port connecting block 6 is consistent with the outer edge dimension of the square-shaped groove 8, the signal transmission port connecting block 6 is just inserted into the square-shaped groove 8, at this time, the USB interface 9 in the computer mainboard connecting block 7 is just inserted into the USB plug 11 in the signal transmission port connecting block 6, so that data can be transmitted through the USB interface, when the signal transmission port connecting block 6 is just inserted into the square-shaped groove 8, the computer screw hole 3 and the signal transmission port screw hole 4 are positioned on the same straight line, at this time, the computer screw hole 3 and the signal transmission port screw hole 4 fix their relative positions through the bolt 2, so that the relative positions of the signal transmission port connecting block 6 and the computer mainboard connecting block 7 are fixed, thereby ensuring that the relative position between the USB interface 9 and the USB plug 11 is fixed, and preventing the connection between the USB interface 9 and the USB plug 11 from loosening.

Example 2

The present embodiment is based on example 1 and optimizes the implementation scheme in example 1, so that the present embodiment is more stable and better in performance during the operation process, but the present embodiment is not limited to the implementation manner described in the present embodiment.

Specifically, a plurality of recesses are uniformly formed in the groove wall of the square-shaped groove 8, a plurality of protrusions matched with the recesses are formed in the outer surface of the computer main board connecting block 7, and the protrusions correspond to the recesses in number and positions one to one.

In this embodiment, through the even a plurality of caves that are equipped with on the cell wall that returns shape recess 8, be on the surface of computer motherboard connecting block 7 be equipped with a plurality of with sunken assorted arch for return shape recess 8 and computer motherboard connecting block 7 when connecting, fastening more, protruding and sunken can be better increase return the frictional force between shape recess 8 and the computer motherboard connecting block 7.

Specifically, the computer screw hole 3 comprises an external computer screw hole 3-1 positioned on the outer groove wall of the square-shaped groove 8 and an internal computer screw hole 3-2 positioned on the inner groove wall of the square-shaped groove 8, the external computer screw hole 3-1 penetrates through the outer groove wall of the square-shaped groove 8, and the internal computer screw hole 3-2 is not communicated with the square-shaped groove 8 and the computer mainboard groove 10.

As can be seen from fig. 3, the screw hole 3 penetrates through the inner cavity of the rectangular groove 8, and meanwhile, the external computer screw hole 3-1 and the internal computer screw hole 3-2 are located on the same straight line, and the external computer screw hole 3-1, the internal computer screw hole 3-2 and the signal transmission port screw hole 4 are located on the same straight line when the rectangular groove 8 and the computer motherboard connecting block 7 are connected, so that the bolt 2 can penetrate through the signal transmission port connecting block 6 and the computer motherboard connecting block 7, and the signal transmission port connecting block 6 and the computer motherboard connecting block 7 are connected more firmly without sliding left and right.

More specifically, the bottom of the inner computer screw hole 3-2 is provided with a rubber layer with the size consistent with that of the hole bottom. The rubber layer can prompt a user that the bolt 2 is arranged at the bottommost surface when the bolt 2 is screwed, and meanwhile, the bolt 2 can be prevented from damaging the computer mainboard connecting block 7.

In this embodiment, the bolt 2 is provided with a butterfly handle for rotating the bolt. Through the butterfly handle for what screwed up bolt 2 manually is what, more convenient light.

To sum up, the utility model discloses an anti-loosening connecting component for a computer signal transmission port, which comprises a computer mainboard and a signal transmission port, wherein a computer mainboard connecting block is fixed at the edge of the computer mainboard, a computer mainboard groove is formed at one side of the computer mainboard connecting block, which is far away from the computer mainboard, a USB interface in signal connection with the computer mainboard is arranged in the computer mainboard groove, and a loop-shaped groove surrounding the computer mainboard groove is also formed at one side of the computer mainboard connecting block, which is far away from the computer mainboard; a signal transmission port connecting block is fixed at the edge of the signal transmission port, a signal transmission port groove is formed in one side, away from the signal transmission port, of the signal transmission port connecting block, a USB plug in signal connection with the signal transmission port is arranged in the signal transmission port groove, a distance is formed between the USB plug and the groove wall of the signal transmission port groove, and the size of the outer edge of the signal transmission port connecting block is consistent with that of the outer edge of the square-shaped groove; set up the intercommunication on the computer mainboard connecting block the computer screw of returning the shape recess, set up the intercommunication on the signal transmission port connecting block the signal transmission port screw of signal transmission port recess when the signal transmission port connecting block inserts return the shape recess, the computer screw is located same straight line with signal transmission port screw, and computer screw and signal transmission port screw pass through its relative position of bolt fastening, the external screw thread on bolt surface respectively with the internal thread on computer screw surface and the internal thread phase-match on signal transmission port screw surface. The utility model discloses make the USB plug of signal transmission port when inserting, fix the USB plug for position between the USB plug of signal transmission port and the USB interface of computer motherboard keeps relatively fixed, thereby prevents that the USB plug of signal transmission port and the USB interface of computer motherboard from producing not hard up.

The above disclosure is only for a few specific embodiments of the present invention, however, the present invention is not limited to the embodiments, and any changes that can be considered by those skilled in the art shall fall within the protection scope of the present invention.

Claims (4)

1. A computer signal transmission port anti-loosening connecting component comprises a computer main board (1) and a signal transmission port (5), and is characterized in that,

a computer main board connecting block (7) is fixed at the edge of the computer main board (1), a computer main board groove (10) is formed in one side, away from the computer main board (1), of the computer main board connecting block (7), a USB interface (9) in signal connection with the computer main board (1) is arranged in the computer main board groove (10), and a rectangular groove (8) surrounding the computer main board groove (10) is further formed in one side, away from the computer main board (1), of the computer main board connecting block (7);

a signal transmission port connecting block (6) is fixed at the edge of the signal transmission port (5), a signal transmission port groove (12) is formed in one side, away from the signal transmission port (5), of the signal transmission port connecting block (6), a USB plug (11) in signal connection with the signal transmission port (5) is arranged in the signal transmission port groove (12), the USB plug (11) is separated from the groove wall of the signal transmission port groove (12) by a distance, and the outer edge size of the signal transmission port connecting block (6) is consistent with that of the square-back groove (8);

a computer screw hole (3) communicated with the square-shaped groove (8) is formed in the computer mainboard connecting block (7), a signal transmission port screw hole (4) communicated with the signal transmission port groove (12) is formed in the signal transmission port connecting block (6), when the signal transmission port connecting block (6) is inserted into the square-shaped groove (8), the computer screw hole (3) and the signal transmission port screw hole (4) are located on the same straight line, the relative positions of the computer screw hole (3) and the signal transmission port screw hole (4) are fixed through a bolt (2), and external threads on the surface of the bolt (2) are respectively matched with internal threads on the surface of the computer screw hole (3) and internal threads on the surface of the signal transmission port screw hole (4); the computer screw hole (3) comprises an external computer screw hole (3-1) positioned on the outer groove wall of the clip-shaped groove (8) and an internal computer screw hole (3-2) positioned on the inner groove wall of the clip-shaped groove (8), the external computer screw hole (3-1) penetrates through the outer groove wall of the clip-shaped groove (8), and the internal computer screw hole (3-2) is not communicated with the clip-shaped groove (8) and the computer mainboard groove (10).

2. The anti-loose connecting assembly for the signal transmission port of the computer according to claim 1, wherein a plurality of recesses are uniformly formed on the wall of the square groove (8), a plurality of protrusions matched with the recesses are formed on the outer surface of the connecting block (7) of the computer motherboard, and the protrusions and the recesses are equal in number and correspond to each other in position.

3. The anti-loosening connecting component for the signal transmission port of the computer as claimed in claim 1, wherein the bottom of the inner computer screw hole (3-2) is provided with a rubber layer with the same size as the bottom of the hole.

4. The anti-loosening connecting component for the signal transmission port of the computer as claimed in claim 1, wherein the bolt (2) is provided with a butterfly handle for rotating the bolt.

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