CN107919077B - Control box - Google Patents

Abstract

The embodiment of the invention discloses a control box, which is applied to an electrocardio coat and comprises: a processing module; a lamp effect module; the upper cover and the bottom cover are correspondingly arranged; the processing module and the lamp effect module are arranged in an accommodating space formed by the upper cover and the bottom cover; the processing module processes the electrocardio data acquired by the electrocardio coat to obtain a processing result; and the light effect module carries out light effect display based on the processing result. The control box of the embodiment of the invention displays the complex electrocardio information in a lamp effect mode so as to realize the dynamic visualization of the electrocardio data, and a user can very intuitively and conveniently connect the electrocardio information; moreover, the electrocardio information can be known without processing by other equipment (such as a smart phone and a cloud diagnosis platform).

Description

Control box

Technical Field

The invention relates to the field of electronic equipment, in particular to a control box for an electrocardio coat.

Background

The electrocardio-coat control box in the prior art has no interaction function with a user, or only has an indicator light to display whether the control box is in an open state; if the user wants to know the tested electrocardiogram information, the user can only know the electrocardiogram information through other medical equipment or intelligent electronic equipment, and when the user is inconvenient to carry a mobile phone or is in a place without a network, the control box cannot interact with the user or transmit prompt information of the electrocardiogram information to the user.

Disclosure of Invention

In view of the above problems in the prior art, embodiments of the present invention provide a control box capable of displaying telecommunication information to a user.

In order to solve the above problems, the embodiment of the present invention provides the following technical solutions:

a control box is applied to an electrocardio coat and comprises:

a processing module;

a lamp effect module;

the upper cover and the bottom cover are correspondingly arranged;

wherein the content of the first and second substances,

the processing module and the lamp effect module are arranged in an accommodating space formed by the upper cover and the bottom cover;

the processing module processes the electrocardio data acquired by the electrocardio coat to obtain a processing result;

and the light effect module carries out light effect display based on the processing result.

Preferably, the top surface of the upper cover is at least partially light transmissive.

Preferably, the lamp effect module comprises:

the first light source assembly comprises a plurality of point light source assemblies which are circularly arranged on the first substrate;

and the light guide ring is arranged between the first substrate and the top surface of the upper cover and used for converting the point light source of the point light source component into a surface light source.

Preferably, the light guide ring is made of a light guide material and is of a sheet annular structure;

the lamp effect module further comprises:

the concave lens ring is arranged between the first substrate and the light guide ring and comprises a plurality of circularly arranged concave lens structures, wherein the concave lens structures correspond to the point light source assemblies one to one.

Preferably, the lamp effect module further comprises:

and the light reflecting ring is arranged at the inner ring of the light guide ring.

Preferably, the light guide ring is made of a plurality of fan-shaped semiconductor light materials, wherein the light guide distance and the light intensity of the semi-light guide material are in a direct proportional relation, and the fan-shaped structures correspond to the point light source assemblies one to one.

Preferably, the fan-shaped light guide material is provided with an accommodating space on the outer side of the ring shape to accommodate the point light source assembly.

Preferably, the lamp effect module further comprises:

the first light blocking material layer is arranged between two adjacent fan-shaped semi-light guide materials.

Preferably, the lamp effect module further comprises:

and the second light blocking material layer is arranged between the light guide ring and the top surface of the upper cover and is used for preventing light leakage at a specific position.

Preferably, a second light source assembly is arranged on the first side surface of the upper cover;

and a light guide part is arranged between the second light source component and the first side surface and is used for converting the point light source into a surface light source.

Compared with the prior art, the embodiment of the invention has the beneficial effects that:

the control box of the embodiment of the invention displays the complex electrocardio information in a lamp effect mode so as to realize the dynamic visualization of the electrocardio data, and a user can very intuitively and conveniently connect the electrocardio information; moreover, the electrocardio information can be known without processing by other equipment (such as a smart phone and a cloud diagnosis platform).

Drawings

Fig. 1 is a schematic perspective view of a control box according to a first embodiment of the present invention;

fig. 2 is an exploded view of a first embodiment of the control box of the present invention;

FIG. 3 is a schematic cross-sectional view of a first embodiment of the control box of the present invention;

FIG. 4 is a schematic perspective view of a second embodiment of the control box of the present invention;

fig. 5 is an exploded view of a second embodiment of the control box of the present invention;

FIG. 6 is a schematic cross-sectional view of a second embodiment of the control box of the present invention;

FIG. 7 is a schematic structural diagram of an upper cover of the control box of the present invention;

FIG. 8 is a diagram illustrating the effect of the first embodiment of the control box according to the present invention;

fig. 9 is a display effect diagram of the second embodiment of the control box of the present invention.

Reference numerals:

1-covering the upper cover; 11-a threaded flange; 2-bottom cover; 3-an LED lamp; 4-a first substrate; 5-a first light source assembly; 51-light guide ring a; 52-concave lens collar; 53-a reflective ring; 54-shading ring; 55-a first shading ink layer; 551-outer light-shielding layer; 552-inner light-shielding layer; 56-light guide ring b; 561-sector structure; 57-a first light blocking material layer; 58-a second light blocking material layer; 59-an adhesive layer; 6-a second light source assembly; 61-a second substrate; 62-a light guide; 63-a second light-shielding ink layer; 7-an emergency button assembly; 71-key cap; 72-a return spring; 73-tact switch; 74-screw cap.

Detailed Description

In order to make the technical solutions of the present invention better understood, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 6, a control box according to an embodiment of the present invention is applied to an electrocardiograph garment, and includes: the device comprises a processing module, a lamp effect module, an upper cover 1 and a bottom cover 2 which is correspondingly arranged; the processing module and the lamp effect module are arranged in an accommodating space formed by the upper cover 1 and the bottom cover 2; the processing module processes the electrocardio data acquired by the electrocardio coat to obtain a processing result; and the light effect module displays the light effect based on the processing result. The control box of the embodiment of the invention displays the complex electrocardio information in a lamp effect mode so as to realize the dynamic visualization of the electrocardio data, and a user can very intuitively and conveniently connect the electrocardio information; moreover, the electrocardio information can be known without processing by other equipment (such as a smart phone and a cloud diagnosis platform). In order to better display the lamp effect, the upper cover 1 in the embodiment of the invention is partially or completely transparent, wherein the upper cover 1 can be made of a semitransparent atomized material or made of a completely transparent material, and the surface of the upper cover is subjected to frosting treatment; or, the part corresponding to the lamp effect module is made of transparent or semitransparent materials, and the other part is made of opaque materials.

The control box can be fixed on the electrocardio-coat (in front of the chest by default) through the bottom cover 2 and electrically connected with the electrocardio-coat, and the electrocardio-coat gets electricity from a power supply in the control box; because the volume of the control box body is small, in order to prolong the working endurance time of the control box, a charging port can be arranged on the control box, and a user can supplement electric quantity through a mobile power supply (such as a charger); furthermore, some special parts such as the waistband can be designed into a structure which is easy to carry the mobile power supply, and the electrocardio-coat can be provided with a corresponding charging interface to transmit the electric quantity of the mobile power supply to the control box.

Further, as shown in fig. 1 to 3, in the first embodiment of the control box provided by the present invention, the upper cover 1 is integrally made of a translucent atomized material; the lamp effect module includes: the light source module comprises a first light source module 5 and a light guide ring a51, wherein the light guide ring a51 is made of light guide materials, and the light guide ring a51 is of a sheet annular structure; the first light source assembly 5 comprises a plurality of point light source assemblies circularly arranged on the first substrate 4, and a light guide ring a51 arranged between the first substrate 4 and the top surface of the upper cover 1 for converting point light sources emitted by the point light source assemblies into surface light sources.

The lighting source assembly in this embodiment is an LED lamp 3, the first substrate 4 is a PCB, and the light guiding ring a51 is made of a mixed material of a transparent material (such as resin) and a light diffusing agent (such as nano barium sulfate and calcium carbonate); because the LED lamp 3 can emit very dazzling light with high brightness, people feel uncomfortable, and meanwhile, only one LED light spot can be seen visually, and complicated light effects cannot be displayed, the light guide ring a51 of the embodiment of the invention introduces the light diffusant to convert a point light source emitted by the LED lamp 3 into a surface light source, so that the light is soft and has high brightness enough to display good light effects.

Further, the lamp effect module further comprises: the concave lens ring 52 is disposed between the first substrate 4 and the light guide ring a51, and includes a plurality of circularly disposed concave lens structures, wherein the concave lens structures correspond to the LED lamps 3 one-to-one to enlarge the emission angles of the LED lamps 3, so that the emitted light is further diffused, which is beneficial to forming a surface light source. Specifically, the outer peripheral surface of the concave lens assembly ring 52 is provided with a plurality of accommodating grooves, and each accommodating groove 1 is used for accommodating one LED lamp 3, which is beneficial to reducing light interference between two adjacent LED lamps 3; furthermore, a semicircular concave part is arranged at the bottom of each accommodating groove so as to diffuse the light of the LED lamp 3; further, a plurality of fan-shaped grooves are formed in the inner peripheral surface of the concave lens ring 52, and each fan-shaped groove is disposed opposite to each semicircular concave portion, so that the light of the LED lamp 3 is further diffused.

Further, the lamp effect module further includes a reflective ring 53 disposed at an inner ring of the light guiding ring a 51. The reflecting ring 53 can prevent light interference between the LED lamps 3 (especially between the LED lamps 3 arranged oppositely), so that a designated area (of the light guide ring a 51) can be lighted up, and the reflecting ring 53 also has the function of increasing brightness; that is, the LED lamp 3 corresponding to the area to be lit can be turned on correspondingly according to the area.

Further, in order to avoid light leakage, the lamp effect module further includes a light-shielding ring 54, and the light-shielding ring 54 is sleeved on the periphery of the circle formed by the plurality of LED lamps 3; further, the lamp effect module further includes a first light-shielding ink layer 55, which includes an outer light-shielding layer 551 and an inner light-shielding layer 552, wherein the outer light-shielding layer 551 is disposed at an outer ring of the light guide ring a51, and the inner light-shielding layer 552 is disposed at an inner ring of the light guide ring a51, so as to prevent the light leakage phenomenon from occurring at the edge of the light guide ring a51, and improve the display quality of the light effect.

Further, in the present embodiment, the emergency button assembly 7 is further included, and includes a key cap 71, a return spring 72 and a tact switch 73, a mounting hole is formed in the center of the upper cover 1, and the emergency button assembly 7 is fixed in the mounting hole; in the initial state, the key cap 71 is substantially flush with the surface of the upper cover 1, when the key cap 71 is pressed toward the inner side of the upper cover 1, the return spring 72 is stressed and compressed, the tact switch 73 is triggered to execute a preset instruction, and after the key cap 71 is released, the key cap 71 is reset to the initial state under the action of the return spring 72. The preset instruction can be to dial a specific phone (such as 120 or a relative phone) to seek assistance; the special light effect can be displayed to attract the attention of people and achieve the effects of warning and recourse; in addition, a loudspeaker can be arranged in the control box, and the effect of warning and seeking help can be achieved by playing a preset sound effect through the loudspeaker. Further, the tact switch 73 is fixed on the screw cap 74, as shown in fig. 3 and 7, the inner side of the upper cap 1 is provided with the threaded flange 11, the first light source assembly 5 is fixedly connected with the upper cap 1 through the screw cap 74, further, the upper cap 1 and the bottom cap 2 can be fixedly connected by clamping, bonding, and the like, and the specific connection mode can be adjusted according to actual requirements, and the embodiment is not limited herein.

Because the default of the control box is fixed in front of the chest, that is, the bottom cover 2 is attached to the chest, and the wearer is not convenient to observe the lighting effect displayed by the first light source assembly 5, in this embodiment, the first side surface (the side surface of the control box facing upwards) of the upper cover 1 is further provided with the second light source assembly 6, and is arranged on the second substrate 61, and the light guide member 62 is arranged between the second light source assembly 6 and the first side surface, similar to the first light source assembly 5, the second light source assembly 6 is also the LED lamp 3, the material of the light guide member 62 is the same as that of the light guide ring a51, and the function of the light guide member is also to convert the point light source of the second light source assembly 6 into the area light source.

Specifically, the second substrate 61 is a PCB, the second substrate 61 and the light guide member 62 are of a rectangular plate structure with matched shape and size, the second substrate 61 is provided with two LED lamps 3 and respectively disposed at two ends of the second substrate 61 in the length direction, further, in order to prevent light leakage, two ends of the light guide member 62 in the length direction are respectively provided with a second shading ink layer 63, when the two LED lamps 3 are simultaneously turned on, a rectangular light emitting stripe is presented by combining the light guide effect of the light guide member 62; when the LED lamps 3 on the single side are singly or alternately lightened, a single-side or double-side breathing lamp state can be presented, wherein the breathing rhythm is matched with the electrocardio data, and the lamp bar is brighter as the electrocardio voltage is higher; the color of the light may then feedback the degree of risk of heart disease, e.g. green for very low and red for very high. In addition, because the light guide member 62 has a semi-conductive property, the light guide member 62 may also exhibit a display effect in which the luminance at both ends is high and the luminance in the middle is gradually low; the specific display effect is related to at least one of the length of the light guide 62, the concentration and type of the light diffusing agent contained in the light guide 62, and the light emission intensity and color of the LED lamp 3.

Specifically, the light effect displayed by the light effect module is associated with the electrocardio information, so that the test data can be displayed in an imaging manner, and the early warning information can be displayed according to the preliminary diagnosis result; in the embodiment provided by the invention, the processing module can carry out primary processing on the information acquired by the (electrodes of the) electrocardio-coat, automatically identify the typical risk or the premonitory symptom of the disease and carry out key display and early warning; such as cardiac signs of myocardial ischemia, myocardial infarction, heart failure, cardiogenic shock, heart rate overrun, arrhythmia, and the like. Further, the color of the light may alert the degree of danger, for example, blue for healthy, green for sub-healthy requiring attention, orange for certain risks and giving an early warning, and red for very dangerous, giving an alarm that preset emergency personnel have been and automatically notified. The sum of the intensity of light is an electrocardiogram that can be converted into a dynamic flickering effect of light, and is different from the sum of the intensity of light and the intensity of instantaneous electrocardiographic voltage. In addition, the sent early warning information can be displayed through the color, the change and the brightness of the lighting effect, and the prompting effect can be achieved through the sound information of the loudspeaker; in addition, the user can also actively send out warning information by pressing the key cap 71.

As shown in fig. 8, the light effect form of comet can be shown by combining the structural form of the first light source component 5 in the present embodiment:

the comet lighting effect effects of gradually darkening the bright head and tail, cyclic rotation or in-situ stretching are displayed by utilizing the dynamic light and shade change of the adjacent LED lamps 3; the brightness of each LED lamp 3 is correlated with the brightness of each other, the middle of the head of each comet is brighter at any moment, the two ends of each comet are slightly darker, and the brightness from the middle section to the tail section of each comet is gradually reduced; wherein, the light efficiency of this comet effect not only relies on mutually supporting between each LED lamp 3, and to a great extent still relies on the printing opacity characteristic of light guide plate and the introduction of concave lens subassembly.

Further, the comets can rotate circularly, the heads of the comets rotate around the center of the light guide plate (control box) at a certain speed, and the lengths of the comets can be fixed or can be changed all the time. The rotation rate of the comet head can correspond to a plurality of pieces of electrocardiographic information, for example, the rotation rate can correspond to the heart rate, the blood pressure, or other electrocardiographic information such as heart disease risks. In addition, the color of the comet can correspond to the warning information; the control box can carry out primary processing on the acquired electrocardio data, extract key information and diagnose the key information, such as heart disease symptoms of myocardial ischemia, arrhythmia and the like. In addition, the length of the comet can correspond to information such as the blood pressure level or the blood oxygen concentration.

Further, the comet can be contracted in situ, namely the tail of the comet is fixed and the head of the comet continuously moves. The head position of the comet can correspond to the strength of the electrocardiosignal at any moment, the change of the heart rate and the blood pressure; for example, as the beating comet length of the heart changes in a "long-short-long-short" cycle, short may represent low pressure, long may represent high pressure, if the normal range of blood pressure is exceeded, the exceeded area may be displayed using red light, and in the normal range, green or blue light display may be used; the warning threshold values of the high and low pressure values can be set by a user or a doctor, and can also be system preset values.

In addition, comets can be connected end to form a light ring, and the whole ring is simultaneously lightened and extinguished to show the effect of the breathing lamp; the light and shade rhythm is matched with the electrocardio information, for example, the higher the blood pressure is, the higher the brightness of the light is; in addition, the color of the light may feedback the degree of risk of heart disease, e.g. blue for very healthy, green for sub-healthy, orange for risky and red for dangerous.

Further, as shown in fig. 4 to 6, in the second embodiment of the control box provided by the present invention, the upper cover 1 is integrally made of a translucent atomized material; the light guide ring b56 is made of a plurality of fan-shaped semiconductor light materials, wherein the light guide distance and the light intensity of the semiconductor light materials are in a direct proportion relationship, and the fan-shaped structures 561 are in one-to-one correspondence with the point light source assemblies.

In the embodiment, the point light source assembly is an LED lamp 3, the first substrate 4 is a PCB, and the light guiding ring b56 is made of a mixed material of a transparent material (such as resin) and a light diffusing agent (such as nano barium sulfate and calcium carbonate); because the LED lamp 3 can emit very dazzling light with high brightness, people feel uncomfortable, and meanwhile, only one LED light spot can be seen visually, and complicated light effects cannot be displayed, the light guide ring b56 of the embodiment of the invention introduces the light diffusant to convert a point light source emitted by the LED lamp 3 into a surface light source, so that the light is soft and has high brightness enough to display good light effects. The fan-shaped light guide material is provided with an accommodating space on the outer side of the ring, and each accommodating space is internally provided with one LED lamp 3.

Further, the lamp effect module further includes a first light-blocking material layer 57 and a second light-blocking material layer 58; the first light blocking material layer 57 is disposed between two adjacent fan-shaped structures 561, so as to prevent interference between two adjacent LED lamps 3, and when the LED lamp 3 is turned on, only the area of the fan-shaped structure 561 where the LED lamp 3 is located can be turned on, so as to show a complex lighting effect. The second light blocking material layer 58 is disposed between the light guiding ring b56 and the top surface of the upper cover 1 to prevent the light leakage phenomenon of the fan-shaped structure 561 at one side of the ring close to the periphery, so as to improve the display quality of the light effect. Wherein the first light blocking material layer 57 is adhered to the first substrate 4 by an adhesive layer 59, and the second light blocking material layer 58 may be a light blocking ink printed on the light guide ring b 56.

Further, in the present embodiment, the emergency button assembly 7 is further included, and includes a key cap 71, a return spring 72 and a tact switch 73, a mounting hole is formed in the center of the upper cover 1, and the emergency button assembly 7 is fixed in the mounting hole; in the initial state, the key cap 71 is substantially flush with the surface of the upper cover 1, when the key cap 71 is pressed toward the inner side of the upper cover 1, the return spring 72 is stressed and compressed, the tact switch 73 is triggered to execute a preset instruction, and after the key cap 71 is released, the key cap 71 is reset to the initial state under the action of the return spring 72. The preset instruction can be to dial a specific phone (such as 120 or a relative phone) to seek assistance; the special light effect can be displayed to attract the attention of people, so that the effects of warning and assistance are achieved; in addition, a loudspeaker can be arranged in the control box, and the effect of warning and assisting can be achieved by playing preset sound effect through the loudspeaker. Further, the tact switch 73 is fixed on the screw cap 74, as shown in fig. 3 and 7, the inner side of the upper cap 1 is provided with the threaded flange 11, the first light source assembly 5 is fixedly connected with the upper cap 1 through the screw cap 74, further, the upper cap 1 and the bottom cap 2 can be fixedly connected by clamping, bonding, and the like, and the specific connection mode can be adjusted according to actual requirements, and the embodiment is not limited herein.

Because the default of the control box is fixed in front of the chest, that is, the bottom cover 2 is attached to the chest, and the wearer is not convenient to observe the lighting effect displayed by the first light source assembly 5, in this embodiment, the first side surface (the side surface of the control box facing upwards) of the upper cover 1 is further provided with the second light source assembly 6, and is arranged on the second substrate 61, and the light guide member 62 is arranged between the second light source assembly 6 and the first side surface, similar to the first light source assembly 5, the second light source assembly 6 is also the LED lamp 3, the material and the effect of the light guide member 62 are the same as those of the light guide ring b56, and the effect is also to convert the point light source of the second light source assembly 6 into the area light source.

Specifically, the second substrate 61 is a PCB, the second substrate 61 and the light guide member 62 are rectangular (oblong) plate-shaped structures with adaptive shapes and sizes, the second substrate 61 is provided with two LED lamps 3 and respectively disposed at two ends of the second substrate 61 in the length direction, further, in order to prevent light leakage, the two ends of the light guide member 62 in the length direction are respectively provided with a second light-shielding ink layer 63, and when the two LED lamps 3 are simultaneously turned on, a rectangular light-emitting light bar is presented in cooperation with the light guide effect of the light guide member 62; when the LED lamps 3 on the single side are singly or alternately lightened, a single-side or double-side breathing lamp state can be presented, wherein the breathing rhythm is matched with the electrocardio data, and the lamp bar is brighter as the electrocardio voltage is higher; the color of the light may then feedback the degree of risk of heart disease, e.g. green for very low and red for very high. In addition, because the light guide member 62 has a semi-conductive property, the light guide member 62 may also exhibit a display effect in which the brightness at both ends is high and the middle brightness is gradually reduced; the specific display effect is related to at least one of the length of the light guide 62, the concentration and type of the light diffusing agent contained in the light guide 62, and the light emission intensity and color of the LED lamp 3.

Specifically, the light effect displayed by the light effect module is associated with the electrocardio information, so that the test data can be displayed in an imaging manner, and the early warning information can be displayed according to the preliminary diagnosis result; in the embodiment provided by the invention, the processing module can carry out primary processing on the information acquired by the (electrodes of the) electrocardio-coat, automatically identify the typical risk or the premonitory symptom of the disease and carry out key display and early warning; such as cardiac signs of myocardial ischemia, myocardial infarction, heart failure, cardiogenic shock, heart rate overrun, arrhythmia, and the like. Further, the color of the light may alert the degree of danger, for example, blue is healthy, green is sub-healthy and needs attention, orange is at risk and gives an early warning, and red is very dangerous and gives and automatically informs the first-aid personnel of the predetermined condition. The intensity of light may be an instantaneous electrocardiographic voltage, and may be simply considered to be an electrocardiogram converted into a dynamic flickering effect of light to some extent, but is different in nature. In addition, the sent early warning information can be displayed through the color, the change and the brightness of the lighting effect, and the prompting effect can be achieved through the sound information of the loudspeaker; in addition, the user can also actively send out warning information by pressing the key cap 71.

By combining the structural form of the first light source assembly 5 in the present embodiment, various forms of light effects can be displayed:

the number of the formed fan-shaped structures 561 may be specifically set according to actual requirements, for example, the number may be 100, and a circle or a circular ring is formed, and the number of the LED lamps 3 is also 100, and the LED lamps correspond to the fan-shaped structures 561 one by one. In the present embodiment, each of the LED lamps 3 is disposed at an end of the fan-shaped structure 561, and has a semi-conductive property (presence of a light diffusing agent), so that the brightness of the fan-shaped structure 561 gradually becomes dark from one end of the LED lamp 3 to the other end, and the light guiding distance of the fan-shaped structure 561 is in a proportional relationship with the brightness of the LED lamp 3.

As shown in fig. 9, at any one instant, the lighting lengths of the fan-shaped structures 561 (hereinafter referred to as micro sectors) are not the same, that is, the illumination brightness of the LED lamps 3 is different; the graphic effect is similar to that of converting an electrocardiogram into a ring shape, and because there are peaks and valleys in the electrocardiogram, the specific light-emitting length may be defined as a baseline position in this embodiment, for example, the entire length may be divided into ten levels (1 to 10), a level 2 is defined as a baseline, a level 10 or the highest level is a peak, and a level 0 or the lowest level is a valley, so as to represent the peaks and valleys by blurred light intensity (micro-sector lighting length). The sampling rate of the electrocardiogram information display can be 25/s, namely, one datum is displayed every 0.04 s, each electrocardiogram datum can correspond to one micro sector, and each micro sector displays the corresponding length according to the electrocardiogram datum. For example, the micro sector defining the twelve point position is 1#, the clockwise adjacent micro sector is 2#, and so on to 100 #; starting, receiving first electrocardiogram data, lighting the 1# micro sector, wherein the lighting length is matched with the size of the electrocardiogram data; and after 0.04 second, receiving second electrocardio data, wherein the 2# micro sector is lighted up, the 101 th data is received by the 1# micro sector with the unchanged … …, and the lighting length of the 1# micro sector is refreshed according to the data, and so on. In addition, in order to save electric energy, the lighting effect updated by data scanning can be displayed, namely, only a single micro sector is lightened, and adjacent micro sectors are lightened in sequence, so that the effect that the bright strip rotates is presented. For example, initially, first electrocardiogram data is received, a 1# micro sector is lighted, and the lighting length is matched with the size of the electrocardiogram data; and after 0.04 second, receiving second electrocardio data, wherein the 2# micro sector is lightened, the 1# micro sector is extinguished, and the like. In addition, the color may alert the degree of danger, for example, blue is healthy, green is sub-healthy, orange is at risk, red is very dangerous, gives an early warning and automatically notifies the first-aid personnel as set in advance.

In addition, the display of the lighting effect can also be a breathing lamp effect: at any moment, the micro sectors are lighted for the same length, the electrocardiogram data are converted into a large breathing lamp effect, and the same color can warn the danger degree, for example, blue is healthy, green is sub-healthy, orange is dangerous, red is dangerous, early warning is given and the preset emergency personnel are automatically informed.

In addition, the display of the light effect can also be a radar scanning effect, namely, a bright line rotates around the center (namely, adjacent micro sectors are sequentially lightened), and the back can drag the gradually-darkening light-emitting micro sectors; wherein, the scanning speed can be related to the electrocardio information; likewise, colors may alert the degree of danger, e.g., blue for healthy, green for sub-healthy, orange for certain risks, red for very dangerous, giving an early warning and automatically notifying pre-set emergency personnel.

On the other hand, in order to save electric quantity, the number of the LED lamps 3 can be correspondingly reduced or the multi-color LED lamp 3 can be adjusted to be the single-color LED lamp 3; the LED lamp 3 can also be adjusted to be in a state of being turned on when needed and turned off when not needed; for example, it may be lit when it is dangerous, and extinguished in a healthy or sub-healthy state. In addition, the lamp effect module of the control box in the embodiment of the invention introduces special optical materials (light diffusant) and is creatively improved and combined with structures such as a lamp source and the like, and compared with a liquid crystal screen and an OLED screen, the control box has the advantages of low cost, high reliability, electricity saving and the like.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the scope of the present invention is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present invention, and such modifications and equivalents should also be considered as falling within the scope of the present invention.

Claims (5)

1. A control box is applied to electrocardio clothing, its characterized in that, control box includes:

a processing module;

a lamp effect module;

the control box is fixed on the electrocardio-coat through the bottom cover and is electrically connected with the electrocardio-coat;

screwing a cover;

wherein the content of the first and second substances,

the processing module and the lamp effect module are arranged in an accommodating space formed by the upper cover and the bottom cover;

the processing module processes the electrocardio data acquired by the electrocardio coat to obtain a processing result;

the lamp effect module carries out lamp effect display based on the processing result, and the lamp effect module comprises:

the first lamp source assembly comprises a plurality of point light source assemblies which are circularly arranged on the first substrate, and the first lamp source assembly is fixedly connected with the upper cover through the spiral cover;

the light guide ring is arranged between the first substrate and the top surface of the upper cover and used for converting a point light source of the point light source component into a surface light source, and the light guide ring is composed of a plurality of fan-shaped semi-light guide structures;

the lamp effect module further comprises a first light-blocking material layer and a second light-blocking material layer, the first light-blocking material layer is arranged between every two adjacent fan-shaped semiconductor light structures, and the second light-blocking material layer is arranged between the light guide ring and the top surface of the upper cover and used for preventing light leakage of the fan-shaped semiconductor light structures at one side, close to the periphery, of the ring.

2. The control box of claim 1, wherein the top surface of the upper cover is at least partially light transmissive.

3. The control box according to claim 1,

the light guide distance and the light intensity of the fan-shaped semiconductor light structure are in a direct proportional relation, and the fan-shaped semiconductor light structure corresponds to the point light source assemblies one to one.

4. The control box according to claim 3,

the fan-shaped semiconductor light structure is provided with an accommodating space on the outer side of the ring to accommodate the point light source assembly.

5. The control box according to claim 1,

a second light source assembly is arranged on the first side surface of the upper cover;

and a light guide part is arranged between the second light source component and the first side surface and is used for converting the point light source into a surface light source.

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