Finger operation interaction device
Technical Field
The utility model belongs to the technical field of the intelligence is dressed, especially, relate to a finger operation interaction device.
Background
At present, the more and more appearance of intelligent wearing products such as AR glasses, VR head wear is in daily life, for the convenience of the user carries out relevant operation, has appeared to contain gesture interaction, voice interaction based on the degree of depth camera, has used the handle interaction and has used the ring interaction etc. because the ring has small, portable's advantage, and a lot of intelligence are dressed the product and are all adopted the ring interaction to carry out relevant operation control. However, the size of the ring is smaller, and larger or more touch or control devices cannot be placed, so that touch is insensitive, the false triggering rate is higher, and the ring is generally worn on the tail end phalanx of a finger, the operation stroke is short when the finger is operated by the thumb, and the finger ring is easy to be tired after long-term operation.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a finger operation interaction device aims at solving current ring interaction control and has the insensitive problem that easily mistake was touched of touch-control, can improve the operating comfort level.
The utility model discloses a finger operation interaction device, which comprises a finger cap and a flexible connecting plate connected with the cap opening end of the finger cap, wherein one end of the flexible connecting plate, which is far away from the finger cap, is connected with a plug connector, and the finger cap is provided with a plurality of pressure contacts electrically connected with the plug connector; the solar cell power supply further comprises a ring, a battery and a mainboard electrically connected with the battery are fixedly mounted inside the ring, and an interface electrically connected with the mainboard is arranged on the ring.
As an improvement, the flexible connecting plate is an FPC (flexible printed circuit) circuit board, the plug connector is a golden finger plug electrically connected with the FPC circuit board, and one end of the FPC circuit board, far away from the golden finger plug, and the pressure contacts are embedded into the side wall of the finger cap.
As an improvement, the pressure contact is a pressure strain gauge, the pressure strain gauges are respectively formed by the end parts of the metal conductive sheets in the FPC board, and a pressure strain processing chip is mounted on the motherboard.
As an improvement, the pressure contact is a patch type pressure sensor electrically connected with a metal conductive sheet in the FPC board.
As an improvement, the interface is arranged on the end face of the finger ring on the side close to the finger cap.
As an improvement, a plug socket electrically connected with the mainboard is arranged in the ring, a plug hole is arranged on the shell of the ring corresponding to the plug socket, and the plug hole and the plug socket form the interface.
As an improvement, a microphone electrically connected with the mainboard is arranged inside the ring, and a sound hole is arranged on the shell of the ring corresponding to the microphone.
As an improvement, the microphone is arranged corresponding to the peripheral side wall of the shell of the ring, and the sound hole is arranged on the peripheral side wall of the shell of the ring.
As an improvement, the pressure contacts are provided with five, namely a middle position pressure contact and four side position pressure contacts arranged on the four sides of the middle position pressure contact at intervals.
As an improvement, the plug connector is inserted into the interface, and the finger cap and the finger ring are fixedly connected together and realize electric connection.
Due to the adoption of the technical scheme, the finger operation interaction device comprises the finger cap and the flexible connecting plate connected to the cap opening end of the finger cap, wherein the end, far away from the finger cap, of the flexible connecting plate is connected with the plug connector, and the finger cap is provided with a plurality of pressure contacts electrically connected with the plug connector; the finger ring is fixedly provided with a battery and a mainboard electrically connected with the battery, and the finger ring is provided with an interface electrically connected with the mainboard. Insert the bayonet joint in the interface and be connected with the mainboard electricity, will indicate the ring, indicate the cap cover on user's finger, owing to be equipped with a plurality of pressure contact points of being connected with the bayonet joint electricity on indicating the cap, can transmit detection signal to the mainboard through a plurality of pressure contact points, carry out corresponding control operation according to detection signal by the mainboard again, owing to set up a plurality of pressure contact points on indicating the cap, area that can corresponding increase pressure contact point and the interval between the adjacent pressure contact point, can avoid appearing touch-control insensitive and mistake and touch, and a plurality of pressure contact points set up the position department that is close to the fingertip that lies in the finger on indicating the cap, convenient operation, the utility model discloses a finger operation interaction device can solve current ring interaction control and have the problem that touch-control is insensitive and easy mistake is touched, has improved operation comfort level.
Drawings
Fig. 1 is a schematic front view of the finger-operated interactive device of the present invention;
fig. 2 is a schematic perspective view of a finger cap of the finger-operated interaction device of the present invention;
fig. 3 is a schematic top view of a finger ring of the finger operated interactive device of the present invention;
fig. 4 is a schematic diagram of a side view of a finger ring of the finger operated interactive device of the present invention;
the device comprises a finger cap 11, a finger cap 12, a flexible connecting plate 13, a plug connector 14, a pressure contact 20, a finger ring 21, a plug hole 22 and a sound hole.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Fig. 1 to fig. 4 are the structural schematic diagram of the finger operation interaction device of the utility model, wherein, fig. 1 shows the utility model discloses a main structure schematic diagram of finger operation interaction device, fig. 2 shows the utility model discloses a three-dimensional structure schematic diagram of finger cap of finger operation interaction device, fig. 3 shows the utility model discloses a overlook the structural schematic diagram of finger operation interaction device's ring, fig. 4 shows the utility model discloses a side view structural schematic diagram of finger operation interaction device's ring. For the sake of convenience, only the parts relevant to the present invention are shown in the drawings.
As can be seen from fig. 1, 2, 3 and 4, the finger-operated interaction device comprises a finger cap 11 and a flexible connecting plate 12 connected to a cap opening end of the finger cap 11, wherein a plug 13 is connected to one end of the flexible connecting plate 12 far away from the finger cap 11, and a plurality of pressure contacts 14 electrically connected with the plug 13 are arranged on the finger cap 11; the intelligent finger ring comprises a finger ring 20, wherein a battery, a mainboard electrically connected with the battery and a Bluetooth chip electrically connected with the mainboard are fixedly arranged in the finger ring 20, and an interface electrically connected with the mainboard is arranged on the finger ring 20; the plug 13 is inserted into the interface on the finger ring 20, and the finger cap 11 is fixedly connected with the finger ring 20 and realizes electric connection.
When in use, the plug-in connector 13 is inserted into the interface on the ring 20 and is electrically connected with the mainboard of the ring 20, the ring 20 and the finger cap 11 are sleeved on the finger of a user, the interactive signal output with an intelligent wearable product is realized through a Bluetooth chip, because the finger cap 11 is provided with a plurality of pressure contacts 14 which are electrically connected with the plug-in connector 13, the detection signal can be transmitted to the mainboard through the plurality of pressure contacts 14, and then the mainboard carries out corresponding control operation according to the detection signal, because the plurality of pressure contacts 14 are arranged on the finger cap 11, the area of the pressure contacts 14 and the distance between the adjacent pressure contacts 14 can be correspondingly increased, the problems of insensitive touch and error touch can be avoided, and the plurality of pressure contacts 14 are arranged on the finger cap 11 and are positioned at the positions close to the fingertips of the finger, the operation is convenient, the finger operation interaction device can solve the problems of insensitive touch and easy error touch of the existing ring interaction control, the operating comfort is improved. Because the plug-in connector 13 is connected with the finger ring 20 in a plug-in manner, the finger cap 11 can be taken down from the finger when not in use, and only the finger ring 20 is kept to be worn on the finger of the user.
In this embodiment, the Flexible connecting board 12 is an FPC (Flexible Printed Circuit) board, the plug 13 is a gold finger plug electrically connected to the FPC board, and one end of the FPC board far from the gold finger plug and the plurality of pressure contacts 14 are all embedded inside the side wall of the finger cap 11.
The pressure contact 14 is generally a pressure strain gauge, and each of the plurality of pressure strain gauges is formed by an end portion of a plurality of metal conductive sheets inside the FPC board, and a pressure strain processing chip is mounted on the motherboard. The pressure strain processing chip can process and convert the resistance value change of the pressure contact 14, corresponding control operation is performed by the main board, the pressure contact 14 is set to be a pressure strain gauge, and the side wall thickness of the finger cap 11 cannot be affected.
Of course, the pressure contact 14 may also be a patch pressure sensor electrically connected to a plurality of metal conductive sheets inside the FPC board, and when in use, a pressure signal detected by the patch pressure sensor is directly transmitted to the main board, and the main board performs a corresponding control operation.
Specifically, the pressure contacts 14 are provided with five pressure contacts, namely, a middle pressure contact and four side pressure contacts arranged at intervals on the four sides of the middle pressure contact.
In this embodiment, the interface is disposed on an end surface of the ring 20 close to the finger cap 11, specifically, a socket electrically connected to the motherboard is mounted inside the ring 20, a socket 21 is disposed on a housing of the ring 20 corresponding to the socket, the socket 21 and the socket form an interface, and during connection, the plug 13 penetrates through the socket 21 to be electrically connected to the socket.
In this embodiment, a microphone electrically connected to the motherboard is disposed inside the ring 20, and a sound hole 22 is disposed on the housing of the ring 20 corresponding to the microphone, so that a voice signal can be picked up by the microphone, and the ring can be used to wake up an intelligent wearable product and perform voice control.
Generally, the microphone is disposed corresponding to the peripheral side wall of the case of the ring 20, and the sound hole 22 is disposed corresponding to the peripheral side wall of the case.
In this embodiment, the battery is set to be arc-shaped, so that the battery can be enlarged in a limited space, and the service life is prolonged.
In this embodiment, the finger cap 11 is made of soft material such as silica gel and soft rubber, and the finger ring 20 is made of metal and hard plastic.
The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.