CN107095517A

CN107095517A - Remote health monitoring system based on intelligent bed

Info

Publication number: CN107095517A
Application number: CN201710377043.5A
Authority: CN
Inventors: 王志强
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-05-25
Filing date: 2017-05-25
Publication date: 2017-08-29

Abstract

Remote health monitoring system of the invention based on intelligent bed includes bed body；Sleep positions sensor, it is configured in the upper surface of the bed body, and it is used for the sleep positions relative to bed body for detecting user；Sleeping posture sensor, it is configured in the upside of the bed body, and it is used for the sleeping posture for detecting user；Server, it is connected with the sleep positions sensor, sleeping posture sensor, its sleep positions data for gathering the sleep positions sensor, sleeping posture sensor, sleeping posture data real-time rendering are stored to database in two-dimensional coordinate figure, and by the two-dimensional coordinate figure；User terminal, it is connected by server with the database.The present invention passes through collection of server sleep positions data, sleeping posture data, and be plotted in same two-dimensional coordinate figure, user can be facilitated to pass through user's terminal inquiry sleeping posture, sleep positions, consequently facilitating the sleep quality of user monitoring oneself, and beneficial to the sleep quality of doctor understanding patient.

Description

Remote health monitoring system based on intelligent bed

Technical field

It is more particularly to a kind of to be used for intelligent bed system system the present invention relates to a kind of commodity system.

Background technology

Bed body is people's furniture used in everyday.Bed body level of comfort determines the quality of sleep quality.And user is sleeping Sleeping posture, the sleep positions of oneself can not be perceived during dormancy.

Therefore, a kind of system that can detect human body sleep posture and position is needed badly at present.

The content of the invention

The technical problem to be solved in the present invention is to provide a kind of simple in construction, cost it is low, be based on intelligent bed easily to operate Remote health monitoring system.

Remote health monitoring system of the invention based on intelligent bed, including bed body；Sleep positions sensor, it is configured in institute The upper surface of bed body is stated, it is used for the sleep positions relative to bed body for detecting user；Sleeping posture sensor, it is configured in institute The upside of bed body is stated, it is used for the sleeping posture for detecting user；Server, itself and the sleep positions sensor, sleeping posture Sensor is connected, its sleep positions data for gathering the sleep positions sensor, sleeping posture sensor, sleeping posture number It is plotted in when factually in two-dimensional coordinate figure, and the two-dimensional coordinate figure is stored to database；User terminal, it passes through server It is connected with the database.

Remote health monitoring system of the invention based on intelligent bed, wherein, the sleep positions sensor is by multiple pressure Sensor is constituted, and the multiple pressure sensor is with latticed configuration in the upper surface of the bed body.

Remote health monitoring system of the invention based on intelligent bed, wherein, the sleeping postures sensor is by multiple shootings Head is constituted, and the multiple camera is fastened around the end of the bed body by support.

Remote health monitoring system of the invention based on intelligent bed, wherein, the user terminal passes through WIFI module and institute State server connection.

Remote health monitoring system of the invention based on intelligent bed, wherein, the sleep positions sensor, sleeping posture are passed Sensor is connected by ZigBee module with the server.

The remote health monitoring system based on intelligent bed of the invention, wherein, the server is according to the sleep positions of user Data judging sleep positions data coefficient A, server according to the sleeping posture data judging sleeping posture data coefficient B of user, Server is according to the sleep positions data coefficient A, sleeping posture data coefficient B, user's weight C, user's height D, Yong Hunian Age E, user body fat rate F, recommend length of one's sleep G to user terminal output as follows；

Wherein, when user's body is inclined to the south of bed body, server judges sleep positions data coefficient A as 0.2；

When user's body be inclined to bed body it is eastern or western when, server judges sleep positions data coefficient A as 0.15；

When user's body is inclined to the north of bed body, server judges sleep positions data coefficient A as 0.1；

When user's body for when lying on the back, server judges sleeping posture data coefficient B as 0.2；

When user's body for when lying on one's side, server judges sleeping posture data coefficient B as 0.15；

When user's body is prostrate, server judges sleeping posture data coefficient B as 0.1；

User's weight C unit for kilogram, user's height D unit for centimetre, age of user E unit is one full year of life, User's body fat rate F unit is percent, and the unit for recommending length of one's sleep G is hour.

The remote health monitoring system based on intelligent bed of the invention, wherein, the server is according to the sleep positions of user Data judging sleep positions data coefficient A, server according to the sleeping posture data judging sleeping posture data coefficient B of user, Server is according to the sleep positions data coefficient A, sleeping posture data coefficient B, user's weight C, user's height D, Yong Hunian Age E, user body fat rate F, as follows to user terminal output sleep quality scoring H；

User's weight C unit for kilogram, user's height D unit for centimetre, age of user E unit is one full year of life, User's body fat rate F unit is percent, and sleep quality scoring H unit is to divide.

The remote health monitoring system based on intelligent bed of the invention, wherein, the support include supporting shell, the first motor, First worm screw, first axle, the first cam, the first bayonet lock, the 6th rod, the 7th rod, the 8th rod, the 9th rod, the tenth rod, the 11st Rod, the first slide plate, the first guide rail；

The bottom of the supporting shell and the end of the bed body are fixed, and the side of the supporting shell is solid with first motor Fixed, the output shaft of first motor is fixed with configuring the first worm screw in the supporting shell, first worm screw with it is described First worm gear is engaged, and first worm gear fixes with the first axle, and the first axle is fixed with first cam, and described the The end face of one cam is surrounded with the track being engaged with its shape, first track provided with the first card being matched therewith Pin, the 6th rod, the end of the tenth rod are by the first bayonet lock hinge connection, the 6th rod and the 7th rod hinge connection, institute State the 7th rod and the 11st rod hinge connection, the tenth rod and the 8th rod hinge connection, the 8th rod and institute The 9th rod hinge connection is stated, the middle part of the 7th rod and the middle part of the 8th rod are by second hinge hinge connection, described second Hinge by bearing be arranged on the supporting shell outside, the 9th rod and the 11st rod by third hinge hinge connection, The third hinge is arranged on first slide plate by bearing, the 6th rod, the 7th rod, the 8th rod, the 9th rod, the tenth Rod, the 11st rod connect into 8-shaped；The configuration of the first guide rail longitudinal direction is in the supporting shell, and the middle part of the first guide rail leads to Cross screw mechanism to be connected with the supporting shell, the end of the first guide rail and the supporting shell hinge connection, the screw mechanism bag The second leading screw, the second motor, the second guide rail, the second nut are included, second motor, the second guide rail are fixed with the supporting shell, The second guide rail landscape configuration, the output shaft of second motor is fixed with second leading screw, second leading screw and institute The connection of the second nut thread is stated, second nut is moved along second guide rail, second nut and first guide rail Hinge connection, first slide plate is moved along first guide rail, and the top and bottom of first guide rail are respectively equipped with first Coil, the second coil, first slide plate are made up of permanent magnet, and the first coil, the axial direction of the second coil are longitudinal direction, described First coil, the second coil are connected with server, the server according to the first coil, the size of current of the second coil, The sense of current, possess current time, coil turn, calculate the position of first slide plate, first motor and the service Device is connected, and first slide plate is connected with the camera, and the camera is connected with server.

The remote health monitoring system based on intelligent bed of the invention, wherein, the pressure sensor includes the first hack lever, the Two hack levers, first guide rail, the second frame guide rail, first sliding block, the second frame sliding block, first connecting rod, the second frame connecting rod；

The lower end and the upper surface of the bed body of first hack lever are fixed, the length direction and level of first hack lever Direction is provided with 45 ° of angles, the top of first hack lever and the second hack lever hinge connection, the side edge of first hack lever Its length direction is provided with first guide rail, the second frame guide rail, and the first guide rail is provided with the first sliding block being moved along it, The second frame guide rail is provided with the second frame sliding block being moved along it, and the first sliding block connects with the first connecting rod link Connect, the second frame sliding block is connected with the second frame connecting rod link, the middle part of the first connecting rod and the second frame connecting rod is cut with scissors Chain is connected, the middle part hinge connection of the second frame connecting rod and second hack lever；Set between first hack lever, the second hack lever There is back-moving spring；

The top of second hack lever is provided with supporting plate, the supporting plate for recessed arc, the arc with it is described The top hinge connection of second hack lever, the middle part of the supporting plate is provided with counterweight；

The first sliding block is provided with stringing circle, and the second frame sliding block is made up of permanent magnet, the stringing circle and service Device connect, the server according to the size of current of the stringing circle, the sense of current, possess current time, coil turn, calculate The angle of bending between first hack lever, the second hack lever, and according to the length of the compression distance of the back-moving spring, the second hack lever Degree calculates the pressure that the second hack lever is subject to；

Resetting-mechanism is provided between first hack lever, the second hack lever, the resetting-mechanism includes the 3rd motor, the 3rd song Handle, the 3rd sliding block, the 3rd guide rail, the 3rd crank connecting link, the 3rd motor, the 3rd guide rail are fixed with first hack lever, institute State the 3rd guide rail to configure along the longitudinal direction, output shaft and the 3rd crank of the 3rd motor are fixed, the 3rd crank With the 3rd crank connecting link hinge connection, the 3rd crank connecting link and the 3rd sliding block hinge connection, the described 3rd slides Block is moved along the 3rd guide rail, the 3rd sliding block and the second hack lever hinge connection.

Remote health monitoring system difference from prior art of the invention based on intelligent bed is that the present invention is based on intelligence The remote health monitoring system of energy bed is plotted in same by collection of server sleep positions data, sleeping posture data In one two-dimensional coordinate figure, user can be facilitated by user's terminal inquiry sleeping posture, sleep positions, consequently facilitating user monitoring is certainly Oneself sleep quality, and beneficial to the sleep quality of doctor understanding patient.

The remote health monitoring system based on intelligent bed of the present invention is described further below in conjunction with the accompanying drawings.

Brief description of the drawings

Fig. 1 is the circuit connection diagram of the remote health monitoring system based on intelligent bed；

Fig. 2 is the structural representation of the support of the remote health monitoring system based on intelligent bed；

Fig. 3 is the structural representation of the pressure sensor of the remote health monitoring system based on intelligent bed.

Embodiment

As shown in figure 1, the remote health monitoring system of the invention based on intelligent bed includes

Bed body；

Sleep positions sensor, it is configured in the upper surface of the bed body, its be used to detecting user relative to bed body Sleep positions；

Sleeping posture sensor, it is configured in the upside of the bed body, and it is used for the sleeping posture for detecting user；

Server, it is connected with the sleep positions sensor, sleeping posture sensor, and it senses the sleep positions Device, the sleep positions data of sleeping posture sensor collection, sleeping posture data real-time rendering are in two-dimensional coordinate figure, and by institute Two-dimensional coordinate figure is stated to store to database；

User terminal, it is connected by server with the database.

The present invention is plotted in same two dimension seat by collection of server sleep positions data, sleeping posture data In marking on a map, user can be facilitated by user's terminal inquiry sleeping posture, sleep positions, consequently facilitating the sleep of user monitoring oneself Situation, and beneficial to the sleep quality of doctor understanding patient.

Preferably, the sleep positions sensor is made up of multiple pressure sensors, and the multiple pressure sensor is with net Trellis is configured in the upper surface of the bed body.

Preferably, the sleeping postures sensor is made up of multiple cameras, the multiple camera by support ring around It is fixed on the end of the bed body.

Preferably, the user terminal is connected by WIFI module with the server.

Preferably, the sleep positions sensor, sleeping posture sensor are connected by ZigBee module and the server Connect.

Preferably, the server is according to the sleep positions data judging sleep positions data coefficient A of user, server root According to the sleeping posture data judging sleeping posture data coefficient B of user, server according to the sleep positions data coefficient A, sleep Dormancy gesture data coefficient B, user's weight C, user's height D, age of user E, user body fat rate F, it is whole to user as follows Length of one's sleep G is recommended in end output；

The present invention can have through the above way according to sleeping posture and the sleep positions customized rational length of one's sleep of user Principle auxiliary user's sleep of the principle and ergonomics of land productivity terrestrial gravitation is imitated, so that extend the deep sleep of user Time, improve user's sleep quality.

Preferably, the server is according to the sleep positions data judging sleep positions data coefficient A of user, server root According to the sleeping posture data judging sleeping posture data coefficient B of user, server according to the sleep positions data coefficient A, sleep Dormancy gesture data coefficient B, user's weight C, user's height D, age of user E, user body fat rate F, it is whole to user as follows End output sleep quality scoring H；

The present invention judges the sleep quality scoring H of user by the sleep positions and sleeping posture of user, so as to Provide guiding user and adjust the guiding of sleeping posture and sleep positions to more preferable sleep quality.

Preferably, referring to Fig. 2, the support include supporting shell 101, the first motor 102, the first worm screw, first axle 103, First cam 104, the first bayonet lock 105, the 6th rod 106, the 7th rod 107, the 8th rod 108, the 9th rod 109, the tenth rod 110, 11 rods 111, the first slide plate 112, the first guide rail 113；

The bottom and the end of the bed body of the supporting shell 101 are fixed, the side of the supporting shell 101 and described first Motor 102 is fixed, and the output shaft of first motor 102 is fixed with configuring the first worm screw in the supporting shell 101, described First worm screw is engaged with first worm gear, and first worm gear is fixed with the first axle 103, the first axle and described the One cam 104 is fixed, and the end face of first cam 104 is surrounded with the track being engaged with its shape, first track Provided with the first bayonet lock 105 being matched therewith, the 6th rod 106, the end of the tenth rod 110 by the hinge connection of the first bayonet lock 105, 6th rod 106 and the hinge connection of the 7th rod 107, the 7th rod 107 and the hinge connection of the 11st rod 111, Tenth rod 110 and the hinge connection of the 8th rod 108, the 8th rod 108 and the hinge connection of the 9th rod 109, institute The middle part of the 7th rod 107 and the middle part of the 8th rod 108 are stated by second hinge hinge connection, the second hinge is pacified by bearing Mounted in the outside of the supporting shell 101, the 9th rod 109 and the 11st rod 111 are by third hinge hinge connection, and described Three hinges are arranged on first slide plate 112 by bearing, the 6th rod 106, the 7th rod 107, the 8th rod the 108, the 9th Rod 109, the tenth rod 110, the 11st rod 111 connect into 8-shaped；The configuration of the longitudinal direction of first guide rail 113 is in the supporting shell On 101, the middle part of the first guide rail 113 is connected by screw mechanism with the supporting shell 101, the end of the first guide rail 113 and institute The hinge connection of supporting shell 101 is stated, the screw mechanism includes the second leading screw, the second motor, the second guide rail, the second nut, described Second motor, the second guide rail are fixed with the supporting shell 101, the second guide rail landscape configuration, the output of second motor Axle is fixed with second leading screw, and second leading screw is connected with second nut thread, and second nut is along described Two guide rails are moved, and second nut and the hinge connection of the first guide rail 113, first slide plate 112 are led along described first Rail 113 is moved, and the top and bottom of first guide rail 113 are respectively equipped with first coil, the second coil, first slide plate 112 are made up of permanent magnet, and the first coil, the axial direction of the second coil are longitudinal direction, the first coil, the second coil and service Device is connected, the server according to the first coil, the size of current of the second coil, the sense of current, possess current time, line The number of turn is enclosed, the position of first slide plate 112 is calculated, first motor is connected with the server, first slide plate 112 It is connected with the camera, the camera is connected with server.

The present invention can drive the first bayonet lock 105 to be moved up and down by said structure using the first cam 104 of rotation, The up and down motion of the first slide plate 112 is driven by the transmission of the rod of 8-shaped, causes the upper-lower position of camera can adjust, and And, tilted with can enabling the first guide rail horizontal direction by screw mechanism, cause the first guide rail 113 to tilt, cause and take the photograph As head can be adjusted towards angle.

Preferably, referring to Fig. 3, the pressure sensor includes the first hack lever 201, the second hack lever 202, first guide rail 203rd, the second frame guide rail 204, first sliding block 205, the second frame sliding block 206, first connecting rod 207, the second frame connecting rod 208；

The lower end and the upper surface of the bed body of first hack lever 201 are fixed, the length direction of first hack lever 201 With horizontal direction provided with 45 ° of angles, the top of first hack lever 201 and the hinge connection of the second hack lever 202, described first The side of hack lever 201 is provided with first guide rail 203, the second frame guide rail 204, the first guide rail 203 along its length Provided with the first sliding block 205 being moved along it, the second frame guide rail 204 is provided with the second frame sliding block 206 being moved along it, institute First sliding block 205 and the hinge connection of first connecting rod 207 are stated, the second frame sliding block 206 is cut with scissors with the second frame connecting rod 208 Chain is connected, the middle part hinge connection of the first connecting rod 207 and the second frame connecting rod 208, the second frame connecting rod 208 with The middle part hinge connection of second hack lever 202；Back-moving spring is provided between first hack lever 201, the second hack lever 202；

The top of second hack lever 202 is provided with supporting plate, the supporting plate for recessed arc, the arc and institute The top hinge connection of the second hack lever 202 is stated, the middle part of the supporting plate is provided with counterweight；

The first sliding block 205 is provided with stringing circle, and the second frame sliding block is made up of permanent magnet, the stringing circle and clothes Be engaged in device connection, the server according to the size of current of the stringing circle, the sense of current, possess current time, coil turn, count The angle of the bending between the first hack lever 201, the second hack lever 202 is calculated, and according to the compression distance of the back-moving spring, second The pressure that the second hack lever of length computation 202 of hack lever 202 is subject to；

Between first hack lever 201, the second hack lever 202 be provided with resetting-mechanism, the resetting-mechanism include the 3rd motor, 3rd crank, the 3rd sliding block, the 3rd guide rail, the 3rd crank connecting link, the 3rd motor, the 3rd guide rail and first hack lever 201 are fixed, and the 3rd guide rail is configured along the longitudinal direction, and output shaft and the 3rd crank of the 3rd motor are fixed, institute The 3rd crank and the 3rd crank connecting link hinge connection, the 3rd crank connecting link and the 3rd sliding block hinge connection are stated, 3rd sliding block is moved along the 3rd guide rail, the 3rd sliding block and the hinge connection of the second hack lever 202.

The present invention is configured through the above way, can pass through first sliding block 205, the when the second hack lever 202 is bent The change of the distance between two frame sliding blocks 206, and make the magnetic induction line of stringing circle the second frame sliding block of cutting, so that stringing circle has Electric current, also, server can determine whether the pressure being subject to of the second hack lever 202 according to pre-stored data combination electric current, and collect and learn The sleep positions of user.

Embodiment described above is only that the preferred embodiment of the present invention is described, not to the model of the present invention Enclose and be defined, on the premise of design spirit of the present invention is not departed from, technical side of the those of ordinary skill in the art to the present invention In various modifications and improvement that case is made, the protection domain that claims of the present invention determination all should be fallen into.

Claims

1. a kind of remote health monitoring system based on intelligent bed, it is characterised in that：Including

Bed body；

Sleep positions sensor, it is configured in the upper surface of the bed body, and it is used for the sleep relative to bed body for detecting user Position；

Server, it is connected with the sleep positions sensor, sleeping posture sensor, its by the sleep positions sensor, The sleep positions data of sleeping posture sensor collection, sleeping posture data real-time rendering incite somebody to action described in two-dimensional coordinate figure Two-dimensional coordinate figure is stored to database；

User terminal, it is connected by server with the database.

2. the remote health monitoring system according to claim 1 based on intelligent bed, it is characterised in that：The sleep positions Sensor is made up of multiple pressure sensors, and the multiple pressure sensor is with latticed configuration in the upper surface of the bed body.

3. the remote health monitoring system according to claim 2 based on intelligent bed, it is characterised in that：The sleeps appearance Gesture sensor is made up of multiple cameras, and the multiple camera is fastened around the end of the bed body by support.

4. the remote health monitoring system according to claim 3 based on intelligent bed, it is characterised in that：The user terminal It is connected by WIFI module with the server.

5. the remote health monitoring system according to claim 4 based on intelligent bed, it is characterised in that：The sleep positions Sensor, sleeping posture sensor are connected by ZigBee module with the server.

6. the remote health monitoring system according to claim 5 based on intelligent bed, it is characterised in that：The server root According to the sleep positions data judging sleep positions data coefficient A of user, server is slept according to the sleeping posture data judging of user Dormancy gesture data coefficient B, server according to the sleep positions data coefficient A, sleeping posture data coefficient B, user's weight C, User's height D, age of user E, user body fat rate F, recommend length of one's sleep G to user terminal output as follows；

<mrow> <mi>G</mi> <mo>=</mo> <mn>4</mn> <mo>+</mo> <mi>A</mi> <mo>&times;</mo> <mi>B</mi> <mo>&times;</mo> <mfrac> <mrow> <msqrt> <mrow> <mo>|</mo> <mi>C</mi> <mo>-</mo> <mn>75</mn> <mo>|</mo> <mo>&times;</mo> <mo>|</mo> <mi>D</mi> <mo>-</mo> <mn>165</mn> <mo>|</mo> </mrow> </msqrt> <mo>+</mo> <munderover> <mi>&Sigma;</mi> <mrow> <mi>i</mi> <mo>=</mo> <mn>1</mn> </mrow> <mn>5</mn> </munderover> <mrow> <mo>(</mo> <mo>|</mo> <msub> <mi>E</mi> <mi>i</mi> </msub> <mo>-</mo> <mn>10</mn> <mo>|</mo> <mo>)</mo> </mrow> </mrow> <mrow> <mi>F</mi> <mo>!</mo> </mrow> </mfrac> </mrow>

User's weight C unit for kilogram, user's height D unit for centimetre, age of user E unit is one full year of life, user Body fat rate F unit is percent, and the unit for recommending length of one's sleep G is hour.

7. the remote health monitoring system according to claim 5 based on intelligent bed, it is characterised in that：The server root According to the sleep positions data judging sleep positions data coefficient A of user, server is slept according to the sleeping posture data judging of user Dormancy gesture data coefficient B, server according to the sleep positions data coefficient A, sleeping posture data coefficient B, user's weight C, User's height D, age of user E, user body fat rate F, as follows to user terminal output sleep quality scoring H；

<mrow> <mi>H</mi> <mo>=</mo> <mfrac> <mn>1</mn> <msup> <mi>A</mi> <mn>2</mn> </msup> </mfrac> <mo>&times;</mo> <mfrac> <mn>2</mn> <msup> <mi>B</mi> <mn>3</mn> </msup> </mfrac> <mo>&times;</mo> <mfrac> <mrow> <munderover> <mo>&Sigma;</mo> <mrow> <mi>j</mi> <mo>=</mo> <mn>1</mn> </mrow> <mrow> <mo>|</mo> <mi>D</mi> <mo>-</mo> <mn>170</mn> <mo>|</mo> </mrow> </munderover> <mrow> <mo>(</mo> <mi>F</mi> <mo>&times;</mo> <msub> <mi>C</mi> <mi>j</mi> </msub> <mo>)</mo> </mrow> </mrow> <msqrt> <mi>E</mi> </msqrt> </mfrac> </mrow>

User's weight C unit for kilogram, user's height D unit for centimetre, age of user E unit is one full year of life, user Body fat rate F unit is percent, and sleep quality scoring H unit is to divide.

8. the remote health monitoring system according to claim 7 based on intelligent bed, it is characterised in that：The support includes Supporting shell (101), the first motor (102), the first worm screw, first axle (103), the first cam (104), the first bayonet lock (105), Six rods (106), the 7th rod (107), the 8th rod (108), the 9th rod (109), the tenth rod (110), the 11st rod (111), first Slide plate (112), the first guide rail (113)；

The bottom and the end of the bed body of the supporting shell (101) are fixed, the side and described first of the supporting shell (101) Motor (102) is fixed, and the output shaft of first motor (102) is consolidated with the first worm screw configured in the supporting shell (101) Fixed, first worm screw engages with first worm gear, and first worm gear is fixed with the first axle (103), and described first Axle is fixed with first cam (104), and the end face of first cam (104) is surrounded with the track being engaged with its shape, Provided with the first bayonet lock (105) being matched therewith in first track, the 6th rod (106), the end of the tenth rod (110) pass through First bayonet lock (105) hinge connection, the 6th rod (106) and the 7th rod (107) hinge connection, the 7th rod (107) with the 11st rod (111) hinge connection, the tenth rod (110) and the 8th rod (108) hinge connection, institute State in the 8th rod (108) and the 9th rod (109) hinge connection, the middle part and the 8th rod (108) of the 7th rod (107) Portion is by second hinge hinge connection, and the second hinge is arranged on the outside of the supporting shell (101) by bearing, and described the Nine rods (109) and the 11st rod (111) are by third hinge hinge connection, and the third hinge is arranged on described the by bearing On one slide plate (112), the 6th rod (106), the 7th rod (107), the 8th rod (108), the 9th rod (109), the tenth rod (110), the 11st rod (111) connects into 8-shaped；The configuration of first guide rail (113) longitudinal direction is in the supporting shell (101) On, the middle part of the first guide rail (113) is connected by screw mechanism with the supporting shell (101), the end of the first guide rail (113) with Supporting shell (101) hinge connection, the screw mechanism includes the second leading screw, the second motor, the second guide rail, the second nut, Second motor, the second guide rail are fixed with the supporting shell (101), the second guide rail landscape configuration, second motor Output shaft fixed with second leading screw, second leading screw is connected with second nut thread, the second nut edge The second guide rail movement, second nut and the first guide rail (113) hinge connection, the first slide plate (112) edge First guide rail (113) is mobile, and the top and bottom of first guide rail (113) are respectively equipped with first coil, the second coil, First slide plate (112) is made up of permanent magnet, the first coil, the second coil axial direction for longitudinal direction, the first coil, Second coil is connected with server, the server according to the first coil, the size of current of the second coil, the sense of current, Possess current time, coil turn, calculate the position of first slide plate (112), first motor connects with the server Connect, first slide plate (112) is connected with the camera, and the camera is connected with server.

9. the remote health monitoring system according to claim 8 based on intelligent bed, it is characterised in that：The pressure sensing Device includes the first hack lever (201), the second hack lever (202), first guide rail (203), the second frame guide rail (204), first sliding block (205), the second frame sliding block (206), first connecting rod (207), the second frame connecting rod (208)；

The lower end and the upper surface of the bed body of first hack lever (201) are fixed, the length direction of first hack lever (201) It is described with horizontal direction provided with 45 ° of angles, the top of first hack lever (201) and the second hack lever (202) hinge connection The side of first hack lever (201) is provided with first guide rail (203), the second frame guide rail (204), the first along its length Guide rail (203) is provided with the first sliding block (205) being moved along it, and the second frame guide rail (204) is provided with what is be moved along it Second frame sliding block (206), the first sliding block (205) and first connecting rod (207) hinge connection, the second frame sliding block (206) with the second frame connecting rod (208) hinge connection, the first connecting rod (207) and the second frame connecting rod (208) Middle part hinge connection, the middle part hinge connection of the second frame connecting rod (208) and second hack lever (202)；The first Back-moving spring is provided between bar (201), the second hack lever (202)；

The top of second hack lever (202) is provided with supporting plate, the supporting plate for recessed arc, the arc with it is described The top hinge connection of second hack lever (202), the middle part of the supporting plate is provided with counterweight；

The first sliding block (205) is provided with stringing circle, and the second frame sliding block is made up of permanent magnet, the stringing circle and service Device connect, the server according to the size of current of the stringing circle, the sense of current, possess current time, coil turn, calculate The angle of bending between first hack lever (201), the second hack lever (202), and according to the compression distance of the back-moving spring, The pressure that the hack lever of length computation second (202) of two hack levers (202) is subject to；

Between first hack lever (201), the second hack lever (202) be provided with resetting-mechanism, the resetting-mechanism include the 3rd motor, 3rd crank, the 3rd sliding block, the 3rd guide rail, the 3rd crank connecting link, the 3rd motor, the 3rd guide rail and first hack lever (201) fixed, the 3rd guide rail is configured along the longitudinal direction, and output shaft and the 3rd crank of the 3rd motor are fixed, 3rd crank and the 3rd crank connecting link hinge connection, the 3rd crank connecting link connect with the 3rd sliding block hinge Connect, the 3rd sliding block is moved along the 3rd guide rail, the 3rd sliding block and the second hack lever (202) hinge connection.