CN112739548A - Interactive device and interactive system - Google Patents

Abstract

An interactive device (10) and an interactive system (100). The interaction device (10) is used for a loose-leaf notebook (20), the loose-leaf notebook (20) comprises at least one loose-leaf (26), and at least one through hole (262) is formed in each loose-leaf (26). The interaction device (10) comprises a dome switch (12) and a detection module (14). The dome switch (12) includes two domes (122) that pass through a target through-hole (262) of the at least one through-hole (262). The aperture of the target through hole (262) is smaller than the maximum distance between the two elastic sheets (122), and when the hinge (26) turns along the elastic sheet switch (12), the two elastic sheets (122) are pressed and the two elastic sheets (122) are contacted. The detection module (14) is connected with the two elastic sheets (122), and the detection module (14) sends out an interaction signal when the two elastic sheets (122) are contacted.

Description

Interactive device and interactive system Technical Field

The present application relates to the field of electronic devices, and in particular, to an interactive apparatus and an interactive system.

Background

With the development of electronic technology, more and more products, devices or apparatuses have been electronized, so as to provide better interaction experience for users. For example, for people with high experience requirements, such as children and young people, products with interesting interaction functions are more attractive. With the improvement of the digitization degree, the page turning action of the loose-leaf notebook needs to be identified in a specific application environment, and the page turning technical scheme of the traditional loose-leaf notebook mainly adopts technical schemes of infrared sensing and the like, so that on one hand, the cost is higher; moreover, the weight of the notepad is increased, and the portability is poor.

Disclosure of Invention

The application provides an interaction device and an interaction system.

The interaction device of the embodiment of the application is used for a loose-leaf notebook, the loose-leaf notebook comprises at least one loose leaf, and at least one through hole is formed in each loose leaf. The interaction device comprises a spring switch and a detection module. The elastic piece switch comprises two elastic pieces which penetrate through a target through hole in the at least one through hole. The aperture of the target through hole is smaller than the maximum distance between the two elastic sheets, and when the hinge turns along the elastic sheet switch, the two elastic sheets are squeezed and are contacted. The detection module is connected with the two elastic sheets and sends out an interaction signal when the two elastic sheets are in contact.

The interactive system of the embodiment of the application comprises the interactive device of the embodiment and a terminal in communication connection with the interactive device, wherein the terminal receives an interactive signal to implement a preset operation.

In the interaction device and the interaction system of the embodiment of the application, when a user turns the hinges to extrude the extrusion parts of the two elastic sheets of the elastic sheet switch, the interaction between the detection module and the user can be triggered when the contact parts of the two elastic sheets are in contact, the interestingness is strong, better experience is achieved, and the attraction of using the loose-leaf notebook is improved.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic perspective view of an interactive system according to an embodiment of the present application;

FIG. 2 is a schematic perspective exploded view of an interaction device according to an embodiment of the present application;

fig. 3 is a schematic perspective view of a dome switch according to an embodiment of the present disclosure;

fig. 4 is a schematic top view of a dome switch according to an embodiment of the present disclosure;

fig. 5 is a schematic front view of a dome switch according to an embodiment of the present disclosure;

fig. 6 is a schematic perspective view of an interaction device according to an embodiment of the present application.

Description of the main element symbols: interaction device 10, dome switch 12, dome 122, fixing portion 1221, contact portion 1222, pressing portion 1223, connecting portion 124, detection module 14, processor 142, mounting box 16, plate 162, notch 1622, cover 164, mounting space 166, second dome switch 18, second contact portion 1822, second pressing portion 1823, loose-leaf notebook 20, cover 22, loose-leaf ring 24, loose-leaf 26, through hole 262, terminal 30, and interaction system 100.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, 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," "outer," "clockwise," "counterclockwise," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be construed as limiting the present application. 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, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. 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.

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Referring to fig. 1, an interactive device 10 and an interactive system 100 are provided.

The interactive device 10 of the present embodiment is used for a loose-leaf notebook 20, and the loose-leaf notebook 20 includes at least one hinge 26, and at least one through hole 262 is formed on each hinge 26. The interaction device 10 includes a dome switch 12 and a detection module 14. The dome switch 12 includes two domes 122 passing through a target through hole 262 of the at least one through hole 262, wherein the aperture of the target through hole 262 is smaller than the maximum distance between the two domes 122, and when the hinge 26 is flipped along the dome switch 12, the two domes 122 are pressed and the two domes 122 are brought into contact with each other. The detection module 14 is connected with the two elastic pieces 122, and the detection module 14 sends out an interaction signal when the two elastic pieces 122 are in contact.

Specifically, referring to fig. 2 and 3, in one embodiment of the present application, the loose-leaf notepad 20 includes a cover 22, at least one ring 24, and at least one hinge 26, wherein the at least one ring 24 is fixed on the cover 22, the hinge 26 is formed with a plurality of through holes 262, and the ring 24 passes through the corresponding through hole 262 so that the hinge 26 can be flipped along the ring 24.

Referring to fig. 4-6, the interactive device 10 includes a dome switch 12 and a detection module 14. The leaf spring switch 12 includes two leaf springs 122 extending along the extending direction of the loose-leaf ring 24 through the target through hole 262 of the at least one through hole 262. The two resilient pieces 122 include a fixing portion 1221 fixed to the cover 22, a contact portion 1222 connected to the fixing portion 1221, and a pressing portion 1223 connected to the contact portion 1222. The two elastic pieces 122 are symmetrically arranged at intervals. The aperture of the target through hole 262 is smaller than the distance between the two pressing portions 1223 and larger than the distance between the two contact portions 1222, so that the hinge 26 presses the two pressing portions 1223 when it is flipped along the hinge ring 24 and brings the two contact portions 1222 into contact. The detection module 14 is connected to the two elastic pieces 122, and the detection module 14 sends out an interaction signal when the two contact portions 1222 are contacted.

In the interaction device 10 of the embodiment of the present application, when the user turns the hinge 26 to squeeze the two squeezing portions 1223 of the two elastic sheets 122, the squeezing portions 1223 drive the two elastic sheets 122 to approach each other, and simultaneously the two contact portions 1222 are also close to each other until contacting each other, so as to trigger the interaction between the detection module 14 and the user, which is interesting and has better experience and improves the attraction of using the loose-leaf notepad 20.

Specifically, at least one of the flaps 26 is formed with at least one through hole 262, i.e., the number of the through holes 262 of the flap 26 may be 1 or more. The two resilient sheets 122 and other components in the interactive apparatus 10 may form a control circuit (not shown), and the control circuit may be in different states when the two contact portions 1222 are separated and contacted, respectively, where the different states may be connected or disconnected, and the electric signal is stronger or weaker, etc.

It should be noted that in the present embodiment, the cover 22 is a covering and supporting structure of the outermost layer of the loose-leaf notebook 20, which can be used to protect the loose-leaf pages 26 and to mount the loose-leaf notebook 20 and the rest of the components of the interaction device 10, and the ring 24 can be used to assist the flipping of the loose-leaf pages 26, for example, when only one dome switch 12 is provided, the ring 24 is spaced from the dome switch 12 to make the flipping of the loose-leaf pages 26 more smooth and smooth.

Of course, in other embodiments, the cover 22 and the rings 24 are optional, such as the cover 22 and the rings 24 may be eliminated, or only one of the cover 22 and the rings 24 may be retained, to simplify the structure of the loose-leaf notebook 20. In addition, in further embodiments, the cover 22 and the ring 24 may be in other forms, for example, the cover 22 may be in the form of a cover, a carrier, or a mounting member, and the ring 24 may be in the form of a connecting member, a rotating member, or the like, and is not limited in particular.

In some embodiments, each spring 122 includes a contact portion 1222 and a pressing portion 1223 connected to the contact portion 1222, the maximum distance between the two pressing portions 1223 is the maximum distance between the two springs 122, and the minimum distance between the two contact portions 1222 is the minimum distance between the two springs 122.

It can be understood that the two spring plates 122 are pressed to deform, the overall structure of the spring plates 122 is substantially unchanged, the two pressing portions 1223 are close to each other, the two contact portions 1222 are close to each other, the maximum distance between the two pressing portions 1223 is the maximum distance between the two spring plates 122, and the minimum distance between the two contact portions 1222 is the minimum distance between the two spring plates 122. When the two elastic pieces are restored to the natural state from the pressed state, the two pressing portions 1223 are away from each other, the two contact portions 1222 are away from each other, the maximum distance between the two pressing portions 1223 is the maximum distance between the two elastic pieces 122, and the minimum distance between the two contact portions 1222 is the minimum distance between the two elastic pieces 122. That is, the maximum distance between the two pressing portions 1223 is the maximum distance between the two spring pieces 122, and the minimum distance between the two contact 1222 portions is the minimum distance between the two spring pieces 122, whether in the state where the spring pieces 121 are pressed or in the state where they are not pressed.

In one embodiment, the control circuit may transmit an electrical signal when it is on and not transmit an electrical signal when it is off. When the two contacts 1222 are not in contact, the control circuit is in an open state, the control circuit does not transmit an electrical signal, and the detection module 14 does not send out an interaction signal; when the two contact portions 1222 are in contact, the control circuit is in a connected state, and at this time, the control circuit transmits an electrical signal, and the detection module 14 sends out an interaction signal.

More specifically, the two elastic sheets 122 may be made of a metal material with good conductivity and certain strength and elasticity, so that when the two pressing portions 1223 are pressed by the hinge 26, they are elastically deformed, and during the short contact of the two contact portions 1222, the normal transmission of the electrical signal can be ensured, so that the detection module 14 sends out the interaction signal.

Referring to fig. 4, in some embodiments, the pressing portions 1223 are respectively shaped as an arc formed by bending the elastic sheet 122 outward, the bending directions of the two pressing portions 1223 are opposite, and the two pressing portions 1223 are bent oppositely. Or, the pressing portion 1223 is formed by bending at least one elastic sheet 122 away from another elastic sheet 122.

Specifically, the pressing portion 1223 extends outward to form an arc shape, so that the two elastic pieces 122 are turned outwards. Thus, the distance between the two pressing portions 1223 is larger than the distance between the other parts of the dome switch 12, and a more appropriate pressing shape is formed, when the leaflet 26 is turned, the two pressing portions 1223 are pressed in the through hole 262 before the other parts of the dome switch 12, and the arc-shaped pressing portions 1223 facilitate the turning of the leaflet 26 without being stuck.

More, the lateral surfaces of the two extrusion parts 1223 are smooth surfaces, and the radian of the extrusion parts 1223 is gentle, so that the friction between the loose-leaf 26 and the extrusion parts 1223 can be reduced, and the loose-leaf 26 can be turned conveniently. Of course, the curvature of the pressing portion 1223 is not limited to a gentle curvature, and the outer side surface of the pressing portion 1223 is not limited to a smooth surface, and may be selected specifically in the specific embodiment.

Referring further to fig. 4, in some embodiments, the contact portions 1222 are curved inward, the two contact portions 1222 are curved in opposite directions, and the two contact portions 1222 are curved toward each other. Alternatively, the contact portion 1222 is formed by bending at least one elastic sheet 122 toward another elastic sheet 122.

Specifically, the contact portions 1222 are inwardly extended to form an arc shape, so that the two elastic sheets 122 are inwardly recessed, and thus the distance between the two contact portions 1222 is small, when the two pressing portions 1223 slide in the through holes 262 until being pressed by the hinges 26 to approach each other, the two contact portions 1222 are brought close to each other and then contact each other. It can be understood that the smaller the distance between the two contact portions 1222, the earlier the two contact portions 1222 contact during the flipping of the leaflet 26.

Further, referring to fig. 4, the sum of the minimum distance a between the two contact portions 1222 and the aperture B of the through hole 262 of the hinge is less than or equal to the maximum distance C between the two pressing portions 1223, so that the two contact portions 1222 can be in contact with each other when the two pressing portions 1223 are pressed by the through hole 262.

In one embodiment, the aperture B of the through hole 262 may be 5.6mm, the minimum distance a between the two contact portions 1222 may be 0.4mm, and the maximum distance C between the two pressing portions 1223 may be 6.2 mm. Of course, the minimum distance a between the two contact portions 1222 may be 0.5mm or less than any value between the maximum distance C between the two pressing portions 1223 and the difference of the aperture diameter B of the through-hole 262.

It is understood that the sum of the minimum distance a between the two contact portions 1222 and the aperture B of the through hole 262 of the hinge is smaller than or equal to the maximum distance C between the two pressing portions 1223, and the above-mentioned value of A, B, C and the magnitude relationship between them refer to the distance of the dome switch 12 in the non-pressed state. When the dome switch 12 is pressed, the value of A, B, C may change to some extent due to the deformation of the dome switch 12.

Referring to fig. 2 and fig. 3, in some embodiments, the dome switch 12 further includes a connecting portion 124, each dome 122 includes two fixing portions 1221, and the two fixing portions 1221 on the same side are fixed on the same connecting portion 124.

Specifically, the number of the connecting portions 124 is two, and the two connecting portions 124 are respectively disposed at two ends of the dome switch 12, that is, the two connecting portions 124 are respectively fixedly disposed with the four fixing portions 1221, so that the two connecting portions 124 fixedly connect the two domes 122. The two fixing portions 1221 can be connected with wires for connecting with the circuit of the interactive device 10, so that the dome switch 12 has the switch function of the circuit. Preferably, both fixing portions 1221 may be made of plastic.

In some embodiments, the number of dome switches 12 is a single.

Specifically, the single leaf spring switch 12 is arranged in parallel with the at least one leaf ring 24, and the through hole 262 of the leaf 26 correspondingly penetrates through the at least one leaf ring 24 and the single leaf spring switch 12, so that the leaf 26 is convenient to turn over through the at least one leaf ring 24 and the single leaf spring switch 12, and the structure of the loose-leaf notebook 20 can be simplified on the premise that the loose-leaf notebook 20 has the interaction of the interaction device 10.

Of course, the number of dome switches 12 is not limited to the single one mentioned above, and may be selected specifically in a specific embodiment.

Referring to fig. 4, in some embodiments, when two contacts 1222 are in contact, the dome switches 12 generate trigger signals, the number of the dome switches 12 is at least two, and when the hinge 26 is flipped along the direction of the ring 24, at least two dome switches 12 generate trigger signals at different times.

The interactive device 10 of the present embodiment can also be used to calculate the page number of the loose-leaf notepad 20. The number of the dome switches 12 is at least two. Preferably, in one embodiment, the number of the dome switches 12 is two, and two dome switches 12, i.e., the first dome switch 12 and the second dome switch 18, will be described as an example.

Specifically, referring to fig. 1 and fig. 4, first, the first dome switch 12 is disposed, and then, the second dome switch 18 is disposed symmetrically to the first dome switch 12, and the contact portion 1222 of the first dome switch 12 and the second contact portion 1822 of the second dome switch 18 are respectively located on two sides of the turning axis (indicated by D in fig. 1) of the hinge 26. The second contact portion 1822 of the second dome switch 18 and the contact portion 1222 of the first dome switch 12 are respectively close to the hinges 26 on both sides. The distance between the two contact portions 1222 of the first dome switch 12 is smaller than the distance between any portions of the two domes 122, the distance between the two domes 122 gradually increases from left to right until the top center of the two domes 122, when the distance between the aperture of the leaf 26 and the dome switch 12 decreases until the leaf 26 compresses the pressing portion 1223, the acting force is biased to the left, so that the two contact portions 1222 of the minimum distance contact each other first, and when the contact portion 1222 of the first dome switch 12 and the second contact portion 1822 of the second dome switch 18 are located on different sides of the leaf 26, the acting force biased to different sides of the leaf is biased differently, thereby causing a time difference in contact.

In summary, the dome switch 12 includes a first dome switch 12 and a second dome switch 18, the contact portion 1222 of the first dome switch 12 and the second contact portion 1822 of the second dome switch 18 are respectively located on two sides of the turning axis of the hinge 26, and when the hinge 26 turns in different directions, the first dome switch 12 contacts the second dome switch 18 at different times.

Thus, the two contact portions 1222 are contacted with each other and the two second contact portions 1822 are contacted with each other during the page turning of the leaflet 26. However, the difference in the flipping direction of the leaflet 26 may cause the two contact portions 1222 to contact the two second contact portions 1822 in a sequential order, for example, when the leaflet 26 is flipped from left to right, the force is applied from the left side of the first dome switch 12/the second dome switch 18 to the right side, so the contact portion 1222 on the left side contacts before the second contact portion 1822 on the right side, when the leaflet 26 is flipped from right to left, the force is applied from the right side of the second dome switch 18/the first dome switch 12 to the left side, so the second contact portion 1822 on the right side contacts before the contact portion 1222 on the left side, and the flipping direction of the leaflet 26 can be determined according to this sequential order.

In summary, the dome switch 12 can also be used to determine the turning direction of the leaflet 26 according to the contact time of the two domes 122 of the first dome switch 12 and the contact time of the two domes of the second dome switch 18.

In addition, taking the first dome switch 12 and the second dome switch 18 as an example, the contact portion 1222 of the first dome switch 12 is close to the left hinge 26, and the second contact portion 1822 of the second dome switch 18 is close to the right hinge 26. When the page is turned from left to right as shown in fig. 4, the pressing portion 1223 of the first dome switch 12 is deformed simultaneously with the pressing portion 1823 of the second dome switch 18, and since the leaflet 26 is turned from left to right, the amount of deformation of the contact portion 1222 on the left side is greater than that of the contact portion 1822 on the right side before the leaflet 26 is not turned to the center of the pressing portions (1223, 1823), and the contact portions 1222 on the left side come into contact with each other before the contact portions 1822 on the right side. Therefore, the signal triggering the contact portion 1222 of the first dome switch 12 first triggers the signal triggering the second contact portion 1822 of the second dome switch 18, and the page turning from left to right can be determined. The principle of the opposite page turning direction, i.e. the first activation of the second elastic switch 18, is the same as the principle of the first elastic switch 12, and will not be described in detail here.

Referring to fig. 2, in some embodiments, the detection module 14 includes a processor 142 and a signal generator (not shown), the processor 142 is connected to the dome switch 12, the signal generator is connected to the processor 142, and the processor 142 controls the signal generator to send out an interaction signal when the contact portion 1222 is contacted.

Specifically, the processor 142 may be configured to receive an electrical signal generated by the control circuit when the dome switch 12 is turned on; or, further, when the interactive device 10 is used for counting the page number of the loose-leaf notebook 20, the processor 142 is configured to receive a first electrical signal generated by the control circuit when the first dome switch is turned on and a second electrical signal generated by the control circuit when the second dome switch is turned on, and the processor 142 is further configured to determine which of the first electrical signal and the second electrical signal is received first, and if the first electrical signal is received before the second electrical signal, the processor 142 records that the page is turned forward once; if the first electrical signal is received after the second electrical signal, the processor 142 records a page turn back once.

In some embodiments, the interactive signal includes one or more of a sound signal, a light signal, a vibration signal, and a wireless communication signal.

It is understood that the signal generator may be a sound generating device (such as a buzzer, a sound device, etc.), a light emitting device (such as a bulb, a lamp tube, etc.), a vibration motor, a transmitter of bluetooth, etc., the sound signal may be sound generated by the sound generating device, the light signal may be light generated by the light emitting device, etc., the vibration signal may be vibration generated by the operation of the motor, and the wireless communication signal may be a wireless transmission signal generated by bluetooth, etc. The various signals emitted by the signal generator can be used in the interactive device 10 individually or in combination, for example, the sound signal is combined with the light-emitting signal, the sound signal is combined with the vibration signal, the light signal is combined with the vibration signal, and the like, so that more use experiences are provided for the user.

Referring to fig. 2, in some embodiments, the interaction device 10 further includes a mounting box 16, the mounting box 16 is mounted on a side of the cover 22 opposite to the dome switch 12, and the detection module 14 is at least partially mounted in the mounting box 16.

Specifically, the mounting box 16 may have a long rectangular shape, so that the mounting box 16 is convenient for arranging the rest of the components of the interactive device 10, such as the processor 142, the signal generator, the control circuit, the wires, etc., and can provide protection for the above components, and make the internal structure of the interactive device 10 more integrated and miniaturized.

The detection module 14 is at least partially installed in the installation box 16, and it can be understood that, if the signal generator needs to send out an interaction signal (such as a sound signal and an optical signal) to the outside, the signal generator can be exposed from the inside of the installation box 16 to make the signal more easily received in order to make the user receive the interaction signal conveniently (hear sound, see light, etc.); the signal generator of the vibration signal and the wireless communication signal can be completely accommodated in the mounting box 16, and can be received by a user in the mounting box 16.

The predetermined operation may be performed by the control processor 142 to control the interactive signal sent by the signal generator, such as the sound level, the sound length, the sound frequency, and different voice contents of the triggered sound signal, the brightness, the light flashing frequency, the light emitting duration, and the light color of the light emitting signal, and the vibration intensity, the vibration frequency, and the vibration duration of the vibration signal.

In one embodiment, the mounting box 16 may be made of plastic or metal, the plastic mounting box 16 has certain strength, light weight, and insulation, which improves the safety of the mounting box 16, and the metal mounting box 16 has high strength and wear resistance, which improves the service life of the mounting box 16. Of course, the material of the mounting box 16 is not limited to the above-mentioned metal and plastic, and may be selected specifically in the specific embodiment.

Referring further to fig. 2, in some embodiments, the mounting box 16 includes a plate 162 and a cover 164 detachably connected to each other, the plate 162 is fixedly connected to the cover 22, the cover 164 and the plate 162 are combined to form a mounting space 166, and the detection module 14 is at least partially mounted in the mounting space 166.

Specifically, the plate 162 and the cover 164 can be fastened and fixed to each other by providing a fastening structure on the plate 162 and the cover 164, or can be fastened and fixed by providing a screw and a screw hole structure on the plate 162 and the cover 164. The plate 162 is provided with two notches 1622, and the two connecting portions 124 of the dome switch 12 are respectively fixed on the cover 164 through the two notches 1622, so that the dome switch 12 is fixed on the mounting box 16. Two resilient tabs 122 project from the plate body 162 to facilitate the flap 26 to be flipped over the two resilient tabs 122.

Furthermore, the interactive apparatus 10 further includes a printed circuit board (not shown) and a power supply (not shown), and the processor 142, the control circuit and the power supply are disposed on the printed circuit board. The power supply can comprise a battery box and dry batteries, the battery box is arranged on the printed circuit board, and the dry batteries are arranged in the battery box. Preferably, the dry cell battery is a rechargeable battery.

Referring to fig. 1 and 3, an interactive system 100 according to an embodiment of the present application includes an interactive device 10 according to any of the above embodiments and a terminal 30 communicatively connected to the interactive device 10, where the terminal 30 receives an interactive signal to perform a predetermined operation.

In the interaction system 100 of the embodiment of the application, when the user turns the hinge 26 to squeeze the two squeezing portions 1223 of the two elastic pieces 122, the squeezing portions 1223 drive the two elastic pieces 122 to approach each other, and simultaneously the two contact portions 1222 are also close to each other until contacting each other, so that the interaction between the detection module 14 and the user can be triggered, and the interaction is strong in interestingness and has better experience. The interactive system 100 is formed by connecting the interactive device 10 and the terminal 30 in a communication manner, and a user can perform a predetermined operation on the terminal 30 (such as a smart phone, a tablet computer, or an intelligent wearable device), for example, control an interactive signal of the interactive system 100, so that the operation is more convenient.

More, the communication connection mode may include at least one of a Zigbee connection mode, a WIFI connection mode, a GSM connection mode, a GPRS connection mode, a 4G connection mode, a 433M connection mode, a 2.4G connection mode, or a bluetooth connection mode. Preferably, in the embodiment of the present application, the communication connection mode adopts a bluetooth connection.

In some embodiments, the predetermined operation includes at least one of page turning, counting, adjusting display brightness, adjusting sound level.

Specifically, when the interactive device 10 incorporates the page turn count of the leaflet 22, page turn and count actions may be displayed on the terminal 30. For example, when the page is turned on the interactive device 10, the page is also turned on a display interface (e.g., reading an electronic book, browsing a web page, etc.) corresponding to the terminal 30 (forward page turning forward, backward page turning backward); as another example, turning the page forward may increase the volume of the terminal 30, increase the display brightness of the terminal 30, etc., and turning the page backward may decrease the volume of the terminal 30, decrease the display brightness of the terminal 30, etc.

In the description herein, references to the description of the terms "one embodiment," "certain embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like 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 present application. In this specification, schematic representations of the above terms 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.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: numerous changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (15)

1. An interaction device for a loose-leaf notebook, the loose-leaf notebook comprising at least one hinge, the at least one hinge being respectively formed with at least one through hole, the interaction device comprising:

   the elastic sheet switch comprises two elastic sheets penetrating through a target through hole in the at least one through hole, the aperture of the target through hole is smaller than the maximum distance between the two elastic sheets, and when the hinge is turned along the elastic sheet switch, the two elastic sheets are squeezed and are contacted; and

   the detection module is connected with the two elastic sheets and sends out an interaction signal when the two elastic sheets are in contact.
2. The interaction device according to claim 1, wherein each of the resilient pieces comprises a contact portion and a pressing portion connected to the contact portion, a maximum distance between the two pressing portions is a maximum distance between the two resilient pieces, and a minimum distance between the two contact portions is a minimum distance between the two resilient pieces.
3. The interaction device of claim 2, wherein the sum of the minimum distance between two of the contact portions and the aperture of the through hole is less than or equal to the maximum distance between two of the pressing portions.
4. The interaction device of claim 2, wherein the pressing portion is formed by bending at least one of the resilient sheets away from the other resilient sheet.
5. The interaction device of claim 2, wherein the contact portion is formed by bending at least one of the resilient pieces toward the other resilient piece.
6. The interactive device as claimed in claim 1, wherein the dome switch further comprises a connecting portion, each dome comprises two fixing portions, and the two fixing portions on the same side are fixed on the same connecting portion.
7. The interaction device of claim 1, wherein the number of dome switches is a single.
8. The interaction device of claim 1, wherein the dome switch comprises a first dome switch and a second dome switch, wherein a contact portion of the first dome switch and a contact portion of the second dome switch are respectively located on two sides of a turning axis of the leaflet, and the first dome switch and the second dome switch contact at different times when the leaflet is turned in different directions.
9. The interaction device of claim 8, wherein the dome switch is further configured to determine a flip direction of the leaflet based on a contact time of two domes of the first dome switch and a contact time of two domes of the second dome switch.
10. The interaction device according to any one of claims 2 to 9, wherein the detection module comprises a processor and a signal generator, the processor is connected with the dome switch, the signal generator is connected with the processor, and the processor is configured to control the signal generator to send out the interaction signal when the contact portions are in contact.
11. The interactive apparatus of claim 10, wherein the interactive signal comprises one or more of a sound signal, a light signal, a vibration signal, and a wireless communication signal.
12. The interaction device according to claim 10, further comprising a mounting box, wherein the mounting box is mounted on a side of the leaf opposite to the dome switch, and the detection module is at least partially mounted in the mounting box.
13. The interaction device according to claim 12, wherein the mounting box comprises a board body and a cover body, the board body and the cover body are detachably connected, the cover body and the board body are combined to form a mounting space, and the detection module is at least partially mounted in the mounting space.
14. An interactive system, comprising:

    the interaction device of any one of claims 1-13; and

    and the terminal is in communication connection with the interaction device and receives the interaction signal to implement preset operation.
15. The interactive system of claim 14, wherein the predetermined operations include one or more of page flipping, counting, adjusting display brightness, adjusting sound volume.

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