TYPE-C AND USB TWO-IN-ONE INTERFACE WIRELESS RADIO FREQUENCY RECEIVER

Abstract

A type-c and USB two-in-one interface wireless radio frequency receiver, including a USB interface, a USB portion, a Type-c portion, an upper cover, a lower cover, a handle, and a connecting magnet. The USB portion is connected to the Type-c portion and placed on the lower cover. The USB interface and the type-c interface are fixed in the same storage device, but they are only physically fixed together, and the internal data is stored separately and is not mixed. When exporting data, the corresponding USB or type-c interface will be used, so that no matter which interface is used, this two-in-one receiver will meet the needs. A handle with a rotary design is further provided to protect the Type-c portion from damage. The upper side of the handle is fixed to a fixing rope via the fixing hole, so as to tie the device and facilitate to carry it around.

Claims

1. A type-c and USB two-in-one interface wireless radio frequency receiver, comprising a USB interface, a type-c interface, a processing chip, an upper cover, a lower cover, a handle, and a connecting magnet, wherein the processing chip comprises a type-c portion and a USB portion, wherein the type-c portion is connected to the type-c interface and is placed on the lower cover, wherein the lower cover comprises a buckling portion and a fixing portion, and the type-c interface is disposed on the buckling portion, wherein an upper side of the buckling portion is fixed to the upper cover, the type-c interface passes through the fixing portion, and the USB interface is fixed together with the type-c interface by welding, wherein a fixing shaft is welded on each of both sides of the fixing portion, and the fixing portion is connected with the handle through the fixing shafts, and a connecting magnet is fixed to each of both sides of the handle.

2. The type-c and USB two-in-one interface wireless radio frequency receiver as recited in claim 1, wherein the processing chip comprises a carrier, a type-c communication circuit, and a USB communication circuit, wherein the type-c communication circuit and the USB communication circuit are each welded on the carrier, and two ends of the carrier are respectively connected to the USB interface and the type-c interface.

3. The type-c and USB two-in-one interface radio frequency receiver as recited in claim 2, wherein the fixing shafts are movably connected to the handle.

4. The type-c and USB two-in-one interface radio frequency receiver as recited in claim 1, wherein the buckling portion is of a groove structure, and three sides of the buckling portion form a groove on an upper side thereof, wherein the upper cover is of a groove structure, and three upper portions of the upper cover have a convex structure, and wherein the groove structure and the convex structure are used in conjunction and fitted with each other.

5. The type-c and USB two-in-one interface radio frequency receiver as recited in claim 1, wherein the handle is a rotatable structure relative to the lower cover.

6. The type-c and USB two-in-one interface radio frequency receiver as recited in claim 1, wherein a fixing hole is defined in an upper side of the handle, and a lanyard is tied in the fixing hole.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0014] FIG. 1 is a schematic diagram of the present disclosure.

[0015] FIG. 2 is a schematic diagram of the present disclosure when the handle of the is rotated.

[0016] FIG. 3 is a schematic diagram of the present disclosure when in use.

[0017] FIG. 4 is an exploded schematic diagram of the present disclosure.

[0018] FIG. 5 is a schematic diagram of the use process of the present disclosure.

[0019] FIG. 6 is a cross-sectional view of the buckling portion being connected to the upper cover.

[0020] FIG. 7 is a schematic diagram illustrating the structure of the lower cover of the present disclosure.

[0021] As shown in the figures, USB interface 1, USB portion 2, Type-c portion 3, upper cover 4, lower cover 5, handle 6, connecting magnet 7, type-c interface 8, buckling portion 5-1, fixing portion 5-2.

DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS

[0022] The present disclosure will be explained in further detail in connection with the drawings.

Embodiment 1

[0023] The present disclosure provides a type-c and USB two-in-one interface radio frequency receiver, including a USB interface 1, a type-c interface 8, a processing chip, an upper cover 4, a lower cover 5, a handle 6, and a connecting magnet 7. The processing chip is divided into a type-c portion and a USB portion 2. The type-c portion is connected to the type-c interface 8, and the type-c interface 8 is placed on the lower cover 5. The lower cover 5 includes a buckling portion 5-1 and a fixing portion 5-2, and the type-c interface 8 is placed on the buckling portion 5-1. The upper cover 4 is fixed to the upper side of the buckling portion 5-1. The type-c interface 8 passes through the fixed portion 5-2. The USB port 1 is fixed to type-c port 8 by welding. The fixing portion 5-2 is welded with fixing shafts on both sides, and the fixing portion 5-2 is connected with the handle 6 through the fixing shafts. The connecting magnets 7 are fixed to both sides of the handle 6. The processing chip includes a carrier, a type-c communication circuit, and a USB communication circuit. The type-c communication circuit and the USB communication circuit are each soldered on the carrier, and two ends of the carrier are respectively connected to the USB interface 1 and the type-c interface 8. The fixing shafts are movably connected to the handle 6. The buckling portion 5-1 is of a groove structure, where the three sides of the buckling portion 5-1 form a groove structure on the upper side. The upper cover 4 is of a groove structure. The upper three portions of the upper cover 4 have a convex structure, and the groove structure and the convex structure are used in cooperation and are fitted together. The handle 6 is a rotatable structure relative to the lower cover 5. A fixing hole is defined in the upper side of the handle 6, and a lanyard is tied in the fixing hole.

Embodiment 2

[0024] When in use, the handle 6 of the present disclosure is rotated so that the handle 6 is in the state of protecting the Type-c interface 8, and then the present disclosure is inserted into the USB socket of the laser pointer through the USB interface. When the present disclosure is inserted, the connecting magnets 7 on the handle 6 are attracted with the USB socket. When data transmission is needed, take out the present invention, and then select the interface according to the interface through which copy is needed. If the required interface is a USB interface, then use the USB interface 1 of the present disclosure to insert the USB interface to copy the data. After the data is copied, insert the present disclosure into the laser pointer. When the interface that needs to copy data is the Type-c interface, the data is copied through one end of the Type-c interface 8 of the present invention, and the upper cover 4 and the lower cover 5 that are buckled together are inserted into the Type-c interface to copy the data, then insert the present invention into the laser pointer after the data is copied. Finally, the data copied by the present invention is transmitted to the computer through the USB interface or the Type-c interface.

[0025] The foregoing merely portrays some illustrative embodiments of the present disclosure. It should be noted that those of ordinary skill in the art will be able to make multiple improvements and modifications without departing from the principle of this disclosure, and these improvements and modifications should all be regarded as falling in the scope of protection of this disclosure.