CN214317054U - Intelligent detection body shaping clothes - Google Patents

Abstract

The utility model discloses to the above-mentioned HIIT weight-losing training method of prior art, provide an intellectual detection system clothing of getting into shape for the training is assisted. The utility model discloses on the basis of traditional clothing of getting into shape, through the system of addding electrocardiosignal test, according to training person's actual health quality, set up in advance in the host computer and be fit for the personal rhythm of the heart intensity of training person, then detect training person's rhythm of the heart in real time through the sensor, and feed back to the host computer, preset rhythm of the heart intensity through host computer analysis contrast, and feed back to training person, if training person training intensity is on the low side, can remind it, if training person training intensity is too high, then remind it to notice the health bearing capacity. By the method, the trainer can effectively and quickly lose weight and shape, and damage to the trainer caused by excessive training can be further avoided. Meanwhile, various zippers are added on the body shaping clothes in an adaptive manner, so that inconvenience of the connected clothes to the daily life of a trainer is avoided.

Description

Intelligent detection body shaping clothes

Technical Field

The utility model belongs to the technical field of the supplementary apparatus of body-building, specifically speaking relates to an intellectual detection system clothing of getting into shape.

Background

Weight loss has been a long-talking topic among many people, and people are worried about weight loss every day in every corner of the world. Most people have long period of weight loss and unobvious effect. With the improvement of physical life, more and more people in modern society have obesity, and long-term high-strength weight-losing training under limited time and energy is difficult for most people who step into the society to start working because of more and more trivial time and energy of people. With the rapid development of economy, on one hand, the physical life of people is improved, and high-nutrition and high-calorie diet causes more obesity, and on the other hand, the spiritual world of people is richer, and the requirements of the public on figure management are more strict. Under the above two effects, the demand for weight reduction and body shaping is actually considerable in the present society, but the current society has been in the predicament of imbalance in physical management for a long time due to the decrease of free control time of modern people.

With the progress of scientific research, aiming at the situations, the body-building world provides a high-efficiency, quick and short-time-consuming weight-losing method, namely HIIT weight-losing, namely high-intensity intermittent training. The training method is characterized in that high-intensity rapid movement and slightly low-intensity moderate movement are alternated, so that a trainer can perform full-force, rapid and explosive training in a short time. The essence is that the heart rate of the trainer is increased in a short period, so that more heat is burnt.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to prior art's above-mentioned HIIT weight-losing training method, the utility model provides an intellectual detection system clothing of getting into shape, on traditional clothing of getting into shape's basis, through the system of addding electrocardiosignal test, according to training person's actual health quality, set up the individual rhythm of the heart intensity of suitable training person in advance in the host computer, then detect training person's rhythm of the heart in real time through the sensor, and feed back to the host computer, preset rhythm of the heart intensity through host computer analysis contrast, and feed back to training person, if training person training intensity is on the low side, can remind it, if training person training intensity is too high, then remind it to notice health bearing capacity. By the method, the trainer can effectively and quickly lose weight and shape, and damage to the trainer caused by excessive training can be further avoided. Meanwhile, various zippers are added on the body shaping clothes in an adaptive manner, so that inconvenience of the connected clothes to the daily life of a trainer is avoided.

The utility model discloses specifically realize the content as follows:

the utility model provides an intelligent detection body-shaping clothes, which comprises a body of the body-connected clothes and an upper computer, wherein the front part of the upper garment of the body-connected clothes is provided with a front zipper which is vertically arranged and extends from a collar of the body-connected clothes to the belly of the upper garment; a rear zipper is transversely arranged at the hip part of the back part of the one-piece clothes body; the tail ends of the left and right hand long sleeves and the left and right leg long trouser legs of the one-piece clothes body are provided with protective sleeves; a left electrocardio sensor and a right electrocardio sensor are respectively arranged at the inner sides of the protection sleeves at the left hand and the right hand and close to the pulse of the human body; the left chest of the one-piece garment body is provided with a data processing unit, the data processing unit is connected with the left electrocardio sensor and the right electrocardio sensor through cables, and the data processing unit is also in data connection with an upper computer; and the upper computer is provided with a voice reminder.

In order to better realize the utility model discloses, furtherly, still including setting up the insulating and waterproof layer at the internal side of disjunctor clothing, insulating and waterproof layer sets up two-layer confined space that constitutes, connects data processing unit and left electrocardio sensor and right electrocardio sensor the cable sets up in the confined space that two-layer insulating and waterproof layer constitutes.

In order to better realize the utility model discloses, furtherly, the cable sets up to leaving certain flexible volume of flare-outing in confined space.

In order to better realize the utility model discloses, further, still include down the zip fastener, the zip fastener setting is in down the preceding crotch portion of disjunctor clothing body.

In order to better realize the utility model discloses, further, still include and shelter from the piece, it sets up outside the zip fastener under to shelter from the piece.

In order to better realize the utility model, furthermore, the data processing module comprises a low-pass filtering unit, a pre-amplifying unit, a high-pass filtering unit, a main amplifying unit, an A/D converting unit and a wireless transceiving unit which are connected in sequence;

the input end of the low-pass filtering unit is respectively connected with the left electrocardio sensor and the right electrocardio sensor through cables;

and the wireless transceiving unit is in data connection with the upper computer.

In order to better realize the utility model, further, the pre-amplification unit comprises an AD623 chip and an operational amplifier AD8607, wherein the No. 2 input end and the No. 3 input end of the AD623 chip are respectively connected with the output ends of the two groups of low-pass filtering units, and the No. 1 output end and the No. 8 output end of the AD623 chip are connected with the No. 3 positive input end of the operational amplifier AD8607 after being lapped with the divider resistor; the No. 2 negative electrode input end and the No. 1 output end of the operational amplifier AD8607 are respectively connected with a Drive Screen Drive signal, the No. 1 output end is also connected with a resistor R3 and is connected with the No. 5 positive electrode input end of the operational amplifier AD8607 through a resistor R3, and the No. 7 output end of the operational amplifier AD8607 is connected to the right leg of a human body; the No. 6 negative input end of the operational amplifier AD8607 is connected with a resistor and a capacitor which are connected in parallel and is connected with the No. 7 output end;

and the No. 6 output end of the AD623 chip is used as the output end of a preamplification unit and is connected with the input end of the high-pass filtering unit.

In order to better realize the present invention, further, the high-pass filtering unit includes a capacitor C6, and the capacitor C6 is connected to the output end of the pre-amplifying unit and then connected to the main amplifying unit;

the main amplification unit comprises an operational amplifier AD8603, wherein the No. 3 positive electrode input end of the operational amplifier AD8603 is connected with a capacitor C6, and the No. 1 output end of the operational amplifier AD8603 is connected with the A/D conversion unit.

In order to better realize the utility model, further, the a/D conversion unit comprises an AD chip MAX187 and a single chip microcomputer AT89S51, the VIN input end of the AD chip MAX187 is connected with the output end of the main amplification unit, and the SCLK pin, the CS pin and the DOUT pin of the AD chip MAX187 are respectively connected with the pins No. 10, No. 11 and No. 12 of the single chip microcomputer AT89S 51; a key control circuit is connected to the No. 9 pin of the single chip microcomputer AT89S51 in a lap joint manner; the singlechip AT89S51 is connected with the wireless transceiving unit.

Compared with the prior art, the utility model have following advantage and beneficial effect:

the utility model provides a clothing of getting into shape of intellectual detection system that can be used for assisting HIIT training can detect training person's rhythm of the heart in real time through the sensor to feed back to the host computer, predetermine rhythm of the heart intensity through host computer analysis contrast, and feed back to training person, if training person training intensity is on the low side, can remind it, if training person training intensity is too high, then remind it to notice the health bearing capacity. By the method, the trainer can effectively and quickly lose weight and shape, and damage to the trainer caused by excessive training can be further avoided. Meanwhile, various zippers are added on the body shaping clothes in an adaptive manner, so that inconvenience of the connected clothes to the daily life of a trainer is avoided.

Drawings

Fig. 1 is a schematic front view of the body-shaping clothes of the present invention;

fig. 2 is a back schematic view of the body-shaping clothes of the present invention;

FIG. 3 is a schematic view of the present invention with a lower zipper;

FIG. 4 is a schematic view of the present invention with a shielding plate;

FIG. 5 is a schematic diagram of the connection of circuit modules of the data processing unit according to the present invention;

fig. 6 is a schematic circuit diagram of the low-pass filtering unit of the present invention;

FIG. 7 is a schematic diagram of the circuit of the pre-amplification unit connected to the right leg driving circuit according to the present invention;

fig. 8 is a schematic circuit diagram of the high-pass filtering unit and the main amplifying unit according to the present invention;

FIG. 9 is a schematic diagram of the A/D conversion unit circuit of the present invention;

fig. 10 is a schematic diagram of a single unit rf transceiver circuit of the wireless transceiver of the present invention.

Wherein: 1. the one-piece clothes comprises a one-piece clothes body 2, a protective sleeve 3, a front zipper 4, a rear zipper 5, a data processing unit 6, a lower zipper 7 and a shielding piece.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments, and therefore should not be considered as limitations to the scope of protection. Based on the embodiments in the present invention, all other embodiments obtained by the staff of ordinary skill in the art without creative work belong to the protection scope of the present invention.

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

Example 1:

the embodiment provides an intelligent detection body-shaping garment, which comprises a one-piece garment body 1 and an upper computer, wherein a front zipper 3 is vertically arranged at the front part of a coat of the one-piece garment body 1, and the front zipper 3 extends from a collar of the one-piece garment body 1 to the abdomen of the coat; a rear zipper 4 is transversely arranged at the hip part of the back part of the one-piece clothes body 1; the tail ends of the left and right hand long sleeves and the left and right leg long trouser legs of the one-piece clothes body 1 are provided with protective sleeves 2; a left electrocardio sensor and a right electrocardio sensor are respectively arranged at the inner sides of the protection sleeves 2 at the left hand and the right hand and close to the pulse of the human body; the left chest of the one-piece garment body 1 is provided with a data processing unit 5, the data processing unit 5 is connected with a left electrocardio sensor and a right electrocardio sensor through cables, and the data processing unit 5 is also in data connection with an upper computer; and the upper computer is provided with a voice reminder.

The working principle is as follows: can gather and send data processing unit 5 for carrying out data processing through the real-time rhythm of the heart to the training person of sensor, then feed back to the host computer, predetermine rhythm of the heart intensity through host computer analysis contrast to feed back to the training person, if training person training intensity is on the low side, can remind it, if training person training intensity is too high, then remind it to notice the health bearing capacity. By the method, the trainer can effectively and quickly lose weight and shape, and damage to the trainer caused by excessive training can be further avoided. The front zipper 3 is arranged to facilitate the wearing of the trainer. Set up some injuries that cause wrist ankle when protecting sleeve 2 can avoid training, back zip fastener 4 pulls open the back, can let the training person normally like the lavatory during training.

Example 2:

this embodiment is on the basis of above-mentioned embodiment 1, in order to realize better the utility model discloses, furtherly, still including setting up the insulating and waterproof layer at the disjunctor clothing body 1 inboard, insulating and waterproof layer sets up two-layer confined space that constitutes, connects data processing unit and left electrocardio sensor and right electrocardio sensor the cable sets up in the confined space that two-layer insulating and waterproof layer constitutes.

The working principle is as follows: through setting up two-layer insulating and waterproof layer, can strengthen stability, avoid the training person to lead to circuit device to intake because of sweating and damage and training person to electrocute scheduling problem simultaneously.

Other parts of this embodiment are the same as those of embodiment 1, and thus are not described again.

Example 3:

this embodiment is based on any of the above-mentioned embodiments 1-2, and in order to better realize the utility model discloses, further, the cable sets up to leaving certain flexible volume of flare-outing in confined space.

The working principle is as follows: the hand and foot of training person uses simultaneously when the motion, when doing some actions, in order to avoid the cable excessively to stretch out and straighten and cause the damage, sets up the cable in insulating waterproof layer to have certain flexible volume, can adapt to training person's motion better.

Other parts of this embodiment are the same as any of embodiments 1-2 described above, and thus are not described again.

Example 4:

on the basis of any one of the above embodiments 1 to 3, as shown in fig. 3 and 4, in order to better implement the present invention, the present embodiment further includes a lower zipper 6, wherein the lower zipper 6 is disposed at the front crotch portion of the body suit 1.

In order to better realize the utility model, furthermore, still include and shelter from piece 7, shelter from piece 7 and set up outside zip fastener 6 down.

The working principle is as follows: further, for the convenience of the male trainer, the front crotch of the body of the coveralls 1 is provided with the lower zipper 6, and if the male trainer only needs to solve the needs for a short time during training, the male trainer can finish the toilet conveniently and quickly without the need of the rear zipper 4, so that the training can be returned, the long-time stop of the training can be avoided, the heart rate is gentle, and the training effect is reduced.

Other parts of this embodiment are the same as any of embodiments 1 to 3, and thus are not described again.

Example 5:

on the basis of any one of the foregoing embodiments 1 to 4, as shown in fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, and fig. 10, in order to better implement the present invention, further, the data processing module includes a low-pass filtering unit, a pre-amplifying unit, a high-pass filtering unit, a main amplifying unit, an a/D converting unit, and a wireless transceiving unit, which are connected in sequence;

the input end of the low-pass filtering unit is respectively connected with the left electrocardio sensor and the right electrocardio sensor through cables;

and the wireless transceiving unit is in data connection with the upper computer.

In order to better realize the utility model, further, the pre-amplification unit comprises an AD623 chip and an operational amplifier AD8607, wherein the No. 2 input end and the No. 3 input end of the AD623 chip are respectively connected with the output ends of the two groups of low-pass filtering units, and the No. 1 output end and the No. 8 output end of the AD623 chip are connected with the No. 3 positive input end of the operational amplifier AD8607 after being lapped with the divider resistor; the No. 2 negative electrode input end and the No. 1 output end of the operational amplifier AD8607 are respectively connected with a Drive Screen Drive signal, the No. 1 output end is also connected with a resistor R3 and is connected with the No. 5 positive electrode input end of the operational amplifier AD8607 through a resistor R3, and the No. 7 output end of the operational amplifier AD8607 is connected to the right leg of a human body; the No. 6 negative input end of the operational amplifier AD8607 is connected with a resistor and a capacitor which are connected in parallel and is connected with the No. 7 output end;

and the No. 6 output end of the AD623 chip is used as the output end of a preamplification unit and is connected with the input end of the high-pass filtering unit.

In order to better realize the present invention, further, the high-pass filtering unit includes a capacitor C6, and the capacitor C6 is connected to the output end of the pre-amplifying unit and then connected to the main amplifying unit;

the main amplification unit comprises an operational amplifier AD8603, wherein the No. 3 positive electrode input end of the operational amplifier AD8603 is connected with a capacitor C6, and the No. 1 output end of the operational amplifier AD8603 is connected with the A/D conversion unit.

In order to better realize the utility model, further, the a/D conversion unit comprises an AD chip MAX187 and a single chip microcomputer AT89S51, the VIN input end of the AD chip MAX187 is connected with the output end of the main amplification unit, and the SCLK pin, the CS pin and the DOUT pin of the AD chip MAX187 are respectively connected with the pins No. 10, No. 11 and No. 12 of the single chip microcomputer AT89S 51; a key control circuit is connected to the No. 9 pin of the single chip microcomputer AT89S51 in a lap joint manner; the singlechip AT89S51 is connected with the wireless transceiving unit.

The working principle is as follows: after the electrocardiosignals are explored through a lead electrode in contact with a human body, the electrocardiosignals are amplified by an acquisition part and are subjected to filtering treatment, the processed signals are input into an A/D converter to be converted into digital signals which can be directly processed by a singlechip, and then the signals are sent out by a wireless receiving and sending module to be analyzed and processed by medical personnel, so that the amplitude of the electrocardiosignals obtained from the body surface of the human body is generally 0.5-4 mV, and the frequency is 0.05-100 Hz; therefore, interference signals which are not in the frequency range need to be processed through low-pass filtering and high-pass filtering to obtain pure signal signals, and after the pure signal signals are amplified for two times, the signals processed through the method are converted into binary signals which can be processed by a single chip microcomputer through A/D conversion to be analyzed and processed.

As shown in fig. 5-9, the pre-amplification unit includes an AD623 chip and an operational amplifier AD8607, wherein the input terminal No. 2 and the input terminal No. 3 of the AD623 chip are respectively connected to the output terminals of the two sets of low-pass filtering units, and the output terminal No. 1 and the output terminal No. 8 of the AD623 chip are connected to the positive input terminal No. 3 of the operational amplifier AD8607 after being lapped with a divider resistor; the No. 2 negative electrode input end and the No. 1 output end of the operational amplifier AD8607 are respectively connected with a Drive Screen Drive signal, the No. 1 output end is also connected with a resistor R3 and is connected with the No. 5 positive electrode input end of the operational amplifier AD8607 through a resistor R3, and the No. 7 output end of the operational amplifier AD8607 is connected to the right leg of a human body; the No. 6 negative input end of the operational amplifier AD8607 is connected with a resistor and a capacitor which are connected in parallel and is connected with the No. 7 output end;

and the No. 6 output end of the AD623 chip is used as the output end of a preamplification unit and is connected with the input end of the high-pass filtering unit.

The high-pass filtering unit comprises a capacitor C6, and the capacitor C6 is connected with the output end of the pre-amplification unit and then is connected with the main amplification unit;

the main amplification unit comprises an operational amplifier AD8603, wherein the No. 3 positive electrode input end of the operational amplifier AD8603 is connected with a capacitor C6, and the No. 1 output end of the operational amplifier AD8603 is connected with the A/D conversion unit.

The A/D conversion unit comprises an AD chip MAX187 and a single chip microcomputer AT89S51, the VIN input end of the AD chip MAX187 is connected with the output end of the main amplification unit, and the SCLK pin, the CS pin and the DOUT pin of the AD chip MAX187 are respectively connected with pins No. 10, No. 11 and No. 12 of the single chip microcomputer AT89S 51; a key control circuit is connected to the No. 9 pin of the single chip microcomputer AT89S51 in a lap joint manner; the singlechip AT89S51 is connected with the wireless transceiving unit.

The wireless transceiving unit adopts a transceiving radio frequency circuit formed by CC1100, and specifically comprises a group of transceiving radio frequency circuits connected with the singlechip AT89S51 and a group of transceiving radio frequency circuits connected with an upper computer, wherein the two groups of transceiving radio frequency circuits have the same structure and are in communication connection with each other.

The working principle of the technical scheme is as follows: the electrocardiosignals detected by the lead electrodes connected to the human body may contain high-frequency noise interference, so that 1 low-pass filtering unit with the cut-off frequency of 200Hz is needed to filter the high-frequency noise before entering the preamplifier unit. This also provides a direct current path for the ecg signal. The two series resistors of each channel may also serve to limit current.

The pre-amplifier stage is a high performance instrumentation amplifier AD623, AD623 of high precision, low power consumption, triple operational amplifier architecture, which maintains minimal errors, line noise and harmonics by providing an excellent AC common mode rejection ratio (ACCMRR) that increases with gain. The advantages of low power consumption (1.5 mW at 3V), wide power supply voltage range (+3 to +12V), high common mode rejection ratio, high input impedance, higher differential mode gain, full power supply amplitude output and the like make the AD623 an ideal choice for the single-power-supply electrocardiosignal acquisition circuit.

The AD623 allows gain programming using a single gain setting resistor for good user flexibility. The gain can reach 1000 times at most. In the design, the front stage amplification factor G1 is 10;

because the electrocardiosignal voltage of different leads has positive or negative, a proper clamping voltage must be provided. The voltage input range of ADuC7026 under AD conversion mode is 0-2.5V, and the middle value 1.65V of power supply voltage 3.3V is selected as the clamping voltage. That is, the 5-pin reference voltage VREF of the AD623 is 1.65V.

The right leg driving circuit is designed for overcoming the common mode interference borne by human body and improving CMRR. In an actual circuit, a double operational amplifier AD8607 is adopted to amplify a common-mode signal, and considering the problem of power consumption, R8 takes 1k Ω, R9 takes 220k Ω, and R3 takes 1M Ω as current limiting protection, so that the circuit can be more stable by C5, and generally takes 0.01F. The shielding layer of the input cable is driven by the common-mode input voltage instead of being grounded, the influence of distributed capacitance of the shielding cable is eliminated, and the common-mode rejection capability of the circuit is improved. Shielded drives are also useful for reducing 50Hz common mode interference.

The main amplifying circuit selects a chip AD 8603. AD8603 is a precision, single-way, micro-power, rail-to-rail input/output, low noise, CMOS operational amplifier with very low offset voltage and low input voltage and current noise characteristics. It adopts the patent technique of adjusting, need not laser adjustment alright reach outstanding precision. The combination of low offset, low noise, extremely low input bias current and low power consumption makes AD8603 especially suitable for portable and loop power supply instrument and meter applications. The gain of the main amplification circuit can be determined by the following equation.

The channel of the system transports discrete binary digital signals, so that analog signals acquired from human bodies need to be converted into digital signals after A/D conversion, and then the digital signals can be sent to a single chip microcomputer for processing and then sent out by a transmitting module. The analog-to-digital converters on the market at present can be divided into a parallel interface and a serial interface from the interface, and the parallel interface chip generally has many pins, large volume, large power consumption, and much occupied single chip interface lines but high speed. The serial interface chip has small volume, occupies less singlechip port lines, but has lower speed generally. The traditional electrocardio acquisition and processing system mostly adopts parallel A/D conversion chips, so the volume is larger, the power consumption is also large, and the electrocardio acquisition and processing system is inconvenient to use a battery for power supply and carry about. The portable electrocardiosignal analog-to-digital converter is a key point of the utility model, and the analog-to-digital conversion of the electrocardiosignals is realized by adopting a serial A/D conversion chip MAX187 with l2 bits through selection and comparison. Although the serial interface chip is used, the conversion speed is not slow, the requirement on the sampling frequency of the electrocardio data is completely met, and the requirements on small volume and low power consumption of portable products are met. MAX187 converts the input analog signal into a 12-bit digital signal using a sample/hold circuit and a bit-by-bit compare register, and the sample/hold circuit does not require an external capacitor. The power supply needs decoupling capacitance, and the common method is to use a 4.7 muF capacitor and a 0.1 muF capacitor in parallel. The 4-pin reference terminal is connected with a decoupling capacitor of 4.7 muF, and the internal 4.096V reference voltage mode is used. The voltage range of the input analog signal is 0-4.096V, and if the analog input voltage is not in the range, an external circuit is required to convert the voltage range. MAX187 has only one analog input channel, such as an artificial multi-channel signal, and multiple analog switches are added. To ensure sampling accuracy, it is preferable to supply power to the MAX187 separately from the single chip microcomputer. In actual circuit wiring, the wires to AIN and GND can be short or short, so that noise is reduced as much as possible; in order to accurately switch at a near-full scale, the input electrocardiosignal is amplified and moved to a range which is not more than VCCA +50mV and not less than GND-50 mV. The analog signal and the digital signal are separately arranged, the digital ground wire is positioned between the digital signals as much as possible, the analog ground and the digital ground are subjected to division processing, and finally the analog ground and the digital ground are connected at the corner of the circuit board;

the wireless receiving and transmitting module is the main component of the utility model, and the wireless radio frequency chip CC1100 is selected for use here to realize the receiving and transmitting of the electrocardiosignal, which is the core component of the wireless receiving and transmitting module. The circuit design of the system requires small volume and low power consumption all the time, but most of the traditional wireless transmission design schemes are complicated in circuit and difficult to debug, and the application of the system is limited due to more required peripheral devices. CC1100 is a truly low-cost, low-power, monolithic UHF wireless transceiver. The circuit with the working voltage of 1.8V-3.6V is mainly set to ISM (industrial, scientific and medical) and SRD (short-distance device) frequency bands of 315, 433, 868 and 915MHz without license, and can also be easily set to other frequencies of 300-348 MHz, 400-464 MHz and 800-928 MHz; it has 64 bytes of Rx and TX data FIFO; the RF transceiver integrates a highly configurable modem which supports different modulation formats, has excellent frequency stability and stronger anti-interference capability; the data transmission rate can reach 500 kbps; the chip has extremely low power consumption, only needs less than 30mA in a sending mode, only needs about 15mA in a receiving state (according to the transmitting power), simultaneously has very high receiving sensitivity, and is especially designed for low-power wireless application. The wireless transmitting/receiving circuit realizes wireless transmission of electrocardiosignals and control signal reception by utilizing the CCll00 wireless transceiver chip design.

Other parts of this embodiment are the same as any of embodiments 1 to 4, and thus are not described again.

The above is only the preferred embodiment of the present invention, not to the limitation of the present invention in any form, all the technical matters of the present invention all fall into the protection scope of the present invention to any simple modification and equivalent change of the above embodiments.

Claims (9)

1. The intelligent detection body-shaping clothes are characterized by comprising a one-piece clothes body (1) and an upper computer, wherein a front zipper (3) is vertically arranged at the front part of a coat of the one-piece clothes body (1), and the front zipper (3) extends from a collar of the one-piece clothes body (1) to the abdomen of the coat; a rear zipper (4) is transversely arranged at the hip part of the back part of the one-piece clothes body (1); the tail ends of the left and right hand long sleeves and the left and right leg long trouser legs of the one-piece clothes body (1) are provided with protective sleeves (2); a left electrocardio sensor and a right electrocardio sensor are respectively arranged at the inner sides of the protection sleeves (2) at the left hand and the right hand and close to the pulse of the human body; a data processing unit (5) is arranged at the left chest of the one-piece garment body (1), the data processing unit (5) is connected with the left electrocardio sensor and the right electrocardio sensor through cables, and the data processing unit (5) is also in data connection with an upper computer; and the upper computer is provided with a voice reminder.

2. The intelligent detection body-shaping clothes according to claim 1, further comprising an insulating waterproof layer arranged on the inner side of the body-shaping clothes (1), wherein two layers of the insulating waterproof layer are arranged to form a sealed space, and the cable connecting the data processing unit with the left electrocardiogram sensor and the right electrocardiogram sensor is arranged in the sealed space formed by the two layers of the insulating waterproof layer.

3. The garment of claim 2, wherein the cable is configured to allow for a stretch straightening amount in the sealed space.

4. The intelligent detection body-shaping clothes according to claim 1, further comprising a lower zipper (6), wherein the lower zipper (6) is arranged at the front crotch portion of the one-piece clothes body (1).

5. The intelligent detection body-shaping clothes according to claim 4, further comprising a shielding sheet (7), wherein the shielding sheet (7) is arranged outside the lower zipper (6).

6. The intelligent detection body-shaping clothes according to any one of claims 1-5, wherein the data processing module comprises a low-pass filtering unit, a pre-amplifying unit, a high-pass filtering unit, a main amplifying unit, an A/D converting unit and a wireless transceiving unit which are connected in sequence;

the input end of the low-pass filtering unit is respectively connected with the left electrocardio sensor and the right electrocardio sensor through cables;

and the wireless transceiving unit is in data connection with the upper computer.

7. The garment of claim 6, wherein the pre-amplification unit comprises an AD623 chip and an operational amplifier AD8607, the No. 2 input terminal and the No. 3 input terminal of the AD623 chip are respectively connected with the output terminals of the two sets of low-pass filter units, and the No. 1 output terminal and the No. 8 output terminal of the AD623 chip are connected with the No. 3 positive input terminal of the operational amplifier AD8607 after being lapped with a divider resistor; the No. 2 negative electrode input end and the No. 1 output end of the operational amplifier AD8607 are respectively connected with a Drive Screen Drive signal, the No. 1 output end is also connected with a resistor R3 and is connected with the No. 5 positive electrode input end of the operational amplifier AD8607 through a resistor R3, and the No. 7 output end of the operational amplifier AD8607 is connected to the right leg of a human body; the No. 6 negative input end of the operational amplifier AD8607 is connected with a resistor and a capacitor which are connected in parallel and is connected with the No. 7 output end;

and the No. 6 output end of the AD623 chip is used as the output end of a preamplification unit and is connected with the input end of the high-pass filtering unit.

8. The intelligent detection body-shaping clothes of claim 7, wherein the high-pass filtering unit comprises a capacitor C6, and the capacitor C6 is connected with the main amplifying unit after being connected with the output end of the pre-amplifying unit;

the main amplification unit comprises an operational amplifier AD8603, wherein the No. 3 positive electrode input end of the operational amplifier AD8603 is connected with a capacitor C6, and the No. 1 output end of the operational amplifier AD8603 is connected with the A/D conversion unit.

9. The garment of claim 8, wherein the a/D conversion unit comprises an AD chip MAX187 and a single-chip microcomputer AT89S51, a VIN input terminal of the AD chip MAX187 is connected with an output terminal of the main amplification unit, and an SCLK pin, a CS pin, and a DOUT pin of the AD chip MAX187 are connected with pins No. 10, No. 11, and No. 12 of the single-chip microcomputer AT89S51, respectively; a key control circuit is connected to the No. 9 pin of the single chip microcomputer AT89S51 in a lap joint manner; the singlechip AT89S51 is connected with the wireless transceiving unit.

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