CN213588251U - Postoperative patient sleep condition monitoring devices - Google Patents

Abstract

The utility model relates to the field of life quality monitoring, in particular to a device for monitoring the sleep condition of a patient after an operation, which is a wearable sleep monitoring instrument in general, and can be used only by the patient needing to wear the instrument, thereby easily bringing discomfort to the patient and influencing the sleep quality of the patient; each monitor is arranged in one accommodating cavity; the middle part of the top end of the elastic component is provided with a groove; the sensor is arranged in the groove, and one end of the elastic component is arranged in an open manner; the open end of the elastic component is connected with the deformation feedback component; the treater sets up on deformation feedback subassembly, and the sensor is connected with the treater, and the treater is connected with data transmission unit, and the information contrast that information and the elastic component collected that collects through the sensor reduces the error, and the user does not influence user's normal sleep when accomplishing the collection of health data through the detector.

Description

Postoperative patient sleep condition monitoring devices

Technical Field

The utility model relates to a quality of life monitoring field, concretely relates to postoperative patient sleep situation monitoring devices.

Background

As is well known, patients need all-round and all-weather nursing when receiving treatment care in hospitals, but at night, the treatment for patients is disadvantageous because the hospital staff is not configured enough and cannot effectively monitor the physical state of the patients during sleeping, and further cannot monitor the sleeping quality and emergency of the patients.

The existing sleep monitoring instrument is usually a wearable sleep monitoring instrument, a patient can use the instrument only by wearing the instrument, discomfort is easily brought to the patient, and the sleep quality of the patient is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at for overcoming current sleep monitor instrument, generally for wearing formula sleep monitor instrument, the patient need wear the instrument and just can use, brings the discomfort for the patient very easily to influence the problem of patient's sleep quality, the utility model provides a postoperative patient sleep situation monitoring devices.

To achieve the above object, a post-operative patient sleep condition monitoring device includes a carrier and a monitor; the carrier is provided with a plurality of accommodating cavities which are arranged in parallel along the width direction of the carrier; each monitor is arranged in one accommodating cavity;

the monitor comprises a sensor, an elastic component, a deformation feedback component, a processor and a data transmission device;

a groove is formed in the middle of the top end of the elastic component; the sensor is arranged in the groove, and one end of the elastic component is arranged in an open manner; the open end of the elastic component is connected with the deformation feedback component; the processor is arranged on the deformation feedback assembly, the sensor is connected with the processor, the processor is connected with the data transmission device, and a flexible layer is arranged at the top of the sensor;

further, the elastic component comprises an elastic bag and a soft sleeve;

the soft sleeve is in an elliptical tube shape; one end of the soft sleeve is arranged in an open manner; the other end of the soft sleeve is sealed; the elastic bag is arranged inside the soft sleeve; and the elastic bag extends towards one end of the opening of the elastic sleeve;

the deformation feedback assembly comprises a fixed shell, a moving piece, a first contact and a second contact;

the solid shell is connected with one end of the opening of the soft sleeve; after the elastic bag is filled with the soft sleeve; the extended part is arranged in the solid shell; the elastic bag is connected with the moving piece arranged in the fixed shell; the moving direction of the moving piece is provided with a guide protrusion arranged in the fixed shell; the first contact and the second contact are arranged on one side, far away from the elastic bag, of the moving piece and are arranged at a certain distance from the moving piece in the initial state, the first contact and the second contact are arranged at intervals in the initial state, the first contact is arranged between the moving piece and the second contact, and a pull rope is connected between the first contact and the moving piece.

Still further, the horizontal clearance between the first contact and the moving part is equal to the length of the pull rope.

Further, the sensor is a piezoelectric film sensor.

Still further, the carrier is a pillow.

Further, the elastic bag is filled with a medium, and the medium is fluid.

Furthermore, a protrusion is arranged on the first contact; the protrusion is disposed at a side facing the second contact.

Furthermore, an annular groove used for providing a deformation space for the elastic bag is formed in the solid shell.

Has the advantages that:

a plurality of monitors are mounted on the carrier, so that the monitoring range is wider; because the patient is inconvenient to stand up after the operation, so patient's motion is head and four limbs swing mostly, consequently the patient can contact with the monitor at any moment, the monitoring result is more accurate, the detector is including utilizing the sensor to collect information and utilizing elastic component to collect information two parts, when the human body acts on the sensor, the sensor is exported the information of collecting through the treater, when the human body acts on elastic component, elastic component deformation makes deformation feedback component produce deformation signal and feeds back, the information contrast of collecting through the information of sensor and elastic component, reduce the error, when being applied to and detect the sleep state, through judging the information that the sensor was collected and the information that elastic component was collected, and then discern human sleep state. The testing result is more accurate, and in addition, the most components of this device are by the flexible material cladding, and the patient does not have the uncomfortable sense that hard thing brought when using, is favorable to promoting user's sleep effect, does not wear various measuring instrument on one's body at the patient and monitors sleep, gets rid of the constraint sense that the measuring instrument wore and brings for the user does not influence user's normal sleep when accomplishing the collection of healthy data through the detector.

Drawings

Fig. 1 is an overall schematic view of the present invention;

fig. 2 is a partial schematic view one of the present invention;

fig. 3 is a partial schematic view of the present invention.

Detailed Description

The first embodiment is as follows: it comprises a carrier 1 and a monitor 2; the carrier 1 is provided with a plurality of accommodating cavities 3 which are arranged in parallel along the width direction of the carrier; each monitor 2 is arranged in one housing cavity 3;

the monitor 2 comprises a sensor 4, an elastic component 5, a deformation feedback component 6, a processor 7 and a data transmission device 8;

a groove is formed in the middle of the top end of the elastic component 5; the sensor 4 is arranged in the groove, and one end of the elastic component 5 is arranged in an open manner; the open end of the elastic component 5 is connected with the deformation feedback component 6; the processor 7 is arranged on the deformation feedback assembly 6, the sensor 4 is connected with the processor 7, the processor 7 is connected with the data transmission device 8, and the flexible layer 9 is arranged on the top of the sensor 4.

In the present embodiment: a plurality of monitors are mounted on the carrier, so that the monitoring range is wider; because the patient is not convenient to turn over after operation, the patient mostly swings the head and four limbs, so the patient can contact with the monitor at any time, the monitoring result is more accurate, the detector comprises two parts of collecting information by using the sensor and collecting information by using the elastic component, when the human body acts on the sensor, the sensor outputs the collected information through the processor, when the human body acts on the elastic component, the elastic component deforms to enable the deformation feedback component to generate a deformation signal for feedback, the information collected by the sensor is compared with the information collected by the elastic component, the error is reduced,

specifically, the method comprises the following steps: the sensor is used for obtaining physiological parameters of a user to be tested and sending the physiological parameters to the processor, the processor is used for analyzing and processing the physiological parameters obtained by the sensor to obtain health data, and the data transmission device is used for sending the health data to the terminal equipment.

The sensor may be a piezoelectric sensor or an infrared photoelectric sensor. In consideration of the specific application scenario of the sensor, in this embodiment, the physiological parameter sensor is optionally a piezoelectric sensor, and specifically, may be a piezoelectric film sensor. The piezoelectric film sensor is designed by adopting a piezoelectric film technology with high sensitivity and stable performance and combining a full-shielding shell, and can pick up sound signals and vibration signals sent by a user, so that the processor analyzes and processes the vibration signals of the sound signals to obtain health data, such as a heart rate value or a respiratory rate of the user.

The processor may be an integrated circuit chip with signal processing capabilities, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), or other programmable logic device, discrete gate or transistor logic device, discrete hardware components, other general purpose processor, a microprocessor, any conventional controller, or the like. The processor may implement or execute the block diagrams of the disclosed embodiments of the present invention.

The data transmission device may be a wired data transmission device, for example, a data transmission line with a USB data interface or a data transmission line with a COM data interface. The data transmission device may also be a wireless data transmission device, such as a bluetooth transceiver, a GPRS wireless transmission module or a WiFi data transmission module.

The second embodiment is as follows: the elastic component 5 comprises an elastic bag 10 and a soft sleeve 11;

the soft sleeve 11 is in an elliptical tube shape; one end of the soft sleeve 11 is arranged in an open way; the other end of the soft sleeve 11 is sealed; the elastic bag 10 is arranged inside the soft sleeve 11; and the elastic bag 10 extends towards one end of the opening of the elastic sleeve;

the deformation feedback assembly 6 comprises a fixed shell 12, a moving part 13, a first contact 14 and a second contact 15;

the solid shell 12 is connected with one end of the opening of the soft sleeve 11; after the elastic bag 10 is filled with the soft sleeve 11; the extended portion is disposed within the solid housing 12; the elastic bag 10 is connected with a moving part 13 arranged in the fixed shell 12; a guide protrusion arranged inside the fixed housing 12 is provided along the moving direction of the moving member 13; the first contact 14 and the second contact 15 are both arranged on one side, away from the elastic bag 10, of the moving part 13 and are at a certain distance from the moving part 13 in an initial state, the first contact 14 and the second contact 15 are arranged at intervals in the initial state, the first contact 14 is arranged between the moving part 13 and the second contact 15, and a pull rope 16 is connected between the first contact 14 and the moving part 13.

In the present embodiment:

when external force of a human body acts on the elastic assembly, the elastic bag in the soft sleeve deforms to drive the moving piece to move, the moving piece pushes the first contact to be close to the second contact, deformation is generated to generate a deformation signal, when the external force disappears, the elastic bag restores to a natural state, the initial position of the moving piece, the first contact and the second contact are disconnected, and in the process of connecting and disconnecting the two contacts, the elastic cavity can only transmit deformation towards the direction of the sliding block, and the sliding block is matched with the contacts, so that the precision and the sensitivity of the whole signal source device are high; in addition, when the signal source device is applied to detecting the sleep state, whether the external force of the human body acts on the signal source device can be judged in real time by judging whether the deformation signal is generated on the contact, and then the sleep state of the human body is identified.

Other embodiments are the same as the first embodiment.

The third concrete implementation mode: the horizontal gap between the first contact 14 and the moving member 13 is equal to the length of the pull cord 16.

In the present embodiment: the pull rope is favorable for the action and the homing of the moving piece after the first contact moves.

Other embodiments are the same as the second embodiment.

The fourth concrete implementation mode: the sensor 4 is a piezoelectric film sensor.

Other embodiments are the same as the first embodiment.

The fifth concrete implementation mode: the carrier is a pillow, so that the information generated by the head during sleeping can be conveniently detected.

In the present embodiment; the carrier of the device is a pillow

The other embodiments are the same as the fourth embodiment.

The sixth specific implementation mode: the elastic bag 10 is filled with a medium, and the medium is fluid.

The other embodiments are the same as the fourth embodiment.

The seventh embodiment: the first contact 14 is provided with a protrusion; the projection is arranged on the side facing the second contact 15.

The other embodiments are the same as the fourth embodiment.

The specific implementation mode is eight: an annular groove 17 for providing a deformation space for the elastic bag is arranged in the solid shell 12.

In this embodiment, the annular groove is used to provide a deformation space for the elastic bag.

The other embodiments are the same as the seventh embodiment.

Claims (8)

1. A postoperative patient sleep condition monitoring device, characterized in that: it comprises a carrier (1) and a monitor (2); the carrier (1) is provided with a plurality of accommodating cavities (3) which are arranged in parallel along the width direction of the carrier; each monitor (2) is arranged in a containing cavity (3);

the monitor (2) comprises a sensor (4), an elastic component (5), a deformation feedback component (6), a processor (7) and a data transmission device (8);

a groove is formed in the middle of the top end of the elastic component (5); the sensor (4) is arranged in the groove, and one end of the elastic component (5) is arranged in an open manner; the open end of the elastic component (5) is connected with the deformation feedback component (6); the processor (7) is arranged on the deformation feedback assembly (6), the sensor (4) is connected with the processor (7), the processor (7) is connected with the data transmission device (8), and the top of the sensor (4) is provided with a flexible layer (9).

2. A post-operative patient sleep condition monitoring device according to claim 1, wherein: the elastic component (5) comprises an elastic bag (10) and a soft sleeve (11);

the soft sleeve (11) is in an elliptical tube shape; one end of the soft sleeve (11) is arranged with an opening; the other end of the soft sleeve (11) is sealed; the elastic bag (10) is arranged inside the soft sleeve (11); and the elastic bag (10) extends towards one end of the opening of the elastic sleeve;

the deformation feedback assembly (6) comprises a solid shell (12), a moving piece (13), a first contact (14) and a second contact (15);

the solid shell (12) is connected with one end of the opening of the soft sleeve (11); after the elastic bag (10) is filled with the soft sleeve (11), the extending part is arranged in the solid shell (12), and the elastic bag (10) is connected with a moving part (13) arranged in the solid shell (12); a guide projection arranged inside the solid shell (12) is arranged along the moving direction of the moving piece (13); the first contact (14) and the second contact (15) are arranged on one side, far away from the elastic bag (10), of the moving piece (13) and are spaced from the moving piece (13) in the initial state, the first contact (14) and the second contact (15) are arranged at intervals in the initial state, the first contact (14) is arranged between the moving piece (13) and the second contact (15), and a pull rope (16) is connected between the first contact (14) and the moving piece (13).

3. A post-operative patient sleep condition monitoring device according to claim 2, wherein: the horizontal gap between the first contact (14) and the moving part (13) is equal to the length of the pull rope (16).

4. A post-operative patient sleep condition monitoring device according to claim 2, wherein: the sensor (4) is a piezoelectric film sensor.

5. A post-operative patient sleep condition monitoring device according to claim 1, wherein: the carrier (1) is a pillow.

6. A post-operative patient sleep condition monitoring device according to claim 2, wherein: the elastic bag (10) is filled with a medium, and the medium is fluid.

7. A post-operative patient sleep condition monitoring device according to claim 2, wherein: the first contact (14) is provided with a protrusion; the projection is arranged on the side facing the second contact (15).

8. A post-operative patient sleep condition monitoring device according to claim 2, wherein: an annular groove (17) used for providing a deformation space for the elastic bag is formed in the solid shell (12).

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