CN218472470U - Desktop socket - Google Patents

Abstract

The utility model relates to a socket field especially relates to a desktop socket. A desktop socket comprises a socket body fixed on a desktop; the socket body is constructed into a truncated cone shape or a hemispherical shape with a small upper end caliber and a large lower end caliber, and the lower end of the socket body is constructed with a bottom surface attached to a desktop; a plurality of power taking modules and/or data modules are embedded on the side wall of the socket body along the circumferential direction of the socket body; the power taking module on the power taking module and/or the data jack on the data module are inclined upwards. The desktop socket is in a round table shape or a hemispherical shape, the power taking module and/or the data module in an inclined orientation are arranged on the desktop socket, and a user can insert and pull a plug or a connector lug in an inclined state, so that labor is saved and convenience is brought.

Description

Desktop socket

Technical Field

The utility model relates to a socket field especially relates to a desktop socket.

Background

In order to keep the desk top clean and attractive and reduce potential safety hazards, the desk top socket is widely applied, the desk top socket integrates one or more of interface modules such as a power interface, a telephone interface, a network interface and the like, and strong and weak electricity is convenient to use, attractive, practical, safe and reliable. At present, desktop sockets are mainly divided into two types, one type is a hidden socket which is hidden under a desktop plate when not in use, and the socket is lifted to be used above the desktop plate when in use; the other type is a fixed socket which is directly fixed above the table top. However, in the existing desktop socket, the power-taking hole position and the data jack above the desktop socket face to the front or the upper side, so that a user is inconvenient to apply force when plugging and unplugging a plug or a connector lug, and the desktop socket is inconvenient to use.

Disclosure of Invention

In order to solve the above problems, the object of the present invention is to provide a desktop socket, which is in the shape of a truncated cone or a hemisphere, and has an electricity-taking module and/or a data module arranged thereon, so that a user can insert and pull a plug or a connector lug in an inclined state, which is labor-saving and convenient.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a desktop socket comprises a socket body fixed on a desktop; the method is characterized in that: the socket body is constructed into a truncated cone shape or a hemispherical shape with a small upper end caliber and a large lower end caliber, and the lower end of the socket body is constructed with a bottom surface attached to a desktop; a plurality of power taking modules and/or data modules are embedded on the side wall of the socket body along the circumferential direction of the side wall; the power taking jack on the power taking module and/or the data jack on the data module are inclined upwards.

The above technical scheme is adopted in the utility model, this technical scheme relates to a desktop socket, and this desktop socket is used for fixed mounting on the desktop, is particularly suitable for installing in the desktop up end. The socket body of the desktop socket is constructed in a truncated cone shape or a hemispherical shape such that the sidewalls of the socket body may have an arc shape or a slope shape. On this basis, inlay along its circumference on the lateral wall of socket ontology and be equipped with a plurality of electricity-taking module and/or data module, can make the electricity-taking jack on the electricity-taking module and/or the data jack on the data module slope upwards. Therefore, after the desktop socket is fixedly installed, a user can insert and pull the plug or the connector lug in an inclined state, and labor is saved and convenience is achieved.

In a further scheme, the power taking module and/or the data module are embedded and clamped in the socket body. Based on the installation scheme of inlaying the dress joint, the user can install appointed getting electric module and data module as required, satisfies user's different demands, also can be adapted to the socket standard of each country.

Preferably, the socket body comprises a bottom plate attached to the desktop and a shell connected to the bottom plate; the side wall of the shell is provided with a first opening which inclines upwards, and the outer end edge of the power taking module and/or the data module is matched with the first opening and is clamped and fixed on the first opening of the shell. In this scheme, wear to locate in first opening with getting electric module and/or data module after, be fixed in the casing lateral wall at first opening edge with it through the joint mode to this realizes fixing of module.

In the concrete scheme, a plurality of buckle structures are arranged along the circumferential direction of the first opening edge of the shell, each buckle structure comprises a first clamping block and a second clamping block which extend inwards in the radial direction, and the outer wall of each first clamping block is a first inclined plane which inclines outwards from top to bottom. A check ring is constructed on the edge of the outer end of the power taking module and/or the data module, a guide clamping block is constructed on the outer wall below the check ring, and the outer wall of the guide clamping block is constructed into a second inclined plane which inclines outwards from bottom to top. In the process of inserting the power taking module and/or the data module into the first opening, force is radially applied to the power taking module and/or the data module from the outer side, and the second inclined surface of the guide clamping block extrudes the first inclined surface of the first clamping block. Until the power taking module and/or the data module are positioned in the first opening, the outer end surface of the first fixture block abuts against the inner end surface of the guide fixture block at the moment, and the power taking module and/or the data module are limited to move outwards; meanwhile, the outer end face of the second clamping block abuts against the inner end face of the check ring, and the power taking module and/or the data module are limited to move inwards. So that the power taking module and/or the data module are positioned in the first opening in the axial inner and outer directions.

On this basis, the first opening in the first scheme is non-circular hole shape, and circumferential fixing of the power taking module and/or the data module relative to the first opening can also be realized. In the second scheme, the first opening is a circular hole, the buckle structure further comprises a bayonet constructed between the first clamping block and the second clamping block, and ribs are protruded outwards in the radial direction on the side wall of the power taking module and/or the data module; the ribs are clamped in the bayonet to limit the circumferential rotation of the power taking module and/or the data module.

In a further scheme, a wire passing groove is formed on the bottom plate in a built mode and extends from the center of the bottom plate to the edge of the bottom. The line-passing groove in the scheme is used for arranging and using transmission lines, when the desktop socket is used, the outer end part of the line-passing groove is positioned on the edge of a desktop or the edge of a line-passing hole when the desktop socket is generally fixed, and the transmission lines of the desktop socket can be connected with an external power supply or a signal source after being led out from the outer end of the line-passing groove. Meanwhile, the transmission line can be positioned in the wire passing groove between the desktop socket and the desktop below the desktop socket, so that messy wiring is avoided. Finally, the desktop socket is in a round table shape or a hemispherical shape, and a plurality of power taking modules and/or data modules are arranged in the circumferential direction of the desktop socket, so that the wire passing groove needs to be led into the center of the bottom plate.

In another embodiment, an opening in the table top may be provided and the electrical cord may be routed through the opening and into the socket in the table top from the center.

Preferably, the socket body further comprises a decorative cover covering the outer side of the shell, and a second opening corresponding to the first opening on the shell is constructed on the decorative cover; a retainer ring is constructed on the edge of the outer end of the power taking module and/or the data module, and the retainer ring is lower than the end face of the outer end of the power taking module and/or the data module; when the decoration cover covers the outer side of the shell, the decoration cover at the edge of the second opening covers the retainer ring. In this scheme, adopt and decorate the cover and hide the casing, get the junction between electric module and/or data module and the casing all through decorating the cover to make whole desktop socket have better outward appearance, decoration cover wherein include but not limited to metal, plastics and felt. Meanwhile, when the decorative cover covers the connecting part between the power taking module and/or the data module and the shell, the retainer ring is clamped between the decorative cover and the shell, so that the module is positioned more firmly.

Preferably, a plurality of fastening grooves are formed in the edge of the lower end of the shell along the circumferential direction of the shell, the fastening grooves are formed by radially inwards recessing the shell, and bolt through holes are formed in the bottom plate below the fastening grooves; when decorating the cover and establishing with the casing outside, fastening slot and bolt through-hole hide in decorating the cover. In the scheme, the desktop socket is fastened on the desktop plate by passing a bolt through the bolt through hole through a bolt, so that the bolt through hole is hidden by a decorative cover in order to avoid the problem of unattractive appearance caused by the exposed bolt. Meanwhile, the decoration cover is required to hide the bolt through hole and is also required to be attached to the shell, so that the shell is required to be radially inwards recessed to form a fastening groove, the bolt is inevitably installed, and the attachment of the decoration cover to the shell is not influenced.

Preferably, the socket body further comprises a wireless charger arranged at the center of the top surface thereof, and a central through hole is constructed at the center of the upper end of the shell; the wireless charger is embedded in the central through hole of the shell, and the charging end face of the wireless charger is exposed out of the central through hole. In the scheme, the wireless charger is further arranged at the upper end of the socket body, and the mobile phone with the corresponding function can be placed above the center of the desktop socket to be wirelessly charged.

Preferably, a charging quick-connection socket is connected to a circuit board in the wireless charger, and the charging quick-connection socket extends out of a charging end face of the wireless charger from the outer side of the coil. The charging quick-connection socket in the scheme can be used for direct plug-in power taking of a data line.

Drawings

Fig. 1 is a schematic structural diagram of a desktop socket according to the present invention.

Fig. 2 is a schematic view of the decoration cover separated from the socket body.

Fig. 3 is a schematic diagram illustrating a state in which the power-taking module is separated from the socket body.

Fig. 4 is an enlarged view of a portion a of fig. 3.

Fig. 5 is a schematic structural diagram of the power-taking module.

Fig. 6 is a schematic view illustrating a state in which the wireless charger is separated from the socket body.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1 to 6, the present embodiment relates to a desktop socket, which includes a socket body 1 for being fixed on a desktop. The socket body 1 is constructed in a truncated cone shape or a hemispherical shape with a small upper end diameter and a large lower end diameter, and the lower end of the socket body 1 is constructed with a bottom surface attached to a desktop. And a plurality of power taking modules 2 and/or data modules are embedded on the side wall of the socket body 1 along the circumferential direction. The electricity taking jack on the electricity taking module 2 and/or the data jack on the data module are inclined upwards. The desktop socket is used for being fixedly installed on a desktop and is particularly suitable for being installed on the upper end face of the desktop plate. The socket body 1 of the desktop socket is constructed in a truncated cone shape or a hemispherical shape, so that the sidewall of the socket body 1 may have an arc shape or an inclined surface shape. On this basis, inlay along its circumference on the lateral wall of socket ontology 1 and be equipped with a plurality of electricity-taking module 2 and/or data module, can make the electricity-taking jack on the electricity-taking module 2 and/or the data jack on the data module slope upwards. Therefore, after the desktop socket is installed and fixed, a user can insert and pull the plug or the connector lug in an inclined state, and labor is saved and convenience is brought.

In a further scheme, the power taking module 2 and/or the data module are embedded and clamped in the socket body 1. Based on the installation scheme of inlaying the dress joint, the user can install appointed getting electric module 2 and data module as required, satisfies user's different demands, also can be adapted to the socket standard of each country.

In a specific embodiment, the socket body 1 includes a bottom plate 11 attached to a desk top, and a housing 12 connected to the bottom plate 11. A first opening 121 which inclines upwards is formed in the side wall of the housing 12, and the outer end edge of the power taking module 2 and/or the data module is matched with the first opening 121 and is clamped and fixed on the first opening 121 of the housing 12. In this scheme, after the power taking module 2 and/or the data module are inserted into the first opening 121, the power taking module and/or the data module are fixed on the side wall of the housing 12 at the edge of the first opening 121 in a clamping manner, so that the modules are fixed. As shown in fig. 3 and 4, a plurality of snap structures are arranged at the edge of the first opening 121 of the housing 12 along the circumferential direction thereof, the snap structures include a first latch 13 and a second latch 14 extending radially inward, and the outer wall of the first latch 13 is configured as a first inclined surface 131 inclined outward from top to bottom. A retaining ring 21 is constructed on the outer end edge of the power taking module 2 and/or the data module, a guiding fixture block 22 is constructed on the outer wall below the retaining ring 21, and the outer wall of the guiding fixture block 22 is constructed as a second inclined surface 221 which is inclined outwards from bottom to top. In the process of inserting the power-taking module 2 and/or the data module into the first opening 121, a force is radially applied to the power-taking module 2 and/or the data module from the outside, and the second inclined surface 221 of the guide latch 22 presses the first inclined surface 131 of the first latch 13. Until the power taking module 2 and/or the data module are positioned in the first opening 121, the outer end surface of the first fixture block 13 abuts against the inner end surface of the guide fixture block 22, so that the power taking module 2 and/or the data module is limited from moving outwards. Meanwhile, the outer end surface of the second fixture block 14 abuts against the inner end surface of the retainer ring 21, so that the power taking module 2 and/or the data module are limited from moving inwards. Thereby positioning the power module 2 and/or the data module in the first opening 121 in the axial inward and outward directions.

On this basis, the first opening in the first aspect is a non-circular hole, and circumferential fixing of the power-taking module 2 and/or the data module relative to the first opening 121 can also be achieved. In the second scheme, the first opening is a circular hole, the fastening structure further includes a bayonet 15 formed between the first fixture block 13 and the second fixture block 14, and ribs 23 protrude radially outwards from the side wall of the power-taking module 2 and/or the data module. The ribs 23 are clamped into the bayonet 15 to limit the circumferential rotation of the power taking module 2 and/or the data module.

In a further scheme, a wire passing groove 111 is formed on the bottom plate 11, and the wire passing groove 111 extends from the center of the bottom plate 11 to the bottom edge. The wire passing groove 111 in the scheme is used for arranging and using transmission wires, when the desktop socket is generally fixed in use, the outer end of the wire passing groove 111 is positioned on the edge of the desktop or the edge of a wire passing hole, and the transmission wires of the desktop socket can be connected with an external power supply or a signal source after being led out from the outer end of the wire passing groove. Meanwhile, the transmission line can be positioned in the wire passing groove 111 between the desktop socket and the desktop below the desktop socket, so that messy wiring is avoided. Finally, since the desktop socket is in a truncated cone shape or a hemispherical shape, and a plurality of power taking modules 2 and/or data modules are arranged in the circumferential direction of the desktop socket, the wire passing groove 111 needs to be introduced into the center of the bottom plate 11.

As shown in fig. 1 and 2, the socket body 1 further includes a decorative cover 3 covering the outer side of the housing 12, and a second opening 31 corresponding to the first opening 121 of the housing 12 is formed in the decorative cover 3. The bottom of the decorative cover 3 is connected and fixed on the bottom plate 11, specifically, as shown in fig. 2, a fastening hole 112 is arranged on the circumference of the bottom plate 11, and a fastening hook 32 is arranged on the bottom edge of the decorative cover 3. And a retainer ring 21 is constructed on the edge of the outer end of the power taking module 2 and/or the data module, and the retainer ring 21 is lower than the end surface of the outer end of the power taking module 2 and/or the data module. When the decorative cover 3 covers the outer side of the housing 12, the decorative cover 3 at the edge of the second opening 31 covers the retainer ring 21. In the scheme, the shell 12, the power taking module 2 and/or the connection part between the data module and the shell 12 are covered and hidden by the decoration cover 3, so that the whole desktop socket has a better appearance, wherein the decoration cover 3 comprises but is not limited to metal, plastic and felt. Meanwhile, when the decoration cover 3 covers the connection part between the power taking module 2 and/or the data module and the shell 12, the check ring 21 is clamped between the decoration cover 3 and the shell 12, so that the module is positioned more firmly.

Further, a plurality of fastening grooves 122 are arranged along the circumferential direction of the lower end edge of the housing 12, the fastening grooves 122 are radially and concavely formed by the housing 12, and bolt through holes 113 are formed in the bottom plate 11 below the fastening grooves 122. When the decorative cover 3 covers the outer side of the housing 12, the fastening groove 122 and the bolt through hole 113 are hidden in the decorative cover 3. In this scheme, the desktop socket is fastened on the desktop plate by passing a bolt through hole 113 through a bolt, and in order to avoid the unattractive appearance caused by the exposed bolt, the bolt through hole 113 is hidden by the decorative cover 3. Meanwhile, since the decoration cover 3 needs to hide the bolt through hole 113 and needs to be attached to the housing 12, the fastening groove 122 needs to be radially recessed on the housing 12, so that the bolt installation is inevitable and the attachment of the decoration cover 3 to the housing 12 is not affected.

As shown in fig. 6, the socket body 1 further includes a wireless charger 4 disposed at the center of the top surface thereof, and a central through hole 123 is constructed at the center of the upper end of the housing 12. The wireless charger 4 is fitted into the center through hole 123 of the case 12, and the charging end surface of the wireless charger 4 is exposed to the center through hole 123. In this scheme, still set up wireless charger 4 in the upper end of socket ontology 1, can place the cell-phone that has corresponding function in the central top of desktop socket and carry out wireless charging. A charging quick-connection socket 41 is connected to a circuit board in the wireless charger 4, and the charging quick-connection socket 41 extends out of the charging end face of the wireless charger 4 from the outer side of the coil. The charging quick-connection socket 41 in the scheme can be used for direct plug-in power taking of a data line. The wireless charging structure of the wireless charger 4 in this scheme to and be connected with on the circuit board and charge and connect socket 41 soon belongs to prior art, can specifically refer to the chinese utility model patent text that the publication number is "CN 210074799U".

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, it is to be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the principles and spirit of the present invention.

Claims (10)

1. A desktop socket comprises a socket body (1) fixed on a desktop; the method is characterized in that: the socket body (1) is in a truncated cone shape or a hemispherical shape with a small upper end caliber and a large lower end caliber, and the lower end of the socket body (1) is provided with a bottom surface attached to a desktop; a plurality of power taking modules (2) and/or data modules are embedded on the side wall of the socket body (1) along the circumferential direction; the electricity taking jacks on the electricity taking module (2) and/or the data jacks on the data module are inclined upwards.

2. A desktop socket according to claim 1, wherein: the power taking module (2) and/or the data module are embedded and clamped in the socket body (1).

3. A desktop socket according to claim 2, wherein: the socket body (1) comprises a bottom plate (11) attached to a desktop and a shell (12) connected to the bottom plate (11); an inclined upward first opening (121) is formed in the side wall of the shell (12), and the outer end edge of the power taking module (2) and/or the data module is matched with the first opening (121) and is clamped and fixed on the first opening (121) of the shell (12).

4. A desktop socket according to claim 3 wherein: a plurality of buckling structures are arranged on the edge of the first opening (121) of the shell (12) along the circumferential direction of the shell, each buckling structure comprises a first clamping block (13) and a second clamping block (14) which extend inwards in the radial direction, and the outer wall of each first clamping block (13) is formed into a first inclined surface (131) which inclines outwards from top to bottom; a retainer ring (21) is constructed on the outer end edge of the electricity taking module (2) and/or the data module, a guide clamping block (22) is constructed on the outer wall below the retainer ring (21), and the outer wall of the guide clamping block (22) is constructed into a second inclined surface (221) which is inclined outwards from bottom to top; in the process that the electricity taking module (2) and/or the data module are/is inserted into the first opening (121), the second inclined surface (221) of the guide clamping block (22) extrudes the first inclined surface (131) of the first clamping block (13); when the power taking module (2) and/or the data module are positioned in the first opening (121), the first clamping block (13) is abutted against the guide clamping block (22) to limit the power taking module (2) and/or the data module to move outwards; the second clamping block (14) is abutted against the retaining ring (21) to limit the power taking module (2) and/or the data module to move inwards.

5. A desktop socket according to claim 4 wherein: the first opening (121) is a round hole, the buckle structure further comprises a bayonet (15) formed between the first clamping block (13) and the second clamping block (14), and ribs (23) protrude outwards in the radial direction on the side wall of the power taking module (2) and/or the data module; the ribs (23) are clamped into the bayonets (15) to limit the circumferential rotation of the power taking module (2) and/or the data module.

6. A desktop socket according to claim 3 wherein: the bottom plate (11) is provided with a wire passing groove (111), and the wire passing groove (111) extends from the center of the bottom plate (11) to the edge of the bottom.

7. A desktop socket according to claim 3 wherein: the socket body (1) further comprises a decoration cover (3) covering the outer side of the shell (12), and a second opening (31) corresponding to the first opening (121) on the shell (12) is formed in the decoration cover (3); a retainer ring (21) is constructed on the outer end edge of the power taking module (2) and/or the data module, and the retainer ring (21) is lower than the outer end face of the power taking module (2) and/or the data module; when the decoration cover (3) covers the outer side of the shell (12), the decoration cover (3) at the edge of the second opening (31) covers the retainer ring (21).

8. A desktop socket according to claim 7 wherein: a plurality of fastening grooves (122) are formed in the edge of the lower end of the shell (12) along the circumferential direction of the shell, the fastening grooves (122) are formed by radially inwards recessing the shell (12), and bolt through holes (113) are formed in the bottom plate (11) below the fastening grooves (122); when the decoration cover (3) covers the outer side of the shell (12), the fastening groove (122) and the bolt through hole (113) are hidden in the decoration cover (3).

9. A desktop socket according to claim 3, wherein: the socket body (1) further comprises a wireless charger (4) arranged at the center of the top surface of the socket body, and a central through hole (123) is formed at the center of the upper end of the shell (12); the wireless charger (4) is embedded in the central through hole (123) of the shell (12), and the charging end face of the wireless charger (4) is exposed out of the central through hole (123).

10. A desktop socket according to claim 9, wherein: and a charging quick-connection socket (41) is connected to a circuit board in the wireless charger (4), and the charging quick-connection socket (41) extends out of the charging end face of the wireless charger (4) from the outer side of the coil.

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