CN109171050B - Intelligent interactive music children garment and interaction method thereof - Google Patents

Abstract

The invention discloses intelligent interactive music children's garments and an interactive method based on the intelligent interactive music children's garments, which comprises a garment body and a microcontroller, wherein the garment body is provided with a front garment body and a back garment body; the pressure sensor group can collect pressure signals, transmit the pressure signals to the micro controller through the conductive yarns to be processed to generate control signals, and the micro controller sends the control signals to the micro loudspeaker to be executed. The invention has the beneficial effects that: firstly, the sensors positioned on the two sides of the sleeves are pressed to excite the micro-speaker to play corresponding music melodies, and meanwhile, the music volume can also change according to different pressing pressure degrees; secondly, by wearing the clothes, the children can not only obtain the audio-visual interactive experience of intelligence development, but also exercise the strength and flexibility of the limbs in the interaction, and benefit the body and mind.

Description

Intelligent interactive music children garment and interaction method thereof

Technical Field

The invention relates to the technical field of intelligent clothes, in particular to intelligent interactive music children clothes and an interaction method based on the intelligent interactive music children clothes.

Background

In recent years, a great deal of psychological and cognitive researches show that the stimulation of sound is very beneficial to the early development of the human brain. In addition to improving intelligence, music can also promote the healthy development of children psychology. In the market today, various toys with music interaction function are in endless. In fact, compared with toys and clothes, the clothes are the products which are contacted with the human body most closely, and are better carriers for realizing the interaction between children and the outside safely and without burden. At present, various interesting children's garments with music playing function are related to the children's garments and are more common. However, most of these products play music out through a sound component installed at a certain part of the clothes in a unilateral way without feedback, and are controlled by a simple switch, so that the interaction with the wearing children is not realized in a real sense. Furthermore, the integrated circuit components used for these music children's garments in the past, such as wires, batteries, switches, etc., all present poor compatibility with the garment in terms of appearance, weight, flexibility, sewability, etc., which easily results in the lack of comfort and safety of the whole garment.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above-mentioned conventional problems.

Therefore, the invention aims to provide intelligent interactive music children's garments which can be pressed to produce sound by combining the intelligent garment design concept and method based on the physical and mental development requirements of children.

In order to solve the technical problems, the invention provides the following technical scheme: an intelligent interactive music children garment comprises a garment body, wherein the garment body comprises a micro loudspeaker and a pressure sensor group which are arranged on the garment body; the micro controller is arranged on the garment body and is respectively connected with the micro loudspeaker and the pressure sensor group through conductive yarns; the pressure sensor group can collect pressure signals, transmit the pressure signals to the micro controller through the conductive yarns to be processed to generate control signals, and the micro controller sends the control signals to the micro loudspeaker to be executed.

As a preferred scheme of the intelligent interactive music children garment, the intelligent interactive music children garment comprises the following steps: the microcontroller is a wearable microcontroller mainboard and further comprises positive and negative electrode pins, an analog end pin, a miniature music player, a sensor resistor and a power interface; the positive electrode of the positive and negative pins is connected with the sensor resistor, the sensor resistor is correspondingly connected with the analog end pin, the input end of the miniature music player is connected with the positive and negative pins, and the output end of the miniature music player is connected with the miniature loudspeaker.

As a preferred scheme of the intelligent interactive music children garment, the intelligent interactive music children garment comprises the following steps: the pressure sensor group comprises a plurality of fabric pressure sensors, and each sensor comprises a common fabric, a pressure-sensitive film and a conductive fabric; the sandwich structure of sandwich is formed by the conductive fabric and the common fabric which are arranged outwards in sequence on both sides of the pressure-sensitive film, and the conductive fabric is connected with the conductive yarns.

As a preferred scheme of the intelligent interactive music children garment, the intelligent interactive music children garment comprises the following steps: the conductive yarns further comprise a first yarn and a second yarn; the first yarn is a yarn with one end connected with the negative electrode of the microcontroller; one end of the second yarn is connected with the analog end pin, and the other ends of the first yarn and the second yarn are respectively connected with the conductive fabric on the upper layer and the lower layer.

As a preferred scheme of the intelligent interactive music children garment, the intelligent interactive music children garment comprises the following steps: the power supply module is a micro battery, and the output end of the power supply module is connected with the power supply interface.

As a preferred scheme of the intelligent interactive music children garment, the intelligent interactive music children garment comprises the following steps: the micro-controller is positioned above the back of the clothing body, and the micro-speaker is a micro-loudspeaker and is positioned at the upper position of the chest of the clothing body; the pressure sensor group is positioned on the sleeves on the two sides of the garment body.

Another object of the present invention is to provide an interactive method.

In order to solve the technical problems, the invention provides the following technical scheme: the intelligent interactive music children garment further comprises the following steps that collected pressing signals are converted into electric signals through pressing of a pressure sensor on the garment body, and the electric signals are transmitted to the microcontroller through the conductive yarns; the micro controller processes the converted electric signal and sends a driving signal, the driving signal is transmitted to the micro music player through the conductive yarn, and the micro speaker sends out a preset music melody.

As a preferred scheme of the interaction method for children's garments based on intelligent interaction music, the interaction method comprises the following steps: by pressing the pressure sensors at different positions in the pressure sensor group, each sensor respectively plays different music melodies, and the volume of the music correspondingly rises or falls along with the strength change of the pressing force, so that the interaction with a wearer is realized.

As a preferred scheme of the interaction method for children's garments based on intelligent interaction music, the interaction method comprises the following steps: when the pressure sensor receives external pressure, the resistance of the sensor changes due to different pressure degrees, and the reaction region of the brake can be set by measuring the change range of the resistance.

As a preferred scheme of the interaction method for children's garments based on intelligent interaction music, the interaction method comprises the following steps: the reaction interval of the micro-speaker is changed by the resistance caused by the pressure change, so that the pressed value range can correspond to a range of the resistance change, and the playing volume can be adjusted in real time according to the changed resistance.

The invention has the beneficial effects that: firstly, the sensors positioned on the two sides of the sleeves are pressed to excite the micro-speaker to play corresponding music melodies, and meanwhile, the music volume can also change according to different pressing pressure degrees; secondly, by wearing the clothes, the children can not only obtain the audio-visual interactive experience of intelligence development, but also exercise the strength and flexibility of the limbs in the interaction, and benefit the body and mind.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

FIG. 1 is a schematic front view and a circuit layout of an intelligent interactive music children's garment according to a first embodiment of the invention;

FIG. 2 is a schematic rear view and a circuit layout of the intelligent interactive music children's garment according to the first embodiment of the invention;

FIG. 3 is a schematic diagram showing the overall structure of a microcontroller in an intelligent interactive music children's garment according to a second embodiment of the invention;

FIG. 4 is a schematic structural diagram of a fabric pressure sensor in an intelligent interactive music children garment according to a second embodiment of the invention;

FIG. 5 is a schematic structural diagram illustrating a principle of the interaction method of the intelligent interactive music-based children garment according to the present invention;

FIG. 6 is a schematic diagram illustrating the position of the wire docking device in the intelligent interactive music children's garment according to the fourth embodiment of the present invention;

FIG. 7 is a schematic overall structure diagram of a wire docking device for intelligent interactive music children's garments according to a fourth embodiment of the present invention;

fig. 8 is a schematic structural view of a first unit in a wire-aligning device according to a fourth embodiment of the present invention;

fig. 9 is a schematic structural diagram of a position relationship between a first pressing member and a first pressing member in a wire aligning device according to a fourth embodiment of the present invention;

fig. 10 is a schematic view showing the overall structure of a first pressing member in a wire aligning device according to a fourth embodiment of the present invention;

fig. 11 is a schematic structural diagram of a first pressing member mounted on a first single body 501 according to a fourth embodiment of the present invention;

fig. 12 is a schematic structural view of a second unit in a wire-aligning device according to a fourth embodiment of the present invention;

fig. 13 is a schematic structural view of a second threading opening in a wire aligning device according to a fourth embodiment of the present invention;

FIG. 14 is a schematic structural view of a first threading opening of a wire docking device according to a fourth embodiment of the present invention after being opened;

fig. 15 is a schematic view showing the overall structure of a cassette assembly in a wire-pairing apparatus according to a fourth embodiment of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, specific embodiments accompanied with figures are described in detail below, and it is apparent that the described embodiments are a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making creative efforts based on the embodiments of the present invention, shall fall within the protection scope of the present invention.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Furthermore, the present invention is described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, the cross-sectional view illustrating the structure of the device is not enlarged partially according to the general scale for convenience of illustration, and the drawings are only exemplary and should not be construed as limiting the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

Meanwhile, in the description of the present invention, it should be noted that the terms "upper, lower, inner and outer" 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 describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation and operate, and thus, cannot be construed as limiting the present invention. Furthermore, the terms first, second, or third are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

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

Example 1

With reference to the illustrations in fig. 1-2, in order to realize that the garment can play a corresponding music melody according to the action made by the wearer, interesting interaction with the wearer is realized. The intelligent interactive music children garment in the embodiment comprises a garment body 100, a microcontroller 200 and conductive yarns 300. Specifically, the microcontroller 200 and the conductive yarn 300 are both disposed on the garment body 100, and the garment body 100 includes the micro-speaker 101 and the pressure sensor group 102 disposed on the garment body 100, in this embodiment, preferably, the microcontroller 200 is located above the back of the garment body 100, and the micro-speaker 101 is a micro-speaker and is located at a position on the front of the chest of the garment body 100; the pressure sensor sets 102 are disposed on the sleeves of the garment body 100, and the arrangement manner referred to herein may be a wearable type and a detachable type, and the conductive yarn 300 may be sewn on the garment, and it should be noted that, those skilled in the art should understand that the wearable type and the detachable type can also be implemented by several manners disclosed in the prior art, and are not limited to the manner disclosed in this embodiment. Further, the microcontroller 200 is disposed on the garment body 100 and is respectively connected to the micro-speaker 101 and the pressure sensor set 102 through the conductive yarn 300; the pressure sensor group 102 includes a plurality of pressure sensors disposed at cuffs of the garment body 100, and can collect pressure signals, transmit the pressure signals to the micro-controller 200 through the conductive yarn 300, process the pressure signals to generate control signals, and send the control signals to the micro-speaker 101 by the micro-controller 200 to be executed. It should also be noted that the microcontroller 200 can be implemented as described in the prior art, which means that the control program and other circuits are integrated in an integrated circuit chip or motherboard, with the capability of dedicated internal circuits and commands for input/output, timing and priority assignment of external interrupts. The controller group combines a logic controller and a microprogram controller, and the basic idea for microprogram control is as follows: the micro-instruction is used to generate micro-operation command, and several micro-instructions are used to form a section of micro-program to implement the function of a machine instruction.

Example 2

Referring to the schematic diagrams of fig. 3 to 4, the present embodiment is different from the first embodiment in that: the microcontroller 200 is a wearable microcontroller motherboard, and further includes positive and negative pins 201, an analog pin 202, a micro music player 203, a sensor resistor 204, and a power interface 205. Specifically, the microcontroller 200 and the conductive yarn 300 are both disposed on the garment body 100, and the garment body 100 includes the micro-speaker 101 and the pressure sensor group 102 disposed on the garment body 100, in this embodiment, preferably, the microcontroller 200 is located above the back of the garment body 100, and the micro-speaker 101 is a micro-speaker and is located at a position on the front of the chest of the garment body 100; the pressure sensor sets 102 are disposed on the two sleeves of the garment body 100, and the arrangement manner referred to herein can be wearable or detachable, and the conductive yarn 300 can be sewn into the garment. Further, the microcontroller 200 is disposed on the garment body 100 and is respectively connected to the micro-speaker 101 and the pressure sensor set 102 through the conductive yarn 300; the pressure sensor group 102 includes a plurality of pressure sensors disposed at cuffs of the garment body 100, and can collect pressure signals transmitted to the micro controller 200 through the conductive yarn 300, and generate control signals after processing in the resistance change controller 200 due to pressure changes, and the micro controller 200 sends the control signals to the micro speaker 101 for execution.

Further, a plurality of flexible fabric pressure sensors are preferably selected from the pressure sensor group 102 in this embodiment, the sensors are made of flexible materials, and have good flexibility and extensibility, and can be even freely bent or even folded, and the structural forms are flexible and diverse, and can be arbitrarily arranged according to the requirements of measurement conditions, the flexible sensors are more in variety, the classification modes are also diversified, and the flexible sensors are classified according to the purposes, and comprise flexible pressure sensors, flexible gas sensors, flexible humidity sensors, flexible temperature sensors and the like.

The fabric sensors may be made using a variety of base fabrics, each of which in this embodiment includes a common fabric 102a, a pressure sensitive membrane 102b, and a conductive fabric 102 c; both sides of the pressure-sensitive film 102b are outwards provided with a sandwich structure formed by a conductive fabric 102c and a common fabric 102a in sequence, and the conductive fabric 102c is connected with the conductive yarn 300. Conductive yarn 300 further includes a first yarn 301 and a second yarn 302; the first yarn 301 is a yarn with one end connected with the negative electrode of the microcontroller 200; one end of the second yarn 302 is connected with the analog terminal pin 202, and the other ends of the first yarn 301 and the second yarn 302 are respectively connected with the conductive fabric 102c positioned at the upper layer and the lower layer. The embodiment further includes a power module 400 and a pocket 401 for placing the power module 400, wherein the power module 400 is a micro battery and the output end of the power module 400 is connected to the power interface 205.

Furthermore, the functional elements of the garment body 100 are combined on the garment body 100 through the conductive yarn 300, and are decorated or properly concealed by dress patterns, hats and the like, so as to beautify the appearance. The main interactive elements are 6 fabric pressure sensors (decorated with different musical instrument patterns) located on the sleeves on both sides, corresponding to each joint of the arm. When a child wearing the garment beats a corresponding pattern (i.e., a pressure sensor), pressure information captured by the sensor is converted into an electric signal, the electric signal is transmitted to the microcontroller 200 at the back of the garment body 100 by the conductive yarn 300 for analysis and decision making, and then a feedback signal is used for guiding the miniature music player 203 to play corresponding music through the miniature loudspeaker (i.e., the miniature loudspeaker 101) at the chest. Meanwhile, according to different pressing force degrees, the volume of the music can be changed, so that interesting interaction between the clothes and children is realized. In addition, the corresponding body part is beaten to promote blood circulation and be beneficial to the body development of children.

Example 3

Referring to fig. 5, the embodiment provides an interaction method based on the intelligent interactive music children's garments, when the intelligent interactive music children's garments are connected, the interaction method further includes the following steps,

by pressing the pressure sensor on the garment body 100, the collected pressing signal is converted into an electrical signal and transmitted to the microcontroller 200 through the conductive yarn 300;

the micro controller 200 processes the converted electrical signal and generates a driving signal, and then transmits the driving signal to the micro music player 203 through the conductive yarn 300, and the micro speaker 101 generates a preset music melody.

When the pressure sensor receives external pressing, the sensor resistor 204 is changed due to different pressing pressures, and the reaction interval of the micro-speaker 101 can be set by measuring the change range of the sensor resistor, wherein the reaction interval of the micro-speaker 101 refers to the change of the resistor due to the pressure change, so that the pressed value range corresponds to a range of the resistance change, and the playing volume can be adjusted in real time according to the changed resistor.

Example 4

Referring to the illustration of fig. 6, since most of the electronic components of the smart garment can be washed with the garment, for example, the microcontroller 200, the fabric pressure sensor or the conductive yarn 300 can be washed with the prior art, but some non-washable components, such as the power module 400 (which is a micro battery) and the micro speaker 101, cannot be washed with the garment, so that the smart garment needs to be washed after being disassembled, thereby avoiding the damage to the electronic components. In this embodiment, the power module 400 is taken as an example, the power module 400 is connected to the power interface 205 through a conductive wire, since both ends of a conductive wire of a general component are soldered to input or output ports of a circuit board or the component, the present embodiment is inconvenient in replacing components by providing a wire butting device M for detachably mounting the butting wires S between the power supply module 400 and the power supply interface 205 without damaging the soldering structure at both ends of the wires, the docking wires S further include a first docking wire S-1 and a second docking wire S-2 respectively connected to the power module 400 and the power interface 205, the power is supplied through the contact between the two, so that the power module 400 can be rapidly disassembled or replaced, meanwhile, the person skilled in the art will not easily foresee that the wire docking device M is also suitable for use in connection with non-washable components such as the micro-speaker 101.

Referring to fig. 7 to 15, the present embodiment is directed to a wire butting device M. The device includes a compression assembly 500 and a cartridge assembly 600. The pressing assembly 500 has two halves with the same structure, and is used for clamping and connecting the ends of two butt-jointed wires S; and the box assembly 600 serves to receive, lock, and compress and densify the docking electric wire S inserted into the interior of the compression assembly 500. The pressing assembly 500 of the present invention can be divided into a first unit 501 and a second unit 502, which have the same structure, are opposite to each other and are spliced, and are fixed by the box assembly 600, and the structure of the first unit 501 is first described in detail herein.

The first single body 501 includes a first receiving part 501a and a first pressing part 501 b. The first container 501a mainly includes: the tubular body is axially cut into one half of the structure and comprises an external shell and an accommodating space in the shell; and the first pressing member 501b is a block-shaped structure for directly and telescopically pressing the butted wire S-terminal. The first accommodating member 501a is provided with an insertion hole 501a-1 engaged with the first pressing member 501b, the first pressing member 501b is inserted into the insertion hole 501a-1 and extends into the first accommodating member 501a, and the first pressing member 501b can be telescopically slid in the insertion hole 501a-1 to press and loosen the connecting wire S.

A pair of limiting blocks 501c are disposed inside the first accommodating member 501a (the limiting blocks 501c are fixed on the inner sidewall of the first accommodating member 501 a), and in a spatial position, the limiting blocks 501c are located at two ends (symmetrically distributed) of the first pressing member 501 b. It should be noted that: the side surface of the limiting block 501c opposite to the first pressing piece 501b is provided with a first protrusion 501c-1, two end surfaces of the first pressing piece 501b are provided with first sliding grooves 501b-1 matched with the first protrusion 501c-1, the first protrusion 501c-1 is embedded in the first sliding groove 501b-1, and the direction of the first sliding groove 501b-1 is consistent with the direction of the insertion hole 501a-1, so that the first pressing piece 501b can linearly and telescopically slide along the direction of the first sliding groove 501 b-1.

In the present invention, both ends of the first single body 501 can be inserted into the butted wire S and enter the first accommodating part 501a, and the end of the first accommodating part 501a has a first through hole 501a-2 matched with the butted wire S, and obviously, since the first single body 501 is a half structure of the pressing assembly 500, the first through hole 501a-2 is a semicircular hole matched with the outer diameter of the section of the butted wire S. The butted wire S end forming portions penetrated from both ends of the first container 501a are overlapped, and the first pressing piece 501b can form a pressing of the butted wire S of the overlapped portions by the pressing of the butting assembly 600. Preferably, the inner edge of the first pressing piece 501b is provided with a densely distributed scissors-like bifurcated structure: each scissor-like bifurcation is in the form of a sheet and the array is in plurality. The middle corner of the bifurcated structure can press the connecting wire S. Preferably, the first pressing member 501b may be made of rubber or other flexible and tough insulating materials, which can ensure the compactness of pressing the butt-joint wire S connector, prevent the butt-joint wire S and the first pressing member 501b from being damaged, and is non-conductive, safe and reliable.

Further, the first single body 501 further includes a sealing member 501d for ensuring that a waterproof and dust-proof sealing function is formed between the surface layer of the butt-joint electric wire S penetrating into the first accommodating member 501a and the outer port of the first accommodating member 501 a. The sealing member 501d includes a push block 501d-1 which is in press contact with both ends of the first pressing member 501b, a sealing portion 501d-3 which is provided inside the first penetration opening 501a-2, and a transmission portion 501d-2 which connects the push block 501d-1 and the sealing portion 501 d-3. The pushing block 501d-1 is a block that can slide linearly along the longitudinal direction of the first accommodating element 501a, and the two ends of the first pressing element 501b are provided with a docking port 501b-2 corresponding to the pushing block 501d-1, where the docking port 501b-2 is a notch structure at the outer end of the first pressing element 501b, the bottom surface of the docking port 501b-2 is a slope, and the slope makes the width of the outer port of the docking port 501b-2 larger than the width of the inner port. Therefore, when the outer end of the pushing block 501d-1 is inserted into the docking port 501b-2, if the initial state is set as: the outer end of the pushing block 501d-1 abuts against the inner opening of the abutting opening 501b-2, so that when the first pressing piece 501b is pressed upwards, the top surface of the abutting opening 501b-2 can press the end of the pushing block 501d-1, so that the pushing block 501d-1 slides outwards in a straight line.

The above-mentioned "pushing block 501d-1 slides linearly outward" is realized by further including the following structure: the limiting block 501c is provided with a second sliding groove 501c-2 matched with the pushing block 501d-1, and the pushing block 501d-1 is inserted into the second sliding groove 501c-2 and can slide linearly under the pressing of the slope surface of the interface 501 b-2.

In the invention, the two ends of the inside of the first accommodating piece 501a are respectively provided with an accommodating groove 501a-3, the accommodating grooves 501a-3 are accommodating spaces positioned at the inner side of the first penetrating opening 501a-2, and the inner end of the accommodating grooves can be provided with a plug. The receiving groove 501a-3 is opposite to and communicated with the first through opening 501a-2, and the sealing portion 501d-3 is embedded in the receiving groove 501 a-3. The sealing portion 501d-3 in the present invention may be a half structure of a bellows, which is capable of length expansion and contraction. A transmission part 501d-2 (the transmission part 501d-2 is a middle transitional block-shaped body structure) for transmitting linear motion is arranged between the sealing part 501d-3 and the pushing block 501d-1, so when the pushing block 501d-1 slides outwards linearly by the first pressing piece 501b, the pushing block 501d-1 presses the sealing part 501d-3 through the transmission part 501d-2, so that the sealing part is compressed and the cross section is expanded, the contact pressure between the sealing part 501d-3 and the accommodating groove 501a-3 and the contact pressure of the butting wire S penetrating through the butting wire S are increased, and the compactness is also improved.

It should be noted that: the electric wire S can sequentially pass through the first through hole 501a-2 and the sealing portion 501d-3, and be inserted into the first accommodating member 501a, and the sealing portion 501d-3 covers the periphery of the electric wire S.

As can be seen from the above, in the present invention, the second unit 502 and the first unit 501 have the same structure and are aligned with each other (the openings of the two housings are aligned with each other and cover each other to form a closed structure). Specifically, the second single body 502 includes a second accommodating member 502a corresponding to the first accommodating member 501a, the end of the second accommodating member 502a has a second through opening 502a-1 corresponding to the first through opening 501a-2, and when the first single body 501 and the second single body 502 are just spliced, the first through opening 501a-2 and the second through opening 502a-1 can jointly form a threading opening K-1 matched with the butt-jointed wire S. In addition, the second unit 502 further includes a second pressing piece 502b corresponding to the first pressing piece 501b, the second pressing piece 502b can be inserted into the second accommodating piece 502a, and the rest corresponding parts are not described in a list.

In the first single body 501 (and the second single body 502) according to the present invention, a functional region formed by the first pressing piece 501b, the stopper 501c and the sealing piece 501d inside the first accommodating piece 501a is a "connecting unit" capable of connecting a set of connectors of the mating electrical wires S. Preferably, in the present invention, a plurality of "connecting units" may be arranged in parallel in the first accommodating part 501a to be suitable for a plurality of thread ends. The invention is illustrated in the figures as two sets of "connecting units", without limiting the scope of protection of the invention.

In the present invention, the box assembly 600 is sleeved on the periphery of the pressing assembly 500, and is used for accommodating and locking the combination between the first single body 501 and the second single body 502, and the inner side wall of the box assembly 600 can form inward extrusion on the first pressing piece 501 b.

Specifically, the box assembly 600 includes a first end cap 601 and a second end cap 602 which are matched with the two end structures of the closing assembly 500, and a rotating shaft member 603 which rotatably connects the first end cap 601 and the second end cap 602, that is: when the first monomer 501 and the second monomer 502 are just spliced, the first end cover 601 and the second end cover 602 can be respectively sleeved at two ends of the compressing assembly 500, the outer end faces of the first end cover 601 and the second end cover 602 are respectively provided with a second threading opening K-2 corresponding to the threading opening K-1, and the butt-joint electric wire S can sequentially pass through the second threading opening K-2 and the threading opening K-1 to enter the compressing assembly 500 and is finally extruded and compacted.

Further, the first end cap 601 and the second end cap 602 have the same main structure and are symmetrically disposed. The structures of the two are as follows: in this embodiment, one end of the first end cap 601 and the second end cap 602 is rotatably connected by a rotating shaft member 603, and it should be noted that the rotating connection is realized by, for example, a rotating shaft arranged between the two, so as to be capable of rotating a certain angle to form an open or closed configuration, and when the first end cap 601 and the second end cap 602 are closed, the other end is fastened by the locking component 604 in the closed state. Still further, this hasp subassembly 604 still includes a plurality of elastic fastener 604a that set up in second end cover 602 activity edge, and set up in first end cover 601 activity edge and correspond the spacing extension 604b that the cooperation was buckled mutually with elastic fastener 604a, when first end cover 601 and second end cover 602 were closed, the elastic fastener 604a that sets up in the edge is stirred through external force or other motion momentum takes place the elastic deformation back and is corresponding to be buckled on spacing extension 604b, consequently realize the closure of first end cover 601 and second end cover 602, the difficult discovery of skilled person, when needing to open, only need stir elastic fastener 604a to the outside, make it break away from spacing extension 604b rear and can open box body subassembly 600, realize holding in its convenient dismantlement and the change that its inside compressed tightly subassembly 500. Meanwhile, the inner side walls of the first end cap 601 and the second end cap 602 can inwardly press the first pressing piece 501b and the second pressing piece 502b, and finally, the connection of the connecting wires S is pressed to be compact, so that the conduction between the wires is realized. Therefore, the wire butting device M provided by the embodiment can perform installation pressing contact between the first butting wire S-1 and the second butting wire S-2 to conduct the butting wire S.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. The utility model provides an interactive music children's clothes of intelligence which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

a garment body (100) comprising a micro-speaker (101) and a pressure sensor group (102) arranged on the garment body (100);

the micro-controller (200) is arranged on the garment body (100) and is respectively connected with the micro-speaker (101) and the pressure sensor group (102) through conductive yarns (300);

the pressure sensor group (102) collects pressure signals, transmits the pressure signals to the micro-controller (200) through the conductive yarns (300) to be processed to generate control signals, and the micro-controller (200) sends the control signals to the micro-speaker (101) to be executed;

a wire docking device (M) for the removal of the micro-speaker (101), the wire docking device (M) comprising a compression assembly (500) and a cartridge assembly (600);

the pressing assembly (500) is divided into a first single body (501) and a second single body (502), the first single body (501) and the second single body are identical in structure, are oppositely spliced and are fixed through the box body assembly (600), the first single body (501) comprises a first accommodating piece (501 a) and a first pressing piece (501 b), a pair of limiting blocks (501 c) are arranged inside the first accommodating piece (501 a), and the first single body (501) further comprises a sealing piece (501 d);

the main body of the first accommodating piece (501 a) is a half structure of a tubular body obtained by cutting along the axial direction, the first accommodating piece (501 a) comprises an external shell and an accommodating space in the shell, the first pressing piece (501 b) is a block structure used for directly and telescopically pressing a joint of a butt-jointed electric wire (S), a jack (501 a-1) matched with the first pressing piece (501 b) is arranged on the first accommodating piece (501 a), the first pressing piece (501 b) is inserted into the jack (501 a-1) and extends into the first accommodating piece (501 a), and the first pressing piece (501 b) is telescopically slid in the jack (501 a-1) back and forth to press and loosen the butt-jointed electric wire (S);

a pair of limiting blocks (501 c) are arranged inside the first accommodating piece (501 a), and in the spatial position, the limiting blocks (501 c) are positioned at two ends of the first pressing piece (501 b), one side surface of each limiting block (501 c) opposite to the first pressing piece (501 b) is provided with a first protrusion (501 c-1), the two end surfaces of the first pressing piece (501 b) are provided with first sliding grooves (501 b-1) matched with the first bulges (501 c-1), the first bulges (501 c-1) are embedded into the first sliding grooves (501 b-1), and the direction of the first sliding chute (501 b-1) is consistent with the direction of the jack (501 a-1), the first pressing piece (501 b) linearly slides in a telescopic manner along the direction of the first sliding chute (501 b-1);

the wire butting device (M) is used for dismounting and mounting the butting wire (S) between the power module (400) and the power interface (205) without damaging a soldering structure at two ends of the butting wire (S), and the butting wire (S) also comprises a first butting wire (S-1) and a second butting wire (S-2) which are respectively connected with the power module (400) and the power interface (205);

the wire butting device (M) is used for installing and pressing the first butting wire (S-1) and the second butting wire (S-2) to realize conduction of the butting wire (S);

the two ends of the first single body (501) are inserted into the butt electric wire (S), the butt electric wire (S) enters the first accommodating part (501 a), the end part of the first accommodating part (501 a) is provided with a first penetrating opening (501 a-2) matched with the butt electric wire (S), the first penetrating opening (501 a-2) is a semicircular hole matched with the external diameter of the cross section of the butt electric wire (S), the ends of the butt electric wire (S) penetrating from the two ends of the first accommodating part (501 a) are partially overlapped, the first pressing part (501 b) can press the inner side edge of the overlapped part of the butt electric wire (S) under the extrusion of the box body component (600), the edge of the first pressing part (501 b) is provided with a densely distributed scissors-shaped branched structure, each scissors-shaped branched structure is in a sheet shape, the array is multiple, the middle included angle of the bifurcation structure can press the butt-joint electric wire (S), and the first pressing piece (501 b) is made of rubber or other insulating materials with flexibility and toughness;

the first single body (501) further comprises a sealing element (501 d), the sealing element (501 d) comprises a pushing block (501 d-1) which is in pressing contact with two ends of the first pressing element (501 b), a sealing part (501 d-3) which is arranged on the inner side of the first penetrating opening (501 a-2), and a transmission part (501 d-2) which is connected with the pushing block (501 d-1) and the sealing part (501 d-3), the pushing block (501 d-1) is a block body which can linearly slide along the longitudinal direction of the first accommodating element (501 a), two ends of the first pressing element (501 b) are provided with a butt joint opening (501 b-2) corresponding to the pushing block (501 d-1), and the butt joint opening (501 b-2) is a gap structure of the outer end of the first pressing element (501 b), the bottom surface of the butt joint port (501 b-2) is a slope surface, and the slope surface enables the width of an outer port of the butt joint port (501 b-2) to be larger than that of an inner port;

both ends of the interior of the first accommodating piece (501 a) are provided with accommodating grooves (501 a-3), the accommodating groove (501 a-3) is an accommodating space positioned at the inner side of the first penetrating opening (501 a-2), the inner end of the accommodating groove (501 a-3) is blocked, the accommodating groove (501 a-3) is opposite to and communicated with the first penetrating opening (501 a-2), the sealing part (501 d-3) is embedded in the accommodating groove (501 a-3), the sealing part (501 d-3) is a half structure of a corrugated pipe, can be extended and contracted in length, the butt electric wire (S) passes through the first through opening (501 a-2) and the sealing part (501 d-3) in sequence, and inserted into the first receiving member (501 a), the sealing portion (501 d-3) being wrapped around the mating wire (S);

the box body assembly (600) is sleeved on the periphery of the pressing assembly (500), and the inner side wall of the box body assembly (600) can inwards extrude the first pressing piece (501 b);

the box body component (600) comprises a first end cover (601) and a second end cover (602) which are matched with the first monomer (501) and the second monomer (502) in the pressing component (500), and a rotating shaft piece (603) which is used for rotatably connecting the first end cover (601) and the second end cover (602), when the first monomer (501) and the second monomer (502) are just spliced, the first end cover (601) and the second end cover (602) can be respectively sleeved on two sides of the pressing component (500), the outer end faces of the first end cover (601) and the second end cover (602) are respectively provided with a second threading opening (K-2) corresponding to a threading opening (K-1), and the butt joint electric wire (S) can sequentially pass through the second threading opening (K-2) and the threading opening (K-1) to enter the inside of the pressing component (500), finally, the mixture is extruded and compacted;

first end cover (601) with when second end cover (602) is closed, the other end carries out the closure fastening through hasp subassembly (604), hasp subassembly (604) including set up in a plurality of elastic fastener (604 a) of second end cover (602) activity edge, and set up in first end cover (601) activity edge with elastic fastener (604 a) correspond spacing extension (604 b) that the cooperation was buckled mutually, when needs are opened, only need with elastic fastener (604 a) are shifted to the outside, make elastic fastener (604 a) break away from spacing extension (604 b) can.

2. The intelligent interactive music children's garment of claim 1, wherein: the microcontroller (200) is a wearable microcontroller mainboard and further comprises positive and negative pins (201), an analog terminal pin (202), a miniature music player (203), a sensor resistor (204) and a power interface (205);

the positive electrode of the positive and negative pins (201) is connected with the sensor resistor (204), the sensor resistor (204) is correspondingly connected with the analog terminal pin (202), the input end of the miniature music player (203) is connected with the positive and negative pins (201), and the output end of the miniature music player is connected with the miniature loudspeaker (101).

3. The intelligent interactive music children's garment of claim 2, wherein: the pressure sensor group (102) comprises a plurality of fabric pressure sensors, and each sensor comprises a common fabric (102 a), a pressure-sensitive membrane (102 b) and a conductive fabric (102 c);

the two sides of the pressure-sensitive film (102 b) are both outwards provided with the conductive fabric (102 c) and the common fabric (102 a) in sequence to form a sandwich structure, and the conductive fabric (102 c) is connected with the conductive yarn (300).

4. The intelligent interactive music children's garment of claim 3, wherein: the electrically conductive yarn (300) further comprises a first yarn (301) and a second yarn (302);

the first yarn (301) is a yarn with one end connected with the negative electrode of the microcontroller (200); one end of the second yarn (302) is connected with the analog end pin (202), and the other ends of the first yarn (301) and the second yarn (302) are respectively connected with the conductive fabric (102 c) positioned on the upper layer and the lower layer.

5. The intelligent interactive music children's garment of claim 2, wherein: the portable power supply is characterized by further comprising a power supply module (400) and a pocket (401) for placing the power supply module (400), wherein the power supply module (400) is a micro battery, and the output end of the power supply module is connected with the power supply interface (205).

6. The intelligent interactive music children's garment of claim 4, wherein: the micro-controller (200) is positioned above the back of the clothing body (100), and the micro-speaker (101) is a micro-horn and is positioned on the upper part of the chest of the clothing body (100); the pressure sensor groups (102) are positioned on two side sleeves of the garment body (100).

7. The utility model provides an interactive method based on intelligent interactive music children's clothes which characterized in that: the intelligent interactive music children's garment comprising any one of claims 2 to 6, further comprising the following steps,

converting the collected pressing signals into electric signals by pressing a pressure sensor on the garment body (100) and transmitting the electric signals to the microcontroller (200) through the conductive yarn (300);

the micro controller (200) processes the converted electric signals and sends out driving signals, the driving signals are transmitted to the micro music player (203) through the conductive yarns (300), and the micro loudspeaker (101) sends out preset music melodies.

8. The intelligent interactive music-based children's garment interaction method of claim 7, wherein: by pressing the pressure sensors at different positions in the pressure sensor group (102), each sensor respectively plays different music melodies, and the volume of the music correspondingly increases or decreases along with the strength change of the pressing force, so that the interaction with a wearer is realized.

9. The intelligent interactive music-based children's garment interaction method of claim 7 or 8, wherein: when the pressure sensor receives external pressure, the sensor resistor (204) changes due to different pressure degrees, and the reaction region of the micro-speaker (101) can be set by measuring the change range.

10. The intelligent interactive music-based children's garment interaction method of claim 9, wherein: the reaction interval of the micro loudspeaker (101) is changed by the resistance caused by the pressure change, so that the pressed value range can correspond to a range of the resistance change, and the volume of playing can be adjusted in real time according to the changed resistance.

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