CN104055484B - Sensor support body and the device of collection physiology signal - Google Patents

Abstract

The invention discloses a sensor supporting body and a device for collecting human physiological signals, wherein the device for collecting human physiological signals includes a sensor supporting body and a sensor module, the sensor supporting body is a flexible body, and a soft battery and a radio frequency antenna are arranged inside, and the containing device is fixed On the flexible body; two power supply conductive sheets are arranged on the outside of the storage device, which are respectively connected to the positive and negative electrodes of the soft battery, and the power supply conductive sheet extends to the inside of the storage device; a radio frequency conductive sheet is arranged on the outside of the storage device, which is connected to the radio frequency antenna. The radio frequency conductive sheet extends to the inside of the receiving device; the sensor module is detachably arranged in the receiving device, the sensor module is connected to the power conductive sheet, and the sensor module is also connected to the radio frequency conductive sheet. The sensor support body of the present invention can carry different sensor modules arbitrarily, has strong versatility, reduces the risk of cross-infection after being combined into a device for collecting human physiological signals, and the sensor modules can be reused to save costs.

Description

Sensor support body and device for collecting human physiological signals

technical field

The invention relates to the field of sensors, in particular to a sensor support body and a device for collecting physiological signals of a human body.

Background technique

Various sensors are required to collect physiological signals of the human body. During the measurement process, the sensors need to be attached to the skin of the human body. For example, when measuring the temperature of the human body, the temperature sensor needs to be attached to the skin of the human body to collect temperature data. It is necessary to press the temperature sensor close to the skin by hand or other tools. Moreover, in terms of medical care, the sensor needs to be sterilized during the detection process to prevent cross-infection after multiple people use the same sensor, and sensor disinfection is a cumbersome task, and replacing the sensor will generate a lot of economic waste, so provide A human physiological signal acquisition device that can prevent cross-infection and avoid economic waste is a problem that needs to be solved by us.

Contents of the invention

The main purpose of the present invention is to provide an active disposable sensor support body which can disassemble and assemble the sensor module arbitrarily, and a device for collecting human physiological signals.

In order to achieve the above-mentioned purpose of the invention, the present invention first proposes a sensor support body, including a flexible body, a soft battery, a radio frequency antenna, and an accommodating device for loading a sensor module,

A soft battery and a radio frequency antenna are arranged inside the flexible body, and the containing device is fixed on the flexible body;

Two power supply conductive sheets are arranged outside the storage device, which are respectively connected to the positive and negative electrodes of the soft battery. The power supply conductive sheet extends to the inside of the storage device; a radio frequency conductive sheet is also provided outside the storage device, which is connected to the radio frequency antenna. The radio frequency conductive sheet extends to the inside of the containing device;

When the sensor module is put into the accommodating device, the sensor module is connected to the power supply conductive sheet to get electricity, and the sensor module is also electrically connected to the radio frequency conductive sheet, and the sensor module transmits the collected data to the radio frequency antenna through the radio frequency conductive sheet.

Further, an adhesive layer is provided on the flexible body, and the positive and negative contacts of the soft battery and the contacts of the radio frequency antenna are arranged on the adhesive layer, and the receiving device is bonded to the outside of the adhesive layer, and The power conductive sheet is adapted to be electrically connected to the positive and negative contacts of the soft battery, and the radio frequency conductive sheet is adapted and electrically connected to the contact of the radio frequency antenna.

Further, the flexible body is in the shape of a belt, one side of the belt-shaped flexible body covers the adhesive layer, and the accommodating device is arranged in the middle between two ends of the belt-shaped flexible body.

Further, the adhesive layer on both sides of the receiving device is covered with a release layer.

Further, the flexible body is in the shape of a belt, and the two ends of the belt-shaped flexible body are provided with corresponding connecting mechanisms; the accommodating device is arranged between the connecting mechanisms at the two ends of the belt-shaped flexible body.

Further, the accommodating device is a hard card slot with an opening, the thickness of the hard card slot is 1.8 mm to 2.5 mm, and the opening is provided on the side of the hard card slot.

Further, the side of the hard card slot facing away from the flexible body is a film layer of 45 microns to 55 microns.

Further, the thin film in the thin film layer is one of aluminum film, copper film, titanium alloy film and plastic film.

Further, the two power conductive strips respectively extend to the inner walls on both sides of the hard card slot and form elastic protrusions.

An embodiment of the present invention also provides a device for collecting human physiological signals, including a sensor support body and a sensor module,

The sensor support body includes a flexible body, a soft battery, a radio frequency antenna, and an accommodation device for loading a sensor module; a soft battery and a radio frequency antenna are arranged inside the flexible body, and the accommodation device is fixed on the flexible body; Two power contacts are arranged in the receiving device, which are respectively connected to the positive pole and the negative electrode of the soft battery; radio frequency contacts are also arranged in the receiving device, which are connected to the radio frequency antenna;

The sensor module is detachably arranged in the accommodating device. When the sensor module is put into the accommodating device, the sensor module is connected to the power supply conductive sheet to obtain electric energy, and the sensor module is also electrically connected to the radio frequency conductive sheet. The sensor module will The collected data is transmitted to the radio frequency antenna through the radio frequency conductive sheet.

Further, an adhesive layer is provided on the flexible body, and the positive and negative contacts of the soft battery and the contacts of the radio frequency antenna are arranged on the adhesive layer, and the receiving device is bonded to the outside of the adhesive layer, and The power conductive sheet is adapted to be electrically connected to the positive and negative contacts of the soft battery, and the radio frequency conductive sheet is adapted and electrically connected to the contact of the radio frequency antenna.

Further, the flexible body is in the shape of a belt, one side of the belt-shaped flexible body covers the adhesive layer, and the accommodating device is arranged in the middle between two ends of the belt-shaped flexible body.

Further, the adhesive layer on both sides of the receiving device is covered with a release layer.

Further, the flexible body is in the shape of a belt, and the two ends of the belt-shaped flexible body are provided with corresponding connecting mechanisms; the accommodating device is arranged between the connecting mechanisms at the two ends of the belt-shaped flexible body.

Further, the accommodating device is a hard card slot with an opening, the thickness of the hard card slot is 1.8 mm to 2.5 mm, and the opening is provided on the side of the hard card slot.

Further, the side of the hard card slot facing away from the flexible body is a film layer of 45 microns to 55 microns.

Further, the thin film in the thin film layer is one of aluminum film, copper film, titanium alloy film and plastic film.

Further, the two power conductive strips respectively extend to the inner walls on both sides of the hard card slot and form elastic protrusions.

The beneficial effects of the present invention are: by arranging a soft battery and a radio frequency antenna in the flexible body, the flexible body becomes an active carrier, and can be bent and deformed, and then a receiving device is arranged on the flexible body, and the sensor module can be placed in the receiving device In the center and connected to the power supply and the antenna for signal transmission, it becomes a device that can collect sensory data, and the sensor module can be in contact with the human body through the holding device. Since the sensor module is wrapped and does not directly contact the human body, it can reduce the risk of repeated use. The risk of cross-infection caused by the sensor module, when it is necessary to measure for others, the sensor module can be taken out of the containing device and placed in a new sensor support body, which is highly versatile, and the used sensor support body can be Disposal, because there is no sensor module in the sensor support body, so the use price is low, and the disposal cost is low.

Description of drawings

Fig. 1 is a schematic cross-sectional view of a sensor support body of the present invention in an embodiment;

Fig. 2 is a schematic cross-sectional view of a sensor support body of the present invention in an embodiment;

Fig. 3 is a schematic structural diagram of a device for collecting human physiological signals according to the present invention.

The realization of the purpose of the present invention, functional characteristics and advantages will be further described in conjunction with the embodiments and with reference to the accompanying drawings.

detailed description

It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.

Referring to Fig. 1 , a sensor supporting body is proposed in an embodiment of the present invention, including a flexible body 10, a soft battery 60, a radio frequency antenna 80, and an accommodating device 20 for loading a sensor module 70. The soft body 10 is provided with a soft The battery 60 and the radio frequency antenna 80, the receiving device 20 is fixed on the flexible body 10; the receiving device 20 is provided with two power conductive sheets on the outside, which are respectively connected to the positive pole and the negative pole of the soft battery 60, and the power conductive sheet extends to The inside of the receiving device 20; the outside of the receiving device 20 is also provided with a radio frequency conductive sheet, which is connected to the radio frequency antenna 80, and the radio frequency conductive sheet extends to the inside of the receiving device 20; when the sensor module 70 is placed in the receiving device 20, the sensor module 70 and the The power conductive sheet is electrically connected to take power, and the sensor module 70 is also electrically connected to the radio frequency conductive sheet. The sensor module 70 transmits the collected data to the radio frequency antenna 80 through the radio frequency conductive sheet, and the radio frequency antenna 80 performs data interaction with external equipment. The device is a reading terminal, which can display the data collected by the sensor module 70 in forms such as numbers and curves, and can also analyze and process the data. The flexible body 10 described in this embodiment includes objects with flexible bending characteristics such as cloth, paper, leather, rubber, etc.; the soft battery 60 includes paper batteries and other batteries that can be embedded or wrapped in the flexible body 10 and can be bent. When the paper battery is embedded in the flexible body 10, the flexible body 10 becomes a flexible body 10 with power supply. In this embodiment, the number of soft batteries 60 can be one or more, depending on the specific The use requirements can be set; the radio frequency antenna 80 can be a common radio frequency antenna 80, or a metal film laid on a flexible circuit board, so that when the radio frequency antenna 80 is arranged in the flexible body 10, the flexibility will not be affected. The flexibility of the body 10, in a specific embodiment, the soft battery 60 and the radio frequency antenna 80 can be stacked and arranged in the flexible body 10, and can also be arranged on the same layer, which is designed according to the specific situation; the sensor module 70 is a A module that integrates a controller and a sensor, which integrates collection and control, making it easy to carry and use; the accommodating device 20 can be set inside the flexible body 10 or outside the flexible body 10 , is generally a hard box body, which is convenient for fixing the sensor module 70, and at the same time, it is convenient for the lead connectors of the soft battery 60 and the radio frequency antenna 80 to contact and connect with the conductive sheet on the box body.

In the sensor supporting body of the present invention, by arranging a soft battery 60 and a radio frequency antenna 80 in the flexible body 10, the flexible body 10 becomes an active carrier, and can be bent and deformed, and then the accommodating device 20 is arranged on the flexible body 10, The sensor module 70 can be placed in the receiving device 20 and connected to the power supply and the antenna for signal transmission, making it a device that can collect sensory data, and the sensor module 70 can be in contact with the human body through the receiving device 20, because the sensor module 70 is wrapped No direct contact with the human body, so the risk of cross-infection caused by repeated use of the sensor module 70 is reduced. When it is necessary to measure for other people, the sensor module 70 can be taken out of the containing device 20 and placed on a new sensor support body Among them, the used sensor support body can be discarded, because there is no sensor module 70 in the sensor support body, so the use price is low, and the disposal cost is low, and different sensor modules can be arbitrarily loaded in the storage device 20, and the versatility is strong. A temperature sensor module is placed in the device 20, which can be used as a device for measuring the skin temperature of a human body; if a heart rate sensor module is placed in the accommodating device 20, it can be used as a device for measuring the heart rate of a human body; Devices for other physiological parameters of the human body.

In one embodiment of the sensor support body of the present invention, the flexible body 10 is provided with an adhesive layer 30, the receiving device 20 is bonded to the outside of the adhesive layer 30, and the adhesive layer 30 is provided with a soft battery 60. The positive and negative contacts of the soft battery and the contacts of the radio frequency antenna, when the adhesive layer 30 is bonded to the containing device 20, each conductive metal sheet on the containing device 20 is adapted to the positive and negative contacts of the soft battery It is electrically connected with the contact of the radio frequency antenna. The receiving device 20 is easy to install. In the production process, the flexible body 10 and the receiving device 20 can be produced separately, and then bonded by glue, so the production is fast. Of course, in the production process, the positive and negative electrodes of the flexible battery on the flexible body 10 The positions of the contacts and the contacts of the radio frequency antenna 80 will be set corresponding to the receiving device 20. Similarly, the receiving device 20 will also have metal contacts or interfaces corresponding to the lead contacts of the flexible battery and the radio frequency antenna 80, so that the sensor module When 70 is put into the receiving device 20, the circuit can be connected normally. During use, the flexible body 10 can be directly bonded to the human skin, so that the sensor module 70 in the receiving device 20 can smoothly collect the required human body signals. For example, in a hospital, after the patient is admitted, the sensor support body with the temperature sensor module can be bonded to the patient's body, such as under the armpit, etc., and the temperature sensor module 70 will collect the temperature of the patient's bonding place, and collect the The temperature data is sent to the external reading terminal through the radio frequency antenna to display the temperature until it is taken off when it is discharged from the hospital. During this period, it is not necessary to take it off multiple times or use other temperature measurement tools to measure the patient's body temperature. The use process is hygienic and low infection Risk, convenient for patients, but also reduce the temperature measurement workload of medical staff. In one embodiment of the sensor supporting body of the present invention, the above-mentioned flexible body 10 is in the shape of a belt, one side of the belt-shaped flexible body 10 covers the adhesive layer 30, and the receiving device 20 is arranged on both sides of the belt-shaped flexible body 10. The middle part between the ends, such a structure is more convenient for people to use during use. After pressing the receiving device 20 to the desired position, press the belt-shaped flexible bodies 10 on both sides to the skin. For better storage and use, the adhesive layer 30 on both sides of the receiving device 20 is covered with a release layer 40. The release layer 40 can be oily paper that is easy to separate from the adhesive such as wax paper. The use process is like using band Aid.

In one embodiment of the sensor supporting body of the present invention, the accommodating device 20 is a hard card slot with an opening, and the hard card slot is generally made of a material that meets hygienic standards, such as plastic material, metal or alloy material. It is biocompatible and prevents problems such as skin allergies after contact with the human body. It can be set according to different usage conditions. If it is specially for measuring body temperature, then use a good thermal conductivity alloy material to make a hard card slot, and the effect will be better during the measurement process; the hard card slot is flat, and the opening is set On the side of the hard card slot, the hard card slot opens on the side to facilitate the insertion of the sensor module 70. The sensor module 70 can be made into the same structure as an SD card, and the corresponding design of the hard card slot, when inserting, directly insert the The sensor module 70 is stuck. When the sensor module 70 needs to be pulled out, lightly press the sensor module 70 in the hard card slot, and then release it, the sensor module 70 will pop out automatically. In this embodiment, the side of the hard card slot away from the flexible body 10 (the side in contact with the human body) is a film layer of 45 microns to 55 microns, and the films in the film layer are aluminum film, copper film, titanium alloy Any of film and plastic film. In order to improve the user experience, the thickness of the hard card slot is about 1.8 mm to 2.5 mm. If it is too thick than 2.5 mm, the user may feel uncomfortable. If it is too thin than 1.8 mm, the sensor module 70 The process requirements are too high, and the production cost increases.

In one embodiment of the sensor support body of the present invention, the hard card slot is provided with a tenon design to prevent the sensor module 70 from being inserted backwards, and the two power supply conductive sheets respectively extend to the inner walls on both sides of the hard card slot And form an elastic protrusion, which can also play a positioning role under the effect of conduction. The power conductive sheet can extend to both sides of the side of the hard card slot and the flexible body to the side of the hard card slot, and then extend into the hard slot to form an elastic protrusion. Correspondingly, the sensor module 70 is correspondingly provided with a concave portion corresponding to the elastic protrusion.

In another embodiment of the sensor support body of the present invention, the above-mentioned hard card slot is flat, the opening is arranged on the side of the hard card slot away from the flexible body 10, and a cover fits to cover the opening. The side of the cover away from the opening is provided with adhesive, and release paper is provided on the adhesive. In this structure, the sensor module 70 is fixed and not easy to lose.

As shown in Figure 2, in one embodiment of the sensor support body of the present invention, the above-mentioned flexible body 10 is in the shape of a belt, and the two ends of the belt-shaped flexible body 10 are provided with corresponding connecting mechanisms; the receiving device 20 is arranged on the belt-shaped flexible body 10 between the connecting mechanisms at both ends. The connection mechanism can be provided with corresponding Velcro 50 at the two ends of the strip-shaped flexible body 10, or provided with a corresponding buckle device, etc., so that the strip-shaped flexible body 10 can be tied to a designated position when in use. , such as on the arms or ankles of the human body, it is easy to use and will not cause damage to the skin.

As shown in FIG. 3 , an embodiment of the present invention also provides a device for collecting human physiological signals, including a sensor support body and a sensor module 70. The sensor support body includes a flexible body 10, a soft battery 60, a radio frequency antenna 80, and In the receiving device 20 loaded with the sensor module 70, a soft battery 60 and a radio frequency antenna 80 are arranged inside the flexible body 10, and the receiving device 20 is fixed on the flexible body 10; two power supply conductors are arranged outside the receiving device 20 The conductive sheet of the power supply is connected to the positive pole and the negative electrode of the soft battery 60 respectively, and the conductive sheet of the power supply extends to the inside of the receiving device 20; the conductive sheet of radio frequency is also provided outside the receiving device 20, which is connected with the radio frequency antenna 80, and the conductive sheet of radio frequency extends to the receiving device 20 inside; when the sensor module 70 is put into the accommodating device 20, the sensor module 70 is electrically connected to the power supply conductive sheet to take power, and the sensor module 70 is also electrically connected to the radio frequency conductive sheet, and the sensor module 70 passes the collected data through radio frequency The conductive sheet is transmitted to the radio frequency antenna 80, and the radio frequency antenna 80 performs data interaction with the external device. The external device is a reading terminal, which can display the data collected by the sensor module 70 as numbers, curves, etc., and can also analyze and process the data. The flexible body 10 described in this embodiment includes objects with flexible bending characteristics such as cloth, paper, leather, rubber, etc.; the soft battery 60 includes paper batteries and other batteries that can be embedded or wrapped in the flexible body 10 and can be bent. When the paper battery is embedded in the flexible body 10, the flexible body 10 becomes a flexible body 10 with power supply. In this embodiment, the number of soft batteries 60 can be one or more, depending on the specific The use requirements can be set; the radio frequency antenna 80 can be a common radio frequency antenna 80, or a metal film can be laid on a flexible circuit board, so that when the radio frequency antenna 80 is arranged in the flexible body 10, it will not affect the flexible body. 10 flexibility, in a specific embodiment, the soft battery 60 and the radio frequency antenna 80 can be stacked and arranged in the flexible body 10, and can also be arranged in the same layer, which is designed according to the specific situation; the sensor module 70 is a A module that integrates a controller and a sensor, which integrates collection and control to make it easy to carry and use; the accommodating device 20 can be arranged inside the flexible body 10 or outside the flexible body 10, Generally, it is a hard box body, which is convenient for fixing the sensor module 70, and at the same time, it is convenient for the lead connectors of the soft battery 60 and the radio frequency antenna 80 to contact and connect with the conductive sheets on the box body.

In the device for collecting human physiological signals of the present invention, by arranging a soft battery 60 and a radio frequency antenna 80 in the flexible body 10, the flexible body 10 becomes an active carrier, and can be bent and deformed, and then the flexible body 10 is provided with an accommodating The device 20, the sensor module 70 can be placed in the receiving device 20 and connected to the power supply and the antenna for signal transmission, making it a device that can collect sensory data, and the sensor module 70 can be in contact with the human body through the receiving device 20, because the sensor module 70 will not be in direct contact with the human body, so the risk of cross-infection caused by repeated use of the sensor module 70 is reduced. When it is necessary to measure for other people, the sensor module 70 can be taken out of the containing device 20 and placed in a new sensor module. In the support body, the used sensor support body can be discarded, and there is no sensor module 70 in the sensor support body, so the use price is low, and the disposal cost is low, and different sensor modules can be arbitrarily loaded in the receiving device 20, which has strong versatility, such as Putting the temperature sensor module in the receiving device 20 can be used as a device for measuring the skin temperature of the human body; if the heart rate sensor module is placed in the receiving device 20, it can be used as a device for measuring the heart rate of the human body; it can also be replaced by other human physiological parameter sensors As a device for measuring other physiological parameters of the human body.

In one embodiment of the device for collecting human physiological signals of the present invention, the flexible body 10 is provided with an adhesive layer 30, the containing device 20 is bonded to the outside of the adhesive layer 30, and the adhesive layer 30 is provided with The positive and negative contacts of the soft battery 60 and the contacts of the radio frequency antenna, the adhesive layer 30 is bonded to the containing device 20, and each conductive metal sheet on the containing device 20 is adapted to the positive and negative electrodes of the soft battery. The contacts of the radio frequency antenna are electrically connected with the contacts of the radio frequency antenna. The receiving device 20 is easy to install. In the production process, the flexible body 10 and the receiving device 20 can be produced separately, and then bonded by glue, so the production is fast. Of course, in the production process, the positive and negative electrodes of the flexible battery on the flexible body 10 The positions of the contacts and the contacts of the radio frequency antenna 80 will be set corresponding to the receiving device 20. Similarly, the receiving device 20 will also have metal contacts or interfaces corresponding to the lead contacts of the flexible battery and the radio frequency antenna 80, so that the sensor module When 70 is put into the receiving device 20, the circuit can be connected normally. During use, the flexible body 10 can be directly bonded to the human skin, so that the sensor module 70 in the receiving device 20 can smoothly collect the required human body signals. For example, in a hospital, after the patient is admitted, the sensor support body with the temperature sensor module can be bonded to the patient's body, such as under the armpit, etc., and the temperature sensor module 70 will collect the temperature of the patient's bonding place, and collect the The temperature data is sent to the external reading terminal through the radio frequency antenna to display the temperature until it is removed from the hospital. During this period, there is no need to remove it multiple times or use other temperature measurement tools to measure the patient's body temperature. It is hygienic and has low risk of infection. It is convenient for patients and also reduces the temperature measurement workload of medical staff. Of course, in order to meet the requirements of the use time, the sensor module 70 will contain a time control circuit to control the sensor module to transmit once or a specified number of times of data collection within a specified time interval. For example, it is set to transmit the collected data once every minute, which greatly reduces the energy consumption of the soft battery and improves the use time of the device for collecting human physiological signals.

In a specific embodiment of the device for collecting human physiological signals of the present invention, the above-mentioned sensor module 70 is provided with an alarm unit, and the warning value of the data collected by the sensor module 70 is preset in the alarm unit. When the collected data exceeds the warning value The device for collecting human physiological signals actively sends data to an external reading terminal, and the transmitted data may also include an alarm signal that triggers the reading terminal, so that the user holding the reading terminal can understand the situation at the first time. For example, the sensor module 70 is a temperature sensor module, and a warning value of 38.5 degrees Celsius is preset in the alarm unit of the temperature sensor module. When the patient's body temperature exceeds 38.5 degrees Celsius, the temperature sensor module will actively send the collected temperature data to the reader. Terminal, the alarm signal of the replacement will trigger the alarm device on the reading terminal, reminding the person who holds the reading terminal to know the patient's body temperature is too high at the first time, and carry out corresponding processing, so that the body temperature can be known quickly and without omission Abnormal patient situation, to avoid danger. For another example, the sensor module 70 is a heart rate sensor module, and two warning values are set in the alarm unit in the heart rate sensor module, which are respectively 100 times/minute and 65 times/minute. When the heart rate is greater than 100 beats/min and less than 65 beats/min, the device for collecting human physiological signals will send the collected heart rate data and alarm signal to the reading terminal. Of course, for the warning value in the alarm unit, the reading terminal can be wirelessly connected to the radio frequency antenna 80, and then the sensor module 70 can be modified to set different warning values for different patients. For example, when measuring the heart rate of a human body, if the patient is For young athletes, the lowest heart rate warning value can be set at 60 beats per minute, while the elderly need to set a warning value corresponding to their age. The reading terminal modifies the warning value wirelessly, which is fast and convenient.

In one embodiment of the device for collecting human physiological signals of the present invention, the above-mentioned flexible body 10 is in the shape of a belt, one side of the belt-shaped flexible body 10 covers the adhesive layer 30, and the containing device 20 is arranged on the belt-shaped flexible body. In the middle between the two ends of 10, such a structure is more convenient for people to use during use. After pressing the receiving device 20 to the desired position, press the belt-shaped flexible body 10 on both sides to the skin. For better storage and use, the adhesive layer 30 on both sides of the receiving device 20 is covered with a release layer 40. The release layer 40 can be oily paper that is easy to separate from the adhesive such as wax paper. The use process is like using band Aid.

In one embodiment of the device for collecting human physiological signals of the present invention, the accommodating device 20 is a hard card slot with an opening, and the hard card slot is generally made of materials that meet hygienic standards, plastic materials, metal or alloy materials. It is biocompatible and prevents skin allergies and other pathological changes after contact with the human body. It can be set according to different usage conditions. If it is specially for measuring body temperature, then use a good thermal conductivity alloy material to make a hard card slot, and the effect will be better during the measurement process; the hard card slot is flat, and the opening is set On the side of the hard card slot, the hard card slot opens on the side to facilitate the insertion of the sensor module 70. The sensor module 70 can be made into the same structure as an SD card, and the corresponding design of the hard card slot, when inserting, directly insert the The sensor module 70 is stuck. When the sensor module 70 needs to be pulled out, lightly press the sensor module 70 in the hard card slot, and then release it, the sensor module 70 will pop out automatically. In this embodiment, the side of the hard card slot away from the flexible body 10 (the side in contact with the human body) is a film of 45 microns to 55 microns, and the film is made of aluminum film, copper film, titanium alloy film, or plastic film. any of the In order to improve the user experience, the thickness of the hard card slot is about 1.8 mm to 2.5 mm. If it is too thick than 2.5 mm, the user will feel uncomfortable. If it is too thin than 1.8 mm, it will affect the sensor module 70. The process requirement is too high, and the production cost increases.

In one embodiment of the device for collecting human physiological signals of the present invention, the hard card slot is provided with a tenon design to prevent the sensor module 70 from being inserted backwards, and the two power supply conductive sheets extend to both sides of the hard card slot respectively. Elastic protrusions are formed on the inner wall, which can also play a positioning role under the effect of conductivity. Correspondingly, the sensor module 70 is correspondingly provided with a concave portion corresponding to the elastic protrusion.

In another embodiment of the device for collecting human physiological signals of the present invention, the above-mentioned hard card slot is flat, and the opening is set on the side of the hard card slot away from the flexible body 10, and a cover fits on the Said opening; the side of the cover away from the opening is provided with viscose, and a release paper is provided on the viscose. In this structure, the sensor module 70 is fixed firmly and is not easy to lose.

In one embodiment of the device for collecting human physiological signals of the present invention, the above-mentioned flexible body 10 is in the shape of a belt, and the two ends of the belt-shaped flexible body 10 are provided with corresponding connecting mechanisms; Between the connecting mechanism at both ends. The connection mechanism can be provided with corresponding Velcro 50 at the two ends of the strip-shaped flexible body 10, or provided with a corresponding buckle device, etc., so that the strip-shaped flexible body 10 can be tied to a designated position when in use. , such as on the arms or ankles of the human body, it is easy to use and will not cause damage to the skin.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the patent scope of the present invention. Any equivalent structure or equivalent process transformation made by using the description of the present invention and the contents of the accompanying drawings, or directly or indirectly used in other related All technical fields are equally included in the scope of patent protection of the present invention.

Claims (11)

1. A sensor support body, characterized in that, comprises a flexible body, a soft battery, a radio frequency antenna, and an accommodating device for loading a sensor module, A soft battery and a radio frequency antenna are arranged inside the flexible body, and the containing device is fixed on the flexible body; Two power supply conductive sheets are arranged outside the storage device, which are respectively connected to the positive and negative electrodes of the soft battery. The power supply conductive sheet extends to the inside of the storage device; a radio frequency conductive sheet is also provided outside the storage device, which is connected to the radio frequency antenna. The radio frequency conductive sheet extends to the inside of the containing device; When the sensor module is put into the accommodating device, the sensor module is connected to the power supply conductive sheet to take electricity, and the sensor module is also electrically connected to the radio frequency conductive sheet, and the sensor module transmits the collected data to the radio frequency antenna through the radio frequency conductive sheet; The containing device is a hard box. 2. The sensor support body according to claim 1, wherein the flexible body is provided with an adhesive layer, and the adhesive layer is provided with positive and negative contacts of the soft battery and contacts of the radio frequency antenna , the accommodating device is glued on the outside of the adhesive layer, and the power conductive sheet is adapted and electrically connected to the positive and negative contacts of the soft battery, and the radio frequency conductive sheet is adapted and electrically connected to the contact of the radio frequency antenna. 3. The sensor supporting body according to claim 2, wherein the flexible body is in the shape of a belt, one side of the belt-shaped flexible body covers the adhesive layer, and the receiving device is arranged on the side of the belt-shaped flexible body. the middle between the ends. 4. The sensor supporting body according to claim 3, characterized in that, the adhesive layer on both sides of the receiving device is covered with a release layer. 5. The sensor support body according to claim 1, wherein the flexible body is strip-shaped, and the two ends of the strip-shaped flexible body are provided with corresponding connecting mechanisms; Between the connecting mechanism at both ends. 6. The sensor supporting body according to any one of claims 1-5, characterized in that, the accommodating device is a hard slot with an opening, and the thickness of the hard slot is 1.8 mm to 2.5 mm. mm, the opening is set on the side of the hard card slot. 7. The sensor supporting body according to claim 6, characterized in that, the side of the hard slot facing away from the flexible body is a film layer of 45 microns to 55 microns. 8 . The sensor support according to claim 7 , wherein the thin film in the thin film layer is one of aluminum film, copper film, titanium alloy film and plastic film. 9 . The sensor supporting body according to claim 6 , wherein the two power supply conductive sheets respectively extend to inner walls on both sides of the hard card slot and form elastic protrusions. 10 . 10. A device for collecting human physiological signals, characterized in that it includes a sensor support body and a sensor module, The sensor support body includes a flexible body, a soft battery, a radio frequency antenna, and an accommodation device for loading a sensor module; a soft battery and a radio frequency antenna are arranged inside the flexible body, and the accommodation device is fixed on the flexible body; Two power contacts are arranged in the receiving device, which are respectively connected to the positive pole and the negative electrode of the soft battery; radio frequency contacts are also arranged in the receiving device, which are connected to the radio frequency antenna; The sensor module is detachably arranged in the accommodating device. When the sensor module is put into the accommodating device, the sensor module is connected to the power supply conductive sheet to obtain electricity, and the sensor module is also electrically connected to the radio frequency conductive sheet; The containing device is a hard box. 11. The device for collecting physiological signals of a human body according to claim 10, wherein the sensor support body is also the sensor support body according to any one of claims 2-9.