阅读说明：本技术 一种可穿戴的光感应控制装置 (Wearable photoinduction control device ) 是由 朱存义 洪霞 姜丽 于 2019-11-01 设计创作，主要内容包括：一种可穿戴的光感应控制装置,它包括主壳与指环套,所述的主壳由上壳与下壳组成,所述上壳空腔内的上侧设有控制器,所述的电池盒嵌进下壳下侧的圆形口子后,并再由特种胶水固定,所述的电池盒内装上CR2032电池后,并由盖板盖住,所述的上壳与下壳对齐合拢后,并由螺杆拧紧固定,所述的上壳前侧均匀挖穿有线孔,所述每个指环套的前侧外缘分别往里挖成环形槽,所述每个指环套后侧的上部均设有线孔,所述每个指环套壁体空腔内的下部分别设有光敏感应器,所述每个尼龙电线的一头分别连接一个光敏感应器,所述每个尼龙电线的另一头分别连接控制器的一个信号输入端。(A wearable light sensing control device comprises a main shell and a ring sleeve, wherein the main shell consists of an upper shell and a lower shell, the upper side in the cavity of the upper shell is provided with a controller, after the battery box is embedded into the round opening at the lower side of the lower shell, and then fixed by special glue, after the CR2032 battery is arranged in the battery box and covered by the cover plate, after the upper shell and the lower shell are aligned and folded, and is screwed up and fixed by a screw rod, the front side of the upper shell is uniformly dug through with wire holes, the outer edge of the front side of each finger ring sleeve is respectively dug inwards to form an annular groove, the upper part of the rear side of each finger ring sleeve is provided with a wire hole, the lower part in the cavity of the wall body of each finger ring sleeve is respectively provided with a photosensitive sensor, one end of each nylon wire is connected with one photosensitive sensor, and the other end of each nylon wire is connected with one signal input end of the controller.)

1. A wearable light induction control device comprises a main shell and finger ring sleeves, and is characterized in that the main shell consists of an upper shell and a lower shell, screw holes are formed in four corners of the upper side of the upper shell, screw sleeves are respectively arranged in four corners of the lower side in a cavity of the lower shell, a circular opening is formed in the center of the lower side of the lower shell, conductive sheets are respectively arranged on the lower portions of two corresponding sides in a cavity of a battery box, the battery box is embedded into the circular opening of the lower side of the lower shell and then fixed by special glue, the opening of the battery box faces outwards, the battery box is provided with a matched cover plate, a CR2032 battery is arranged in the battery box and covered by the cover plate, the upper shell and the lower shell are aligned and folded and are tightly fixed by screws, wire holes are uniformly drilled in the front side of the upper shell, the outer edge of the front side of each finger ring sleeve is respectively drilled inwards to form an annular groove, and the lower side of each finger ring sleeve is provided with a round hole, the upper portion of every finger ring cover rear side all is equipped with the line hole, the ring channel of every finger ring cover front side all is furnished with assorted gland, the both ends outside that the inferior valve corresponds all is equipped with the link, every gland cover the ring channel opening of a finger ring cover front side outer fringe respectively, the area body both ends pass behind the inside cavity of a link respectively to fixed by special glue again, epitheca, inferior valve and ring cover make by silica gel material.

2. A wearable light sensing control device as claimed in claim 1, wherein a controller is provided at the upper central part of the cavity of the upper case, and the power input end of the controller is connected to the conductive sheets on the inner wall bodies at both sides of the battery case by nylon wires.

3. A wearable light-sensing control device according to claim 1, wherein a light-sensitive sensor is respectively arranged at the lower part in the cavity of each finger ring sleeve wall body, one end of each nylon wire respectively passes through a wire hole at the upper part of the rear side of the finger ring sleeve and is connected with the light-sensitive sensor, the other end of each nylon wire respectively passes through a wire hole at the front side of the upper shell and is connected with the signal input end of the controller, and the side edge of each wire hole at the front side of the upper shell and the corresponding nylon wire are fixed by special glue.

Technical Field

The invention relates to the field of toys, in particular to a wearable light sensing control device.

Background

The wearable control device is a novel control device of the intelligent toy, and is a special remote controller arranged outside the target toy, so that children can control the action of the target toy through various playing methods. At present, the known intelligent toy is generally controlled to start, close and act through a remote controller, the remote controller is really feasible to control the toy, the premise is that an operator needs to carry the toy with him, the carrying with him is not enough for adults, but for children, the operator feels bored after a long time, and the remote controller is easy to break and even lose.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a wearable photoinduction control device.A controller is arranged in a main shell of the control device, three finger rings are arranged in three wire holes at the upper part of the front side of the main shell, and a photosensitive sensor in the wall body of each finger ring is connected with the controller in the main shell by a nylon wire; such a control device controls various operations of the target toy by means of information transmission.

The purpose of the invention is realized by the following technical scheme: the solar cell comprises a main shell and a ring sleeve, wherein the main shell consists of an upper shell and a lower shell, the upper shell and the lower shell are both made of environment-friendly silica gel materials, screw holes are formed in four corners of the upper side of the upper shell, screw sleeves are respectively arranged in four corners of the lower side of the lower cavity of the lower shell, a controller is arranged at the middle position of the upper side of the upper cavity of the upper shell, a circular opening is formed in the middle position of the lower side of the lower shell, conducting strips are arranged at the lower parts of two corresponding sides in the cavity of a cell box, the cell box is embedded into the circular opening at the lower side of the lower shell and is fixed by special glue, the opening of the cell box faces outwards, the cell box is provided with a matched cover plate, a CR2032 cell is loaded in the cell box and is covered by the cover plate, and the cell; after the upper shell and the lower shell are aligned and folded, the upper shell and the lower shell are screwed and fixed by a screw, the front side of the upper shell is uniformly dug and penetrated with wire holes, and the front side of the upper shell is based on the position of the assembled upper shell and the assembled lower shell; each finger ring sleeve is made of environment-friendly silica gel, the outer edge of the front side of each finger ring sleeve is respectively dug inwards to form an annular groove, the lower side of each finger ring sleeve is provided with a round hole, the lower part in the cavity of the wall body of each finger ring sleeve is respectively provided with a photosensitive sensor, the sensing head of each photosensitive sensor is arranged in the round hole at the lower side of the corresponding finger ring sleeve, the cavity of the wall body of each finger ring sleeve is the annular groove in the wall body of each finger ring sleeve, the upper part at the rear side of each finger ring sleeve is provided with a wire hole, and the annular groove at the front side of each finger ring sleeve is provided with a gland; one end of each nylon wire respectively penetrates through a wire hole in the upper part of the rear side of the finger ring sleeve and is connected with a photosensitive sensor, the other end of each nylon wire respectively penetrates through a wire hole in the front side of the upper shell and is connected with a signal input end of the controller, the side edge of each wire hole in the front side of the upper shell and the periphery of the corresponding nylon wire are filled and fixed by special glue, the power supply input end of the controller is connected with conducting strips on inner wall bodies on two sides of the battery box through the nylon wire, hanging rings are arranged on the outer sides of two corresponding ends of the lower shell, and each pressing cover respectively covers an annular groove opening in the outer edge of the front side of the finger ring sleeve; two ends of the belt body respectively penetrate through the inner cavity of one hanging ring and then are bonded and fixed by special glue.

Drawings

Fig. 1 is a schematic view of an upper case and a lower case of the present invention.

Fig. 2 is an assembly view of the upper case and the lower case of the present invention.

Figure 3 is a schematic view of a finger ring cover of the present invention.

Fig. 4 is an overall configuration diagram of the present invention.

Fig. 5 is a schematic external plan view of the present invention.

Wherein; 1. an upper shell; 2. a controller; 3. a lower case; 4. a battery case; 5. a CR2032 battery; 6. a cover plate; 7. a wire hole; 8. a finger ring sleeve; 9. a photosensitive sensor; 10. a gland; 11. a circular hole; 12. a nylon wire; 13. hanging a ring; 14. a belt body;

Detailed Description

The present invention will be further described with reference to the accompanying drawings so that the objects, technical solutions and advantages of the present invention will be more apparent. It should be understood that the detailed description and specific examples, while indicating the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

In fig. 1, the main casing is composed of an upper casing 1 and a lower casing 3, one side of the upper casing 1 and one side of the lower casing 3 are both provided with openings, the inside of the upper casing 1 and the inside of the lower casing 3 are both provided with cavities, one side of the upper casing refers to the side where the upper casing 1 and the lower casing 3 are connected, four corners of the upper side of the upper casing 1 are provided with screw holes for screws to pass through, four corners of the lower side of the cavity of the lower casing 3 are respectively provided with screw sleeves for screws to be screwed in, the screw holes of the four corners of the upper side of the upper casing 1 are aligned with the screw sleeves of the four corners of the lower side of the cavity of the lower casing 3, four screw sleeves for fixing the controller 2 are uniformly arranged at the upper side center of the cavity of the upper casing 1, the controller 2 is fixed at the upper side center of the cavity of the upper casing 1 by screws, the lower side center of the lower casing 3 is provided with a circular opening for, the corresponding lower parts of the two sides in the cavity of the battery box 4 are respectively provided with a conducting strip, the conducting strips of the lower parts of the two sides in the cavity of the battery box 4 are respectively a positive conducting strip and a negative conducting strip, the upper parts of the other two sides in the cavity of the battery box 4 are respectively provided with a clamping groove for embedding a cover plate 6 into a reverse side clamping bolt, after the battery box 4 is embedded into the round opening at the lower side of the lower shell 3, and then fixed by environment-friendly special glue, the opening of the battery box 4 faces outwards, the opening side edge of the battery box 4 is as flat as the lower side of the lower shell 3, the battery box 4 is provided with a matched cover plate 6, the reverse outer edges of two corresponding sides of the cover plate 6 are respectively provided with a clamping bolt, after the CR2032 battery 5 is arranged in the battery box 4, and is covered by a cover plate 6, the CR2032 battery 5 is also called a button battery or a button battery, the upper side of the upper casing 1 and the lower side of the lower casing 3 are based on the assembled position of the upper casing and the lower casing.

Fig. 2 includes fig. 1, epitheca 1 and inferior valve 3 align to fold the back to it is fixed by the screw rod is screwed up, every screw rod be small size plum blossom screw rod, every screw rod all after passing the screw of 1 upside of epitheca, and screw into in the screw sleeve of the interior downside of inferior valve 3 cavity again, 1 front side of epitheca evenly be equipped with line hole 7.

Fig. 3 includes finger ring sleeves 8, a circular cavity surrounded by each finger ring sleeve 8 is only suitable for fingers of a child aged 3-8 to pass through, the outer edge of the front side of each finger ring sleeve 8 is respectively dug into an annular groove for passing a nylon wire 12, the lower side of each finger ring sleeve 8 is respectively provided with a round hole 11 for installing a sensor head of a photosensitive sensor 9, the front side and the lower side of each finger ring sleeve 8 are based on the position of each finger ring sleeve 8 assembled with a main shell, the outer edge of the front side of each finger ring sleeve 8 is the outer edge of a circular opening on the front side of each finger ring sleeve 8, the lower part in the cavity of the wall body of each finger ring sleeve 8 is respectively provided with a photosensitive sensor 9, the sensor head of each photosensitive sensor 9 is hidden in the round hole 11 on the lower side of the corresponding finger ring sleeve 8, each photosensitive sensor 9 is fixed by special environment-friendly glue, the annular groove in the cavity of each finger ring sleeve 8 is the inner wall body of each finger ring sleeve 8, the upper portion of the rear side of each finger ring sleeve 8 is provided with a wire hole 7, the upper portion of the rear side of each finger ring sleeve 8 is based on the position of each finger ring sleeve 8 after being assembled with the main shell, the annular groove of the front side of each finger ring sleeve 8 is provided with a matched gland 10, in order to better express the condition, each finger ring sleeve 8 in fig. 2 can only see the front side, and each finger ring sleeve 8 in fig. 2 can only see the lower side.

Fig. 4 includes fig. 2 and fig. 3, the nylon wires 12 are wires wrapped by an environment-friendly nylon sheath, one end of each nylon wire 12 respectively passes through a wire hole 7 at the upper part of the rear side of a finger ring sleeve 8 and is connected with a photosensitive sensor 9, the other end of each nylon wire 12 respectively passes through a wire hole 7 at the front side of an upper shell 1 and is connected with a signal input end of a controller 2, the power input end of the controller 2 is connected with conductive sheets on inner wall bodies at two sides of a battery box 4 through the nylon wires 12, one end of each nylon wire 12 passes through the wire hole 7 at the upper part of the rear side of the finger ring sleeve 8 from outside to inside and then respectively extends into an annular groove of the wall body of the corresponding finger ring sleeve 8, the side edge of each wire hole at the front side of the upper shell 1 and the periphery of the corresponding nylon wire 12 are filled and fixed by glue, so that the nylon wire 12 inside the main shell is not pulled out, hanging rings 13 used for connecting a belt body 14 are arranged on the outer sides of two corresponding ends of the lower shell 3, each hanging ring 13 is fixed on the outer side of one end of the lower shell 3 through welding, each gland 10 covers an opening of an annular groove in the outer edge of the front side of one finger ring sleeve 8 and is fixed through environment-friendly glue, and the length between each finger ring sleeve 8 and each wire hole in the front side of the upper shell 1 is enough for the hand to bend.

Fig. 5 includes fig. 4, the belt body 14 has a certain loosening and shrinking performance, and both ends of the belt body 14 respectively penetrate through the inner cavity of one hanging ring 13 and are bonded and fixed by environment-friendly special glue.

The wearing process is as follows: one hand of a user firstly penetrates through the belt body 14 at the lower part of the main shell, and then the front parts of the three middle fingers respectively extend into one finger ring sleeve 8, so that the whole main shell is arranged on the back of the hand of the user, after the three fingers wear the finger ring sleeves 8, the induction head of each photosensitive inductor 9 faces downwards, and the three nylon wires 12 fall on the upper sides of the three fingers.

The photosensitive sensor 9 is also called PCB micro photosensitive sensor 9, the photosensitive sensor 9 uses the projector to focus the light from the lens, and transmits the light to the lens of the light receiver, and then the light is received by the receiving sensor, finally the receiving sensor converts the received light signal into the electric signal, the telecommunication signal can further do various switch and control actions.

The controller 2 is a miniature version of the PLC controller 2, and the controller 2 is a novel control device integrating microelectronics, a computer, automatic control and communication technologies, and comprises a power supply module, a CPU module, a memory, an I/O input/output module, a bottom plate, a rack module, a communication module, a functional module and the like.

The controller 2 also has the functions of decoding, logic programming, program modification, downloading and the like, and the controller 2 can edit the way of opening the target toy by each photosensitive sensor 9 in advance, that is, the controller 2 can program the opening way of the electric signal of each photosensitive sensor 9 in advance: if controller 2 receives the signal of telecommunication of first photosensitive inductor 9, then can give the first start instruction for the object toy, after the instruction is received to the object toy, its head can swing ceaselessly, if controller 2 receives the signal of telecommunication of second photosensitive inductor 9, then can give the second start instruction for the object toy, after the instruction is received to the object toy, its hand can do various actions, if controller 2 receives the signal of telecommunication of third photosensitive inductor 9, then can give the third start instruction for the object toy, after the instruction is received to the object toy, its base can ceaselessly rotate.

The object toy is internally provided with a matched control device, the control device in the object toy has the functions of processing, receiving, sending and storing information and the like, and also has the functions of decoding and modifying programs and the like, when the object toy receives an information instruction sent by the device controller 2, the decoding processing is carried out, and after the information processing and storing, the control device in the object toy can start a certain driving motor in the object toy according to the programmed program.

The control device of the invention controls various actions of the object toy by a way of information transmission, namely, the control device can effectively control the object toy after authorizing the object toy, and can be understood as a remote controller special for the toy; in addition, a communication interface and an oscillation circuit matched with the controller 2 are also arranged in the control device of the object toy.

Operation demonstration: firstly, the main shell is worn at the back of one hand, and the front part of each finger is respectively extended into a finger ring sleeve 8; secondly, when a user straightens or semi-straightens the fingers in the first finger ring sleeve 8, the controller 2 receives a first type of electric signals, meanwhile, the controller 2 sends first starting instruction information to the object toy, and after the object toy receives the instruction information, the object toy starts a driving motor of the head according to a programmed program; thirdly, when the user straightens or semi-straightens the fingers in the second finger ring sleeve 8, the controller 2 receives a second type of electric signals, meanwhile, the controller 2 sends second starting instruction information to the object toy, and after the object toy receives the instruction information, the object toy starts a driving motor of a hand according to a programmed program; fourthly, when the user straightens or semi-straightens the fingers in the third finger ring sleeve 8, the controller 2 receives a third type of electric signals, meanwhile, the controller 2 sends third starting instruction information to the object toy, and after the object toy receives the instruction information, the object toy starts a driving motor of the base according to a programmed program; fifthly, when the fingers in one or more finger ring sleeves 8 bend to the palm, the sensing head of each photosensitive sensor 9 can be tightly attached to the corresponding palm, and at the moment, the controller 2 cannot receive the electric signals.

The control device is simple to operate; secondly, the playing methods are various; third, the experience and the perception of children can be effectively improved; fourthly, the carrying is convenient.