CN116687439A - Multi-site intelligent detection bed - Google Patents

Abstract

The invention discloses a multi-site intelligent detection bed, which comprises: the device comprises a frame body mechanism, a supporting frame arranged on the frame body mechanism, a plurality of electric telescopic rods arranged on the upper surface of the supporting frame, and a bed body arranged at the telescopic ends of the electric telescopic rods, wherein the bed body is used for placing a patient; the multi-point sensing probe assembly is arranged on the frame body mechanism and is used for multi-point detection of a patient; the multi-position sensing probe assembly comprises an induction membrane, wherein the induction membrane is arranged in a through groove formed in the bottom of the bed body, and a sensing probe structure arranged on the frame body mechanism. The invention can measure the multi-point sensing probe, improves the detection efficiency, improves the accuracy and normalization of the detection result, and the running track of the probe component is a circle, the size of the circle is adjustable, namely the multi-point detection can be carried out when the etiology is searched, and meanwhile, the size of the circle is adjustable, namely the circle is gradually contracted from large-scale detection to small-scale detection until the etiology is searched.

Description

Multi-site intelligent detection bed

Technical Field

The invention relates to the technical field of detection beds, in particular to a multi-site intelligent detection bed.

Background

Artificial intelligence techniques have been widely used in various fields, with increasing association with the medical field, mainly in conjunction with medical imaging (CT, X-ray, MRI, PET). Blood oxygen monitoring, thermal infrared imaging, ultrasonic wave, etc. Wherein, the magnetic imaging and ultrasonic wave of organs have been widely used in the examination and diagnosis of internal organs such as liver, heart, blood vessel, thyroid, breast, muscle and the like and superficial structures because of the advantages of no pain, no wound, high sensitivity of detecting the heart electrical activity, accuracy, no ionizing radiation, simplicity, rapidness, real-time imaging, good repeatability and the like;

however, the ultrasonic examination has a certain subjective difference, the intelligent ultrasonic image can make up for the deficiency of manpower and human errors, and can be used as a patient which can not be easily turned over, for example, when a large-area burn patient is detected, and the difficulty is that if the detection is combined with a bed, a series of detection processes can be completed only by lying the patient, so that the burden of the patient and medical workers can be greatly reduced;

meanwhile, ultrasonic examination has scope, and the etiology can be found only by multi-point position and multi-time searching, so that on the whole, the multi-point intelligent detection bed is proposed.

Disclosure of Invention

The invention aims to provide a multi-point intelligent detection bed, which can be used for measuring a multi-point sensing probe, improves the detection efficiency, and improves the accuracy and normalization of a detection result, wherein the running track of a probe component is a circle, the size of the circle is adjustable, namely, the multi-point detection can be realized during the etiology searching, and meanwhile, the size of the circle is adjustable, namely, the circle gradually contracts from large-range detection to small-range detection until the etiology is detected.

In order to achieve the above purpose, the present invention provides the following technical solutions: a multi-site intelligent detection bed comprising: the device comprises a frame body mechanism, a supporting frame arranged on the frame body mechanism, a plurality of electric telescopic rods arranged on the upper surface of the supporting frame, and a bed body arranged at the telescopic ends of the electric telescopic rods, wherein the bed body is used for placing a patient; the multi-point sensing probe assembly is arranged on the frame body mechanism and is used for multi-point detection of a patient; the multi-position sensing probe assembly comprises a sensing film, the sensing film is arranged inside a through groove formed in the bottom of the bed body, and a sensing probe structure arranged on the frame body mechanism, when the electric telescopic rod is retracted, the sensing probe structure is in contact with the sensing film, the sensing probe structure can carry out body surface detection on a patient, and when the electric telescopic rod is extended, the sensing probe structure is separated from the sensing film, so that the sensing probe structure can be conveniently moved to the next detection position.

Preferably, the frame mechanism comprises a bottom frame and a supporting frame arranged on the bottom frame, and the sensing probe structure is arranged on the opposite surface of the supporting frame; the support frame is fixed on the upper surface of the sliding block; the hydraulic cylinder is arranged at one end of the underframe, the output ends of the hydraulic cylinders are connected with the supporting frame through connecting blocks, and the hydraulic cylinders can provide power for movement of the supporting frame.

Preferably, the sensing probe structure comprises a connecting rod transmission assembly, a probe assembly and an engagement transmission assembly, wherein the probe assembly and the engagement transmission assembly are respectively arranged at two ends of the connecting rod transmission assembly, and the engagement transmission assembly is used for adjusting a detection site of the probe assembly; the connecting rod transmission assembly comprises a transmission frame, a transmission rod fixed on the opposite face of the transmission frame, a movable transmission block sleeved on the transmission rod, a limit groove is further formed in the transmission block, a transmission strip capable of moving in a telescopic mode is arranged in the limit groove, and the probe assembly and the meshing transmission assembly are arranged at two ends of the transmission strip respectively.

Preferably, the probe assembly comprises an L-shaped frame, wherein the L-shaped frame is fixed at the end part of a transmission bar, a mounting sleeve is arranged at the bottom of the horizontal section of the transmission bar, the probe assembly further comprises a movable rod which is arranged in the mounting sleeve and can move in a telescopic manner, the top end of the movable rod passes through a through hole formed in the horizontal section of the L-shaped frame and is fixed with a sensor probe, and the sensor probe can detect when the sensor probe contacts with an induction film; the movable rod is characterized by further comprising a mounting ring arranged on the movable rod, and a second spring is further connected to the outer wall of the movable rod between the mounting ring and the L-shaped frame.

Preferably, the meshing transmission assembly comprises a supporting plate fixed on the side wall of the transmission frame and a rotatable transmission shaft arranged on the supporting plate, and transmission teeth are fixed at the bottom of the transmission shaft; the motor is arranged at the bottom of the transmission frame, and driving teeth are arranged at the output end of the motor and meshed with the transmission teeth; the top end of the transmission shaft is also provided with a screw transmission assembly, and the end part of the transmission bar, which is far away from the probe assembly, is connected with the screw transmission assembly.

Preferably, the screw transmission assembly comprises a mounting plate fixed at the top of the transmission shaft and a mounting frame fixed on the upper surface of the mounting plate, wherein a rotatable screw body is arranged in the mounting frame, and the screw body is connected with a screw sleeve through threads; the detection range of the sensing probe structure is adjusted by adjusting the position of the screw sleeve on the screw body.

Preferably, a first sensing detection assembly is further arranged on one side of the bed body, and the first sensing detection assembly comprises a first transmission mechanism and a plurality of first sensors arranged on the first transmission mechanism; the first transmission mechanism comprises a groove, the groove is formed in the inner bottom of the bed body, and a plurality of movable mounting blocks which are arranged in the groove, and the first sensor is arranged on the mounting blocks; the mounting blocks at the head end and the side walls of the grooves are connected through first springs; the device also comprises a connecting pipe arranged on the side wall of the bed body, one end of the connecting pipe is connected with the external air pipe, and the other end of the connecting pipe penetrates through the mounting groove formed on the side wall of the bed body and is communicated with the cavity between the first mounting block and the groove; and the glass cover is arranged on the groove.

Preferably, a second sensing detection component is further arranged on the other side of the bed body, and the second sensing detection component and the first sensing detection component are distributed on two sides of the sensing film; the second sensing detection assembly comprises a plurality of second sensors and a second transmission mechanism, the second transmission mechanism and the first transmission mechanism are identical in structure, and the second sensors are arranged on the upper surface of a mounting block where the second transmission mechanism is located.

Preferably, a third sensing detection component is further arranged in the bed body and used for detecting blood oxygen and pulse rate of a patient; the third sensing detection assembly comprises binding bands arranged on opposite sides of the bed, and the two binding bands are used for limiting a patient; the elastic rope is arranged on one of the binding belts, and the device further comprises a monitoring bracelet arranged on the elastic rope, and a pulse blood oxygen saturation sensor is arranged on the monitoring bracelet.

Preferably, the contact surface of the electric telescopic rod and the bed body is also provided with a gravity sensor.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, through the coordination of the electric telescopic rod and the sensing probe structure, the multi-point and range detection process is realized, when the ultrasonic probe is used for detecting, the multi-point sensing probe can be used for measuring, the detection efficiency is improved, meanwhile, the accuracy and normalization of the detection result are improved, the running track of the probe assembly is a circle, the size of the circle is adjustable, namely, when the etiology is searched, the multi-point detection can be realized, and meanwhile, the size of the circle is adjustable, namely, the circle gradually contracts from large-range detection to small-range detection until the etiology is searched.

2. As another implementation mode of the invention, the position of the first sensor can be adjusted by moving the position of the mounting block, so that the multi-position detection process of a patient is realized at different positions, the first sensor is preferably a piezoelectric film sensor, the piezoelectric film sensor can send sensing information to the singlechip, the singlechip is in signal connection with the display terminal, the curve graph of each period of human sleep can be displayed in the display terminal, and the sleep curve graph of each period of human sleep can be clearly seen.

3. A third sensing detection component is arranged in the bed body and is used for detecting blood oxygen and pulse rate of a patient; the third sensing detection assembly comprises binding bands arranged on opposite sides of the bed, and the two binding bands are used for limiting a patient; the elastic rope is arranged on one of the binding belts, and the device further comprises a monitoring bracelet arranged on the elastic rope, and a pulse blood oxygen saturation sensor is arranged on the monitoring bracelet.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic perspective view of the structure of FIG. 1;

FIG. 3 is a schematic side view of the structure of FIG. 1;

FIG. 4 is a schematic elevational view of the structure of FIG. 1;

FIG. 5 is a schematic view of the disassembled structure of FIG. 1;

FIG. 6 is a schematic view of a partial enlarged structure of FIG. 5;

FIG. 7 is a schematic view of a partial enlarged structure of FIG. 5;

fig. 8 is a schematic structural diagram of embodiment 5.

In the figure: 1. a chassis; 2. a slide rail; 3. a hydraulic cylinder; 4. a bed body; 5. a connecting pipe; 8. an induction film; 9. a transmission frame; 11. a transmission rod; 12. a transmission bar; 13. a connecting piece; 14. a screw sleeve; 15. a drive tooth; 16. a transmission block; 17. a mounting plate; 18. a mounting frame; 20. a motor; 21. a drive tooth; 22. a support frame; 23. a slide block; 24. a strap; 25. monitoring a bracelet; 26. an elastic rope; 28. a first sensor; 29. a first spring; 30. a groove; 31. a second sensor; 32. a mounting sleeve; 33. an L-shaped frame; 34. a second spring; 35. a mounting ring; 36. a sensor probe; 37. an electric telescopic rod; 38. a support plate; 39. a screw body; 40. a mounting block; 41. a support frame; 42. a movable rod.

Detailed Description

In the description of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

Referring to fig. 1 to 8, the present invention preferably provides the following technical solutions: a multi-site intelligent detection bed comprising: the device comprises a frame body mechanism, a support frame 22 arranged on the frame body mechanism, a plurality of electric telescopic rods 37 arranged on the upper surface of the support frame 22, and a bed body 4 arranged at the telescopic ends of the electric telescopic rods 37, wherein the bed body 4 is used for placing a patient; the multi-point sensing probe assembly is arranged on the frame body mechanism and is used for multi-point detection of a patient; the multi-site sensing probe assembly comprises a sensing membrane 8, the sensing membrane 8 is arranged inside a through groove formed in the bottom of the bed body 4, and a sensing probe structure arranged on the frame body mechanism, when the electric telescopic rod 37 is retracted and the sensing probe structure is contacted with the sensing membrane 8, the sensing probe structure can carry out body surface detection on a patient, and when the electric telescopic rod 37 is extended, the sensing probe structure is separated from the sensing membrane 8, so that the sensing probe structure can be conveniently moved to the next detection site.

In this embodiment, since the bed body 4 is disposed at the telescopic ends of the plurality of electric telescopic rods 37, the height of the bed body 4 is adjusted by adjusting the telescopic length of the electric telescopic rods 37, and the multi-position sensing probe assembly disposed on the frame mechanism comprises the sensing film 8 disposed at the bottom of the bed body 4 and the sensing probe structure disposed on the frame mechanism, as shown in fig. 1 and 2, and the multi-position and range detection process is realized by the cooperation of the electric telescopic rods 37 and the sensing probe structure;

the sensing probe structure is an ultrasonic probe, multiple ultrasonic detection can be carried out on different parts of a human body, an automatic standard detection process is achieved, specifically, a patient who falls asleep is placed in the bed body 4, the patient is enabled to be in contact with the sensing membrane 8, then the electric telescopic rod 37 is driven to retract downwards, at the moment, the sensing probe structure can be in contact with the patient where the sensing membrane 8 is located, ultrasonic measurement is carried out once, the supporting plate 38 is controlled by the singlechip to extend upwards, the sensing probe structure is separated from the sensing membrane 8, the sensing probe structure is enabled to move to the next position, multiple groups of ultrasonic measurement data are obtained repeatedly, and the detection efficiency is improved through measurement of the multi-position sensing probe, and meanwhile accuracy and normalization of detection results are improved.

Further, the frame mechanism comprises a bottom frame 1 and a supporting frame 41 arranged on the bottom frame 1, and the sensing probe structure is arranged on the opposite surface of the supporting frame 41; the device further comprises a sliding rail 2 fixed on the supporting frame 41, a movable sliding block 23 is arranged in the sliding rail 2, and the supporting frame 22 is fixed on the upper surface of the sliding block 23; the hydraulic cylinder device further comprises a plurality of hydraulic cylinders 3 arranged at one end of the underframe 1, the output ends of the hydraulic cylinders 3 are connected with the supporting frame 22 through connecting blocks, and the hydraulic cylinders 3 can provide power for movement of the supporting frame 22.

At this point, as shown in fig. 3, since the supporting frame 22 is fixed on the sliding block 23, and the supporting frame 22 is connected with the telescopic end of the hydraulic cylinder 3 through the connecting block, the bed body 4 is in a cradle state by driving the telescopic movement of the hydraulic cylinder 3, and when the baby is a sleeping comfort level of the baby is improved.

Further, the sensing probe structure comprises a connecting rod transmission assembly, a probe assembly and an engagement transmission assembly, the probe assembly and the engagement transmission assembly are respectively arranged at two ends of the connecting rod transmission assembly, the sensor probe can detect, and the engagement transmission assembly is used for adjusting detection sites of the probe assembly; the connecting rod transmission assembly comprises a transmission frame 9, a transmission rod 11 fixed on the opposite surface of the transmission frame 9, a movable transmission block 16 sleeved on the transmission rod 11, a limit groove is further formed in the transmission block 16, a transmission strip 12 capable of moving in a telescopic mode is arranged in the limit groove, and the probe assembly and the meshing transmission assembly are respectively arranged at two ends of the transmission strip 12.

The probe assembly and the meshing transmission assembly are respectively arranged at two ends of the transmission strip 12, as shown in fig. 1 and 6, and the meshing transmission assembly can adjust the detection sites of the probe assembly, so that the detection sites of the probe assembly can be changed by driving the meshing transmission assembly, and the running track of the probe assembly can be a circle due to the structural characteristics of the meshing transmission assembly, the size of the circle is adjustable, namely, when the etiology is searched, the size of the circle can be detected at multiple points, and meanwhile, the size of the circle can be adjusted, namely, the circle gradually contracts to a small range from large-range detection until the etiology is searched.

Further, the probe assembly comprises an L-shaped frame 33, the L-shaped frame 33 is fixed at the end part of the transmission bar 12, the mounting sleeve 32 is arranged at the bottom of the horizontal section of the transmission bar 12, the probe assembly further comprises a movable rod 42 which is arranged in the mounting sleeve 32 and can move in a telescopic manner, the top end of the movable rod 42 passes through a through hole formed in the horizontal section of the L-shaped frame 33 and is fixedly provided with a sensor probe 36, and when the sensor probe 36 is in contact with the sensing film 8, the sensor probe 36 can detect; and the movable rod comprises a mounting ring 35 arranged on the movable rod 42, and a second spring 34 is connected to the outer wall of the movable rod 42 between the mounting ring 35 and the L-shaped frame 33.

Through the sensor probe 36, namely preferably an ultrasonic probe, which is arranged, the ultrasonic detection can be carried out on different parts of the human body for multiple times, as shown in fig. 6, when the sensor probe 36 is in contact with the sensing film 8, the sensor probe 36 can complete one ultrasonic detection, and the ultrasonic detection is gradually retracted to a small range from a large-range multipoint detection by taking the circle center as the center, so that the etiology can be conveniently and rapidly searched.

Further, the meshing transmission assembly comprises a supporting plate 38 fixed on the side wall of the transmission frame 9 and a rotatable transmission shaft arranged on the supporting plate 38, and transmission teeth 15 are fixed at the bottom of the transmission shaft; the motor 20 is arranged at the bottom of the transmission frame 9, and the driving teeth 21 are arranged at the output end of the motor 20, and the driving teeth 21 are meshed with the transmission teeth 15; the top end of the transmission shaft is also provided with a screw transmission assembly, and the end of the transmission bar 12 far away from the probe assembly is connected with the screw transmission assembly.

Since the driving teeth 21 are meshed with the driving teeth 15, and the driving teeth 21 are disposed at the output end of the motor 20, the driving teeth 15 are fixed with the transmission shaft, as shown in fig. 2 and 7, when the motor 20 is operated, the driving teeth 15 can be rotated, so that the screw transmission assembly is rotated, the sensor probe 36 is further moved step by the transmission strip 12 so as to be adjusted to different detection sites, and when the driving teeth 15 rotate for one circle, the site movement track of the sensor probe 36 is a circle.

Example 2

As another embodiment of the invention, the screw transmission assembly comprises a mounting plate 17 fixed on the top of the transmission shaft and a mounting frame 18 fixed on the upper surface of the mounting plate 17, wherein a rotatable screw body 39 is arranged in the mounting frame 18, and the screw body 39 is connected with a screw sleeve 14 in a threaded manner; the detecting device further comprises a connecting piece 13 which is rotationally connected with the screw sleeve 14 through a pin shaft on the screw sleeve 14, the connecting piece 13 is connected with the transmission bar 12, and the detecting range of the sensing probe structure is adjusted by adjusting the position of the screw sleeve 14 on the screw body 39.

Since the screw body 39 is in threaded connection with the screw sleeve 14, the screw sleeve 14 is connected with the connecting piece 13 through the pin shaft, the connecting piece 13 is connected with the transmission bar 12, when the meshing driving assembly drives the transmission bar 12 to deflect, the detection position of the sensor probe 36 can be adjusted, and the movement range of the sensor probe 36 can be adjusted by adjusting the position of the screw sleeve 14 on the screw body 39, particularly in the state of fig. 7, the screw sleeve 14 is arranged on the rightmost side of the screw body 39, the radius detected by the sensor probe 36 at multiple positions is the largest, namely the detected position is loose, but the range is the largest, and when the screw sleeve 14 is moved leftmost, the detection radius is gradually reduced, and then the detection position of the sensor probe 36 is further adjusted, so that different detection requirements can be adapted.

Example 3

As other embodiments of the present invention, a first sensing detection assembly is further disposed on one side of the bed body 4, and the first sensing detection assembly includes a first transmission mechanism, and a plurality of first sensors 28 disposed on the first transmission mechanism; the first transmission mechanism comprises a groove 30, the groove 30 is formed in the inner bottom of the bed body 4, a plurality of movable mounting blocks 40 are arranged in the groove 30, and the first sensor 28 is arranged on the mounting blocks 40; the mounting blocks 40 at the head end and the side walls of the grooves 30 between the adjacent mounting blocks 40 are connected through first springs 29; the bed also comprises a connecting pipe 5 arranged on the side wall of the bed body 4, one end of the connecting pipe 5 is connected with an external air pipe, and the other end of the connecting pipe passes through a mounting groove formed on the side wall of the bed body 4 and is communicated with a cavity between the first mounting block 40 and the groove 30; and also includes a glass cover disposed over the recess 30.

As shown in fig. 8, through the plurality of mounting blocks 40 arranged in the groove 30, the mounting blocks 40 at the head end between the adjacent mounting blocks 40 are connected with the side wall of the groove 30 through the first springs 29, and the first sensor 28 is arranged on the mounting blocks 40, so that the position of the first sensor 28 can be adjusted by moving the positions of the mounting blocks 40, and then the multi-position detection process of a patient is realized at different positions, wherein the moving power of the mounting blocks 40 can be provided by air pressure, and particularly as shown in fig. 1, because one end of the connecting pipe 5 is connected with an external air pipe, and the other end of the connecting pipe passes through the mounting groove formed in the side wall of the bed body 4 and is communicated with the cavity between the first mounting block 40 and the groove 30, when the interior of the groove 30 is inflated, the first mounting block 40 is pushed to move by the air pressure, and the plurality of mounting blocks 40 can be moved by the action of the first springs 29, so that the position of the first sensor 28 is adjusted;

the first sensor 28 is preferably a piezoelectric film sensor, the piezoelectric film sensor can send sensing information to a single chip microcomputer, the single chip microcomputer is in signal connection with a display terminal, graphs of sleeping time periods of a human body can be displayed in the display terminal, the sleeping graphs of the time periods can be clearly seen, and the sleep intelligent detection bed 202120189491.4 is specifically referred to.

Example 4

As other embodiments of the present invention, a second sensing detection component is further disposed on the other side of the bed body 4, and the second sensing detection component and the first sensing detection component are distributed on two sides of the sensing film 8; the second sensing detection assembly comprises a plurality of second sensors 31 and a second transmission mechanism, the second transmission mechanism is identical to the first transmission mechanism in structure, and the second sensors 31 are arranged on the upper surface of a mounting block 40 where the second transmission mechanism is located.

Because the second transmission mechanism has the same structure as the first transmission mechanism, the position of the second sensor 31 can be adjusted through air pressure, and then the multi-position detection of a patient is realized;

the second sensor 31 is preferably here: a body temperature sensor senses a temperature change in the leg or underfoot of the patient. Can also be an infrared sensor for sensing the limb movement state of the patient and is suitable for the patient with lower limb paralysis.

Example 5

As other embodiments of the present invention, a third sensing detection component is further disposed inside the bed body 4, for detecting blood oxygen and pulse rate of the patient; the third sensing assembly comprises straps 24 arranged on opposite sides of the bed body 4, and the two straps 24 are used for limiting the patient; and elastic cord 26 provided on one of the straps 24, and further comprises a monitoring bracelet 25 provided on elastic cord 26, and pulse oximetry sensor is provided on monitoring bracelet 25.

Through the two binding belts 24, the patient can be protected, and in addition, the inner wall of the bed body 4 is preferably made of elastic rubber, so that the patient is protected and the patient is prevented from being injured due to collision;

in addition, when the monitoring bracelet 25 is sleeved on the arm of an infant, the pulse rate and the blood oxygen of a patient can be detected by the pulse blood oxygen saturation sensor arranged on the monitoring bracelet 25, and signals are transmitted to the singlechip to obtain blood oxygen and pulse data of the patient.

Example 6

As another embodiment of the present invention, a gravity sensor is further provided on the contact surface between the electric telescopic rod 37 and the bed body 4.

As shown in fig. 4, by the gravity sensor, when the patient is placed in the bed body 4, the gravity sensor can be driven, and the gravity sensor transmits information at the same time, so that the weight information of the patient is obtained.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The detachable mounting mode is various, for example, the detachable mounting mode can be matched with the buckle through plugging, for example, the detachable mounting mode can be realized through a bolt connection mode, and the like.

The conception, specific structure, and technical effects produced by the present invention are clearly and completely described above in connection with the embodiments and the drawings so as to fully understand the objects, features, and effects of the present invention. It is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present invention based on the embodiments of the present invention. In addition, all coupling/connection relationships mentioned herein do not refer to direct connection of the components, but rather, refer to the fact that a more optimal coupling structure may be formed by adding or subtracting coupling aids depending on the particular implementation.

The foregoing embodiments are provided for further explanation of the present invention and are not to be construed as limiting the scope of the present invention, and some insubstantial modifications and variations of the present invention, which are within the scope of the invention, will be suggested to those skilled in the art in light of the foregoing teachings.

Claims (10)

1. Multi-site intelligent detection bed, its characterized in that includes:

the device comprises a frame body mechanism, a support frame (22) arranged on the frame body mechanism, a plurality of electric telescopic rods (37) arranged on the upper surface of the support frame (22), and a bed body (4) arranged at the telescopic ends of the electric telescopic rods (37), wherein the bed body (4) is used for placing a patient;

the multi-point sensing probe assembly is arranged on the frame body mechanism and is used for multi-point detection of a patient;

the multi-position sensing probe assembly comprises a sensing film (8), the sensing film (8) is arranged inside a through groove formed in the bottom of the bed body (4), and the sensing probe structure is arranged on the frame body mechanism, when the electric telescopic rod (37) is retracted, the sensing probe structure can carry out body surface detection on a patient when the sensing probe structure is contacted with the sensing film (8), and when the electric telescopic rod (37) is extended, the sensing probe structure is separated from the sensing film (8), so that the sensing probe structure can be conveniently moved to the next detection position.

2. The multi-site intelligent detection bed of claim 1, wherein:

the frame body mechanism comprises a bottom frame (1) and a supporting frame (41) arranged on the bottom frame (1), and the sensing probe structure is arranged on the opposite surface of the supporting frame (41); the device further comprises a sliding rail (2) fixed on the supporting frame (41), a movable sliding block (23) is arranged in the sliding rail (2), and the supporting frame (22) is fixed on the upper surface of the sliding block (23); the hydraulic lifting device is characterized by further comprising a plurality of hydraulic cylinders (3) arranged at one end of the underframe (1), wherein the output ends of the hydraulic cylinders (3) are connected with the supporting frame (22) through connecting blocks, and the hydraulic cylinders (3) can provide power for the movement of the supporting frame (22).

3. The multi-site intelligent detection bed of claim 1, wherein:

the sensing probe structure comprises a connecting rod transmission assembly, a probe assembly and a meshing transmission assembly, wherein the probe assembly and the meshing transmission assembly are respectively arranged at two ends of the connecting rod transmission assembly, and the meshing transmission assembly is used for adjusting detection sites of the probe assembly;

the connecting rod transmission assembly comprises a transmission frame (9), a transmission rod (11) fixed on the opposite surface of the transmission frame (9), a movable transmission block (16) sleeved on the transmission rod (11), a limit groove is further formed in the transmission block (16), a telescopic transmission strip (12) is arranged in the limit groove, and the probe assembly and the meshing transmission assembly are respectively arranged at two ends of the transmission strip (12).

4. A multi-site intelligent detection bed according to claim 3, wherein:

the probe assembly comprises an L-shaped frame (33), wherein the L-shaped frame (33) is fixed at the end part of a transmission bar (12), a mounting sleeve (32) is arranged at the bottom of the horizontal section of the transmission bar (12), the probe assembly further comprises a movable rod (42) which is arranged in the mounting sleeve (32) and can move in a telescopic manner, the top end of the movable rod (42) penetrates through a through hole formed in the horizontal section of the L-shaped frame (33) and is fixedly provided with a sensor probe (36), and when the sensor probe (36) is in contact with an induction membrane (8), the sensor probe (36) can detect;

the movable rod is characterized by further comprising a mounting ring (35) arranged on the movable rod (42), and a second spring (34) is further connected to the outer wall of the movable rod (42) between the mounting ring (35) and the L-shaped frame (33).

5. A multi-site intelligent detection bed according to claim 3, wherein:

the meshing transmission assembly comprises a supporting plate (38) fixed on the side wall of the transmission frame (9), and a rotatable transmission shaft arranged on the supporting plate (38), and transmission teeth (15) are fixed at the bottom of the transmission shaft;

the motor (20) is arranged at the bottom of the transmission frame (9), and driving teeth (21) are arranged at the output end of the motor (20), and the driving teeth (21) are meshed with the transmission teeth (15);

the top end of the transmission shaft is also provided with a screw transmission assembly, and the end part of the transmission strip (12) far away from the probe assembly is connected with the screw transmission assembly.

6. The multi-site intelligent detection bed of claim 5, wherein:

the screw transmission assembly comprises a mounting plate (17) fixed at the top of the transmission shaft and a mounting frame (18) fixed on the upper surface of the mounting plate (17), a rotatable screw body (39) is arranged in the mounting frame (18), and a threaded sleeve (14) is connected to the screw body (39) in a threaded manner;

the detecting device further comprises a connecting piece (13) rotationally connected with the screw sleeve (14) through a pin shaft on the screw sleeve (14), the connecting piece (13) is connected with the transmission bar (12), and the detecting range of the sensing probe structure is adjusted by adjusting the position of the screw sleeve (14) on the screw body (39).

7. The multi-site intelligent detection bed of claim 1, wherein:

a first sensing detection assembly is further arranged on one side of the bed body (4), and comprises a first transmission mechanism and a plurality of first sensors (28) arranged on the first transmission mechanism;

the first transmission mechanism comprises a groove (30), the groove (30) is formed in the inner bottom of the bed body (4), and a plurality of movable mounting blocks (40) which are arranged in the groove (30), and the first sensor (28) is arranged on the mounting blocks (40);

the installation blocks (40) between adjacent installation blocks (40) and the side walls of the first position end and the groove (30) are connected through a first spring (29);

the bed also comprises a connecting pipe (5) arranged on the side wall of the bed body (4), one end of the connecting pipe (5) is connected with an external air pipe, and the other end of the connecting pipe passes through a mounting groove formed on the side wall of the bed body (4) and is communicated with a cavity between the first mounting block (40) and the groove (30); and a glass cover arranged on the groove (30).

8. The multi-site intelligent detection bed of claim 7, wherein:

the other side of the bed body (4) is also provided with a second sensing detection component, and the second sensing detection component and the first sensing detection component are distributed on two sides of the sensing film (8);

the second sensing detection assembly comprises a plurality of second sensors (31) and a second transmission mechanism, the second transmission mechanism and the first transmission mechanism are identical in structure, and the second sensors (31) are arranged on the upper surface of a mounting block (40) where the second transmission mechanism is located.

9. The multi-site intelligent detection bed of claim 1, wherein:

a third sensing detection component is further arranged in the bed body (4) and used for detecting blood oxygen and pulse rate of a patient;

the third sensing detection assembly comprises binding bands (24) arranged on opposite surfaces of the bed body (4), and the two binding bands (24) are used for limiting a patient;

the elastic rope (26) is arranged on one of the binding bands (24), and further comprises a monitoring bracelet (25) arranged on the elastic rope (26), and a pulse blood oxygen saturation sensor is arranged on the monitoring bracelet (25).

10. The multi-site intelligent detection bed of claim 1, wherein:

the contact surface of the electric telescopic rod (37) and the bed body (4) is also provided with a gravity sensor.