CN117338537A - Rescue bed and respiration monitoring device for cerebral hernia patient - Google Patents

Abstract

The utility model provides a brain hernia patient is with rescue bed and respiratory monitoring devices relates to medical instrument technical field, including a board, a board's top swing joint has an extension board, a board's left side swing joint has No. two boards, a board's right side swing joint has No. three boards, no. two boards's top swing joint has No. two extension boards, no. three boards's top swing joint has No. three extension boards, be provided with telescopic assembly on the base, telescopic assembly can make an extension board, no. two boards, no. two extension boards, no. three boards and No. three extension boards carry out the angle deflection, detect patient breathing anomaly, can come in the way at medical personnel, independently adjust patient's lateral position and turn to lie on one's way, realize patient's head deflection and upper portion's body and lift the effect of high afterwards, medical personnel reach first time and treat, shorten the time of salvaging.

Description

Rescue bed and respiration monitoring device for cerebral hernia patient

Technical Field

The application relates to the technical field of medical equipment, in particular to a rescue bed and a respiration monitoring device for a cerebral hernia patient.

Background

Cerebral hernia is caused by increased intracranial pressure, is a very dangerous clinical critical disease in neurosurgery, has high occurrence speed, can cause serious disturbance of vital signs in a short time, and has extremely high death rate and disability rate. When cerebral hernia occurs, the patient can have the changes of vital signs such as respiration, even the symptoms such as headache, vomit, pupil change and the like caused by sudden respiratory arrest.

When a patient suffers from cerebral hernia, first-aid is needed, and the method comprises the following steps: the patient is required to lie on the back, the upper half body is lifted, the upper half body of the patient is lifted by 15-30 degrees, the head and neck venous blood reflux is promoted, and the intracranial pressure increase is relieved; step two: if the patient is unconscious on one side of the head, and nausea and vomiting are accompanied, the head of the patient should be biased to one side, or the patient is placed in a lateral position, so that the discharge of oral and nasal secretion and vomit is facilitated, and the choking is avoided; step three: when oxygen inhalation is conditional, the patient can be subjected to routine oxygen inhalation; step four: monitoring vital signs and changes in conditions note observing the patient's respiration, counting pulses, and sometimes measuring blood pressure and body temperature for the patient, while observing changes in the patient's pupil and limb movements.

Clinical nurses examine the disease condition according to patient's nursing level, and 1-3 hours are patrolled and are looked for a ward, and patient in case take place the brain hernia, vital sign can take place unusual in the short time, should rescue immediately, just probably reduce patient's life danger, otherwise miss best rescue time and just have life danger, because medical personnel need arrive the sick bed department and operate, medical personnel learn that clinical condition is unusual and arrive the patient and can't carry out the position change in the middle of arriving, need medical personnel arrive at the sick bed and carry out the position change, delays the time of salvaging.

Disclosure of Invention

The utility model provides a brain hernia patient is with rescue bed and respiratory monitoring devices to solve the inventor and realize that clinical nurse is according to patient's nursing level, and 1-3 hours is patrolled and is looked for the ward and look over the disease condition, and patient once take place brain hernia, vital sign can take place unusual in the short time, should rescue immediately, just probably reduce patient's life danger, otherwise miss best rescue time and just have life danger, because medical personnel need arrive the sick bed department and operate, medical personnel learn that clinical condition is unusual to arrive the patient and can't carry out the position change in the way, need medical personnel to arrive the sick bed and carry out the position change, delays the technical problem of rescue time.

The utility model provides a brain hernia patient is with rescue bed, including a board, a board's top swing joint has an extension board, a board's left side swing joint has No. two boards, a board's right side swing joint has No. three boards, no. two boards's top swing joint has No. two extension boards, no. three boards's top swing joint has No. three extension boards, no. two boards No. two extension boards No. three boards with No. three extension boards all can to a board direction deflects, no. one extension board can to No. two boards direction deflects, no. three extension boards can to No. three boards direction deflect, still include the base, the front of base with No. one board is connected, no. two boards with No. three boards's back looks butt of base, no. two boards have a flexible subassembly to set up, no. two the second extension boards with No. three the whole subassembly is connected with No. two the second extension boards, no. three the whole subassembly is connected with No. three the second extension boards, no. three subassembly and one is connected with one and is become one and is connected with the whole subassembly, no. three the subassembly is connected with No. three the whole subassembly and is connected with one and is become one and is connected with the second extension board.

In any of the above technical solutions, further, the telescopic assembly includes a left side telescopic motor, a middle part telescopic motor and a right side telescopic motor, the left side telescopic motor the middle part telescopic motor with the right side telescopic motor all sets up the front with the base, first spout has been seted up to the back of No. two boards, first cross spout has been seted up to the back of No. two boards, first spout with the inside of first cross spout is all sliding connection has first slider, the second spout has been seted up to the back of No. three boards, the twenty-first spout has been seted up to the back of No. three boards, the second spout with the inside of the twenty-first spout is all sliding connection has the second slider, the third spout has been seted up to the back of No. one boards, sliding connection has the third slider, the number of the left side telescopic motor the number of the right side telescopic motor is a plurality of, a plurality of left side telescopic motor's output respectively with the back swing joint of first slider, a plurality of motors's right side output respectively with the swing joint of the second slider is connected with the back of the second movable connection of the second slider.

In any of the above technical solutions, further, the first connecting component includes a housing, a second housing and a first inserting rod, the first housing is disposed on the back of the second board and the third board, the second housing is disposed on the back of the second extending board and the third extending board, a jack is provided in the interior of the first housing, a second jack is provided in the interior of the second housing, the inner diameter of the first jack and the inner diameter of the second jack are matched with the inner diameter of the first inserting rod, the length of the first jack is equal to the length of the first inserting rod, the minimum distance between the second jack and the first housing is one third of the length of the first inserting rod, and electromagnets are provided in the first housing and the second housing.

In any of the above technical solutions, further, the second connecting component includes a No. three housing, a No. four housing and a second inserting rod, the No. three housing set up in No. two plates, no. two extending plates, no. three plates and the back of No. three extending plates, no. four housing set up in No. one plate with the back of No. one extending plates, no. three jacks have been seted up to the inside of No. three housing, no. four jacks have been seted up to the inside of No. four housing, no. three jacks with the internal diameter size of No. four jacks matches with the internal diameter size of second inserting rod, just No. three jack length with second inserting rod length is the same, no. four jack length with No. three housing with No. four minimum distance between the housing is one third of first inserting rod length, no. three housing with No. four housing all are provided with in the electro-magnet.

In any of the above technical solutions, further, the second plate and the second extension plate are provided with a first pressure sensor, the third plate and the third extension plate are provided with a second pressure sensor, a first distance sensor, a second distance sensor and a controller are arranged in the base, the first distance sensor and one side of the first extension plate are located on the same axis, the second distance sensor and the middle telescopic motor are located on the same axis, and an alarm lamp is arranged on the surface of the base, and the alarm lamp, the first pressure sensor, the second pressure sensor, the left telescopic motor, the middle telescopic motor, the right telescopic motor, the electromagnet, the first distance sensor and the second distance sensor are all electrically connected with the controller.

In any of the above technical solutions, further, the device comprises a head placing plate, the back of the head placing plate is in contact with the front of the base, a centralizing assembly is arranged on the head placing plate, the centralizing assembly comprises a rotating motor and a centralizing plate, a placing groove is formed in the head placing plate, the rotating motor is arranged in the head placing plate, the output end of the rotating motor extends to the placing groove and is provided with the centralizing plate, a third pressure sensor is arranged in the centralizing plate, the number of centralizing assemblies is two, the centralizing assemblies are arranged in a symmetrical mode with the center line of the head placing plate, and the third pressure sensor and the rotating motor are all electrically connected with the controller.

In any of the above technical solutions, further, the electromagnetic valve further comprises a third connecting component, the third connecting component comprises a fifth shell, a sixth shell and a third inserting rod, the fifth shell is arranged on the back surface of the head placing plate, the sixth shell is arranged on the back surface of the first extending plate, the second extending plate and the third extending plate, a fifth jack is formed in the fifth shell, a sixth jack is formed in the sixth shell, the inner diameter size of the fifth jack and the inner diameter size of the sixth jack are matched with the inner diameter size of the third inserting rod, the length of the fifth jack is identical to the length of the third inserting rod, the minimum distance between the fifth jack length and the fifth shell and the sixth shell is one third of the length of the third inserting rod, and electromagnets are arranged in the fifth shell and the sixth shell.

In any of the above technical solutions, the terminal further comprises a terminal, the terminal comprises a wireless communicator and a display, the display is electrically connected with the wireless communicator, and the controller is in communication connection with the wireless communicator.

In any of the above technical solutions, further, a distance gap is formed between the righting plate and the placement groove, and the distance gap is formed between the first plate, the first extension plate, the second extension plate, the third extension plate and the head placement plate.

The application provides a respiration monitoring device, including foretell a brain hernia patient is with rescue bed.

The beneficial effects of this application mainly lie in:

1. the pressure condition of a patient lying on a rescue bed is monitored through the first pressure sensor and the second pressure sensor, when the difference value between the first pressure sensor and the second pressure sensor exceeds a set threshold value, the patient is shown to be in a lateral lying state in a larger pressure direction, at the moment, the second plate and the second extending plate or the third plate and the third extending plate are connected through the first connecting component, then the left telescopic motor is started to enable the first sliding block to move in a corresponding set direction of the first sliding groove or the first cross sliding groove, meanwhile, the second plate and the second extending plate are enabled to be in angle change relative to the first plate, the right telescopic motor is enabled to enable the second sliding block to move in a corresponding set direction of the second sliding groove or the second cross sliding groove, meanwhile, the third plate and the third extending plate are enabled to be in angle change relative to the first plate, and the patient is enabled to recover to a horizontal lying state under the action of gravity after the relative angle is achieved.

2. Connect into a whole with a board, no. two boards and No. three boards through the second coupling assembling, simultaneously connect into a whole with a extension board, no. two extension boards and No. three extension boards through the second coupling assembling, start the flexible motor in No. two extension board department left side, the flexible motor in No. three extension board department right side and the flexible motor in middle part this moment, and then make the third slider set for the direction and shift along the third spout, make the first slider shift along first cross spout and third spout parallel direction simultaneously, the second slider shifts along the cross spout and third spout parallel direction, and then realize No. one extension board, no. two extension boards and No. three extension boards are relative a board, no. two boards and No. three board directions realize the angle deflection, and then reach the effect that the patient upper body lifts.

3. The pressure on the patient's head applied to the righting plate is further known through the third pressure sensor in the righting plate, when the difference between the third pressure sensors is known, the rotating motor can be started to drive the righting plate to rotate, the righting plate can be contacted with the patient's head in the rotating process, the positive effect of the patient's head can be achieved, when head deflection is needed, the rotating directions of the two rotating motors are opposite, the two righting plates change the orientation of the patient's head, then the righting plate is restored to the initial position, and the patient's head is deflected under the action of gravity.

It is to be understood that both the foregoing general description and the following detailed description are for purposes of example and explanation and are not necessarily limiting of the application. The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate the subject matter of the present application. Meanwhile, the description and drawings are used to explain the principles of the present application.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view (front view) of a rescue bed according to an embodiment of the present application;

FIG. 2 is a second schematic view (a cross-sectional back view) of a rescue bed according to an embodiment of the present application;

FIG. 3 is a schematic view of a rescue bed according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a rescue bed according to an embodiment of the present application;

FIG. 5 is a schematic diagram of a rescue bed according to an embodiment of the present application;

FIG. 6 is a schematic view of a head rest plate and its internal structure (top cross-sectional view) according to an embodiment of the present application;

FIG. 7 is a schematic view (top cross-sectional view) of a head rest plate and its internal structure according to an embodiment of the present application;

FIG. 8 is a schematic view (front cross-sectional view) of the base and its internal structure according to the embodiment of the present application;

fig. 9 is a schematic diagram of an electrical control flow in an embodiment of the present application.

Icon:

100-plate number one; 101-an extension plate; 102-plate number two; 103-extension plate II; 104-third plate; 105-extension plate III; 106-a first chute; 107-a first cross chute; 108-a first slider; 109-a second chute; 110-a second cross chute; 111-a second slider; 112-a third chute; 113-a third slider; 200-base; 201-left telescopic motor; 202-a middle telescopic motor; 203-right telescopic motor; 204-an alarm lamp; 205-charging holes; 206-card plugboard; 300-a first shell; 301-a second shell; 302-a first plunger; 303-jack number one; 304-jack number two; 400-third shell; 401-fourth shell; 402-a second plunger; 403-third jack; 404-fourth jack; 500-head placement plate; 501-a rotating motor; 502-centralizing plate; 503-placing a groove; 504-a pipeline placement tank; 505-rubber pad; 600-fifth shell; 601-a sixth shell; 602-a third plunger; 603-fifth jack; 604-sixth jacks; 700-electromagnet.

Detailed Description

The following description of the embodiments of the present application will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown.

All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description of the present application and to 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 thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Referring to fig. 1, 2, 3, 4, 5, 8, and 9, in one or more embodiments, a rescue bed for a brain hernia patient is provided, including a first plate 100, a first extension plate 101 movably connected to a top of the first plate 100, a second plate 102 movably connected to a left side of the first plate 100, a third plate 104 movably connected to a right side of the first plate 100, a second extension plate 103 movably connected to a top of the second plate 102, a third extension plate 105 movably connected to a top of the third plate 104, the second plate 102, the second extension plate 103, the third plate 104, and the third extension plate 105 being capable of deflecting in a direction of the first plate 100, the first extension plate 101 being capable of deflecting in a direction of the first plate 100, the third extension plate 105 being capable of deflecting in a direction of the third plate 104, a base 200, a front surface of the base 200 being connected to the first plate 100, the back surfaces of the second plate 102 and the third plate 104 can be abutted with the front surface of the base 200, the base 200 is provided with a telescopic component which can enable the first extension plate 101, the second plate 102, the second extension plate 103, the third plate 104 and the third extension plate 105 to deflect angularly, the telescopic component further comprises a first connecting component and a second connecting component, the second plate 102 and the second extension plate 103 are connected into a whole through the first connecting component, the third plate 104 and the third extension plate 105 are connected into a whole through the first connecting component, the first extension plate 101, the second extension plate 103 and the third extension plate 105 are connected into a whole through the second connecting component, the first plate 100, the second plate 102 and the third plate 104 are connected into a whole through the second connecting component, the telescopic component comprises a left telescopic motor 201, a middle telescopic motor 202 and a right telescopic motor 203, the left side telescopic motor 201, the middle telescopic motor 202 and the right side telescopic motor 203 are all arranged on the front surface of the base 200, the back surface of the second plate 102 is provided with a first sliding groove 106, the back surface of the second extension plate 103 is provided with a plurality of first cross sliding grooves 107, the interiors of the first sliding groove 106 and the first cross sliding groove 107 are both in sliding connection with a first sliding block 108, the back surface of the third plate 104 is provided with a second sliding groove 109, the back surface of the third extension plate 105 is provided with a second sliding block 111, the interiors of the second sliding groove 109 and the second sliding groove 110 are both in sliding connection with a third sliding groove 112, the number of the left side telescopic motor 201 and the right side telescopic motor 203 is a plurality of third sliding blocks 113, the output ends of the plurality of left side telescopic motors 201 are respectively and movably connected with the back surface of the first sliding block 108, the output ends of the right telescopic motors 203 are respectively movably connected with the back of the second sliding block 111, the output end of the middle telescopic motor 202 is movably connected with the back of the third sliding block 113, the interiors of the second plate 102 and the second extension plate 103 are provided with first pressure sensors, the interiors of the third plate 104 and the third extension plate 105 are provided with second pressure sensors, the inside of the base 200 is provided with first distance sensors, second distance sensors and a controller, the first distance sensors are positioned on the same axis with one side of the first extension plate 101, the second distance sensors are positioned on the same axis with the middle telescopic motor 202, the surface of the base 200 is provided with an alarm lamp 204, the first pressure sensors, the second pressure sensors, the left telescopic motor 201, the middle telescopic motor 202, the right telescopic motor 203, an electromagnet 700, the first distance sensors and the second distance sensors are all electrically connected with the controller, the righting plate 502 and the placement groove 503 have a distance gap therebetween, and the first plate 100, the first extension plate 101, the second plate 102, the second extension plate 103, the third plate 104, the third extension plate 105 and the head placement plate 500 have a distance gap therebetween.

In this embodiment, the pressure condition of the patient lying on the rescue bed is monitored through the first pressure sensor and the second pressure sensor, when the difference value between the first pressure sensor and the second pressure sensor exceeds the set threshold value, the patient is shown to be in a lateral lying state in a larger pressure direction, when the first pressure sensor monitors that the pressure is larger, the second plate 102 and the second extension plate 103 are connected through the first connecting component, at this moment, the second plate 102 cannot realize angle deflection in the direction of the second extension plate 103, the left telescopic motor 201 is started to enable the first sliding block 108 in the second plate 102 to displace in the first sliding groove 106, meanwhile, the first sliding block 108 in the second extension plate 103 displaces in the first cross sliding groove 107, the displacement direction is parallel to the direction of the first sliding groove 106, in this process, the second plate 102 and the second extension plate 103 can be enabled to be in an angle change relative to the first plate 100, after the relative angle is reached, the gravity effect is achieved, the patient is enabled to be restored to the horizontal state, the monitored pressure value of the second pressure sensor is increased, and the left telescopic motor 201 is enabled to work in the opposite direction, and the second plate 102 and the second extension plate 102 is enabled to recover to the initial position; when the second pressure sensor detects that the pressure is large, the third plate 104 and the third extension plate 105 are connected through the first connecting component, at the moment, the third plate 104 cannot deflect at an angle to the direction of the third extension plate 105, the right-side telescopic motor 203 is started to enable the second sliding block 111 in the third plate 104 to displace in the second sliding groove 109, meanwhile, the second sliding block 111 in the third extension plate 105 displaces in the second sliding groove 110, the displacement direction is parallel to the direction of the second sliding groove 109, in the process, the third plate 104 and the third extension plate 105 can be enabled to present angle change relative to the first plate 100, the patient is enabled to recover to a horizontal state under the action of gravity after the relative angle is reached, at the moment, the pressure value monitored by the first pressure sensor is increased, and then the right-side telescopic motor 203 works in the opposite direction, and the third plate 104 and the third extension plate 105 are enabled to recover to the initial position; wherein the arrangement of the distance gap ensures the fluency when the first extension plate 101, the second extension plate 103, the third extension plate 105, the second plate 102 and the third plate 104 perform angle deflection; the electromagnet 700 is arranged in the base 200, and can attract the second plate 102 and the third plate 104 to be stably fixed on the base 200; the base 200 is internally provided with a battery, the base 200 is provided with a charging hole 205, the charging hole 205 is used for charging the battery, the battery is used for supplying power to corresponding electrical structures, such as a controller, an alarm lamp 204, a left telescopic motor 201, a middle telescopic motor 202, a right telescopic motor 203, a first pressure sensor, a second pressure sensor and the like, and meanwhile, the bottom of the base 200 is provided with a card plugboard 206, so that an inserting sheet for recording patient information is conveniently inserted into the card plugboard 206, and medical staff can conveniently learn related information, wherein the card plugboard 206 is made of transparent materials.

In this embodiment, the first plate 100, the second plate 102 and the third plate 104 are connected into a whole through the second connecting component, meanwhile, the first extension plate 101, the second extension plate 103 and the third extension plate 105 are connected into a whole through the second connecting component, at this time, the second plate 102 and the third plate 104 cannot realize angle change relative to the first plate 100, and likewise, the second extension plate 103 and the third extension plate 105 cannot realize angle change relative to the first extension plate 101, the left telescopic motor 201 at the second extension plate 103, the right telescopic motor 203 and the middle telescopic motor 202 at the third extension plate 105 are started, so that the third slider 113 is displaced along the setting direction of the third chute 112, the first slider 108 is simultaneously displaced along the first cross chute 107, the displacement direction is parallel to the direction of the third chute 112, the second slider 111 is displaced along the twentieth chute 110, the displacement direction is parallel to the direction of the third sliding groove 112, in the process, the first extension plate 101, the second extension plate 103 and the third extension plate 105 realize angle deflection relative to the directions of the first plate 100, the second plate 102 and the third plate 104, so that the effect of lifting the upper body of a patient is achieved, in the process, the first distance sensor and the second distance sensor can know the height difference between the relative monitoring positions, the distance from the first distance sensor to the second distance sensor is fixed and known, the distance from the third sliding block 113 to one side of the first extension plate is combined to form a triangular relationship, the length of the third edge is known at the two sides, meanwhile, the distance angle can be known through the triangular function relationship, and therefore, the specific angle of deflection of the first extension plate 101, the second extension plate 103 and the third extension plate 105 relative to the first plate 100, the second plate 102 and the third plate 104 can be known, stopping the corresponding telescopic motor when the angle reaches a set threshold value; wherein the arrangement of the distance gap ensures the fluency when the first extension plate 101, the second extension plate 103, the third extension plate 105, the second plate 102 and the third plate 104 perform angle deflection; the electromagnet 700 is arranged in the base 200, and can attract the second plate 102 and the third plate 104 to be stably fixed on the base 200; when the patient is in an abnormal state, the controller firstly controls the alarm lamp 204 to emit light, so that nearby medical staff can be prompted to know the situation, meanwhile, the controller sends a signal to the wireless communicator, the wireless communicator knows that the signal is displayed through the display, and further, the medical staff is enabled to know the situation; the base 200 is internally provided with a battery, the base 200 is provided with a charging hole 205, the charging hole 205 is used for charging the battery, the battery is used for supplying power to corresponding electrical structures, such as a controller, an alarm lamp 204, a left telescopic motor 201, a middle telescopic motor 202, a right telescopic motor 203, a first pressure sensor, a second pressure sensor and the like, and meanwhile, the bottom of the base 200 is provided with a card plugboard 206, so that an inserting sheet for recording patient information is conveniently inserted into the card plugboard 206, and medical staff can conveniently learn related information, wherein the card plugboard 206 is made of transparent materials.

Referring to fig. 1, 2, 3, 4, 5 and 9, in some embodiments, the first connecting assembly includes a first housing 300, a second housing 301 and a first inserting rod 302, the first housing 300 is disposed on the back of the second plate 102 and the third plate 104, the second housing 301 is disposed on the back of the second extension plate 103 and the third extension plate 105, a first inserting hole 303 is formed in the first housing 300, a second inserting hole 304 is formed in the second housing 301, the inner diameter dimensions of the first inserting hole 303 and the second inserting hole 304 are matched with the inner diameter dimensions of the first inserting rod 302, the length of the first inserting hole 303 is the same as the length of the first inserting rod 302, the minimum distance between the length of the second inserting hole 304 and the first housing 300 and the minimum distance between the second housing 301 are one third of the length of the first inserting rod 302, electromagnets 700 are disposed in the first housing 300 and the second housing 301, the second coupling assembling includes No. three casings 400, no. four casings 401 and second inserted bar 402, no. three casings 400 set up in the back of No. two boards 102, no. two extension boards 103, no. three boards 104 and No. three extension boards 105, no. four casings 401 set up in the back of No. one board 100 and No. one extension board 101, no. three jack 403 has been seted up to No. three casings 400's inside, no. four jack 404 has been seted up to No. four casings 401's inside, no. three jack 403 and No. four jack 404's internal diameter size and the internal diameter size phase-match of second inserted bar 402, and No. three jack 403 length is the same with second inserted bar 402 length, no. four jack 404 length and No. three casings 400 and No. four casings 401 between minimum interval be the third of first inserted bar 302 length, no. three casings 400 and No. four casings 401 all are provided with electro-magnet 700.

In this embodiment, the initial state of the first inserting rod 302 is located in the first jack 303, at this time, the electromagnet 700 in the first housing 300 is electrified to have stronger magnetism, and under the action of magnetic force, the first inserting rod 302 is relatively stably fixed in the first jack 303, when the second plate 102 and the second extension plate 103 or the third plate 104 are required to be connected into a whole, at this time, the electromagnet 700 in the first housing 300 is stopped to be electrified and the electromagnet 700 in the second housing 301 is electrified, the first inserting rod 700 has larger magnetism, under the action of magnetic force, enters the second jack 304, and because the minimum distance between the length of the second jack 304 and the length of the first inserting rod 302 is one third of the length of the first inserting rod 302, the first inserting rod 302 is located in the first jack 303, and in this state, the second plate 102 and the second extension plate 103 or the third plate 104 and the third extension plate 105 cannot be relatively rotated, the electromagnet 700 is electrified and simultaneously, the first inserting rod 302 can enter the second jack 304, the second jack 302 is located in the third of the actual jack 302, and the first inserting rod 302 is located in the first jack 302, and the second jack 302 is located in the third of the actual jack 303, and the first inserting rod 302 is located in the first jack 302; the starting state of the second inserting rod 402 is located in the third jack 403, the electromagnet 700 in the third shell 400 is electrified to have stronger magnetism, the second inserting rod 402 is stably fixed in the third jack 403 under the action of magnetic force, when the first extending plate 101, the second extending plate 103 and the third extending plate 105 or the first plate 100, the second plate 102 and the third plate 104 are required to be connected into a whole, the electromagnet 700 in the third shell 400 is stopped to be electrified at the same time, the electromagnet 700 in the fourth shell 401 is electrified, the electromagnet 700 is electrified to have larger magnetism, the second inserting rod 402 enters the fourth jack 404 under the action of magnetic force, the minimum distance between the length of the fourth jack 404 and the minimum distance between the third shell 400 and the fourth shell 401 is one third of the length of the second inserting rod 402, the second inserting rod 402 has one third of the length to be located in the second jack 304, the fourth extending plate or the third extending plate 104 and the third extending plate 105 cannot rotate relatively, the length of the fourth jack 404 and the third shell 400 can be improved to be one third of the length of the second inserting rod 402, and the third inserting rod 402 can be completely inserted into the third jack 402 according to the fact that the minimum distance between the fourth jack 404 and the third shell 401 is required to be located in the third jack 402, and the second inserting rod 402 can be completely inserted into the third jack 402.

Referring to fig. 1, 2, 3, 4, 5, 6, 7 and 9, in some embodiments, the device further includes a head placement plate 500, a back surface of the head placement plate 500 abuts against a front surface of the base 200, a righting component is disposed on the head placement plate 500, the righting component includes a rotating motor 501 and a righting plate 502, a placement groove 503 is formed in an inner portion of the head placement plate 500, the rotating motor 501 is disposed in the head placement plate 500, a righting plate 502 is disposed in the placement groove 503 at an output end of the rotating motor 501, a third pressure sensor is disposed in the righting plate 502, the number of the righting components is two, the two righting components are symmetrically disposed with a center line of the head placement plate 500, the third pressure sensor and the rotating motor 501 are electrically connected with the controller, the device further includes a third connecting component, the third connecting component includes a fifth housing 600, a sixth housing 601 and a third plug 602, the No. five casing 600 sets up in the back of head place board 500, no. six casing 601 sets up in the back of No. one extension board 101, no. two extension boards 103 and No. three extension boards 105, no. five jack 603 has been seted up to the inside of No. five casing 600, no. six jack 604 has been seted up to the inside of No. six casing 601, no. five jack 603 and No. six jack 604's internal diameter size and the internal diameter size phase-match of third inserted bar 602, and No. five jack 603 length is the same with third inserted bar 602 length, no. five jack 603 length and No. five casing 600 and No. six casing 601 minimum interval all be third inserted bar 602 length, all be provided with electro-magnet 700 in No. five casing 600 and No. six casing 601, have the distance clearance between righting board 502 and the standing groove 503, no. 100, no. one extension board 101, no. two boards 102, no. two extension boards 103, no. three boards 104, the third extension plate 105 and the head placement plate 500 each have a distance gap therebetween.

In this embodiment, the patient's head is initially located at the middle position of the head placement plate 500, the two righting plates 502 are located at two sides of the patient's head, the pressure on the righting plates 502 is further obtained through the third pressure sensors in the righting plates 502, when the difference between the third pressure sensors is obtained, the rotation motor 501 can be started to drive the righting plates 502 to rotate, the righting plates 502 can be contacted with the patient's head in the rotation process, the positive effect of the patient's head can be achieved, when the head is required to deflect, the rotation directions of the two rotation motors 501 are opposite, the two righting plates 502 deflect in opposite directions, the orientation of the patient's head is changed, deflection can be achieved only by changing the orientation of the patient's head under the action of gravity when the righting plates 502 are restored to the initial position, the two sides of the head placement plate 500 are provided with the pipeline placement grooves 504, the corresponding pipelines 505 are arranged in the pipeline placement grooves 504, and the fixing effect of the pipelines can be achieved by extruding the corresponding pipelines 505; wherein the arrangement of the distance gap ensures the fluency of the rotation of the righting plate 502; the initial state of the third inserted link 602 is located in the fifth jack 603, at this moment, the electromagnet 700 in the fifth shell 600 is electrified to have stronger magnetism, the third inserted link 602 is relatively stably fixed in the fifth jack 603 under the action of magnetic force, when the first extension plate 101, the second extension plate 103 and the third extension plate 105 are all required to be connected with the head placement plate 500 into a whole, at this moment, the electromagnet 700 in the fifth shell 600 is stopped to be electrified and the electromagnet 700 in the sixth shell 601 is electrified, the third inserted link 602 has larger magnetism, under the action of magnetic force, the third inserted link 602 enters the sixth jack 604, because the minimum distance between the length of the sixth jack 604 and the lengths of the third inserted link 602 between the fifth shell 600 and the sixth shell 601 are one third of the lengths of the third inserted link 602, the third inserted link 602 is located in the second jack 304, at this state, the head placement plate 500 rotates simultaneously with the first extension plate 101, the second extension plate 103 and the third extension plate 105, the minimum distance between the sixth jack 604 and the fifth shell 600 is one third jack 602, the third inserted link 602 is completely improved according to the fact that the third inserted link 602 is located in the third jack 602, the actual condition that the third inserted link 602 is completely located in the third jack 602, the third jack 602 is located at the position; the electromagnet 700 is disposed in the base 200, and can attract the head placement plate 500 to be stably fixed on the base 200.

Referring to fig. 9, in one or more embodiments, a respiration monitoring device is provided, including a emergency cot for a cerebral hernia patient as described above.

In this embodiment, the respiration monitoring device is mainly used for monitoring respiration of a patient, and the normal respiration range is 15-20 times/min, once the respiration is considered weak below the minimum value and the respiration is considered rapid above the maximum value, related signals are transmitted to the controller, and when an abnormality of weak respiration is found, the controller sends signals to the wireless receiver and displays the signals through the display, so that the situation is known, and meanwhile, the controller controls related electrical elements to work.

The terminal may be a mobile phone, ipad, a computer, etc., the communication connection may be 4G, 5G, WIFI, a local area network, bluetooth, etc., in this application, the first pressure sensor, the second pressure sensor, the third pressure sensor, the first distance sensor, the second distance sensor, the left telescopic motor 201, the middle telescopic motor 202, the right telescopic motor 203, the rotating motor 501, the controller, the alarm lamp 204, the wireless communicator, and the specific model specification of the display need to be determined according to the actual specification of the device, etc., and the specific model selection calculation method adopts the prior art in the field, so detailed description is omitted; the power supply and its principle will be clear to a person skilled in the art and will not be described in detail here; the principle of connection and installation of all parts and signal transmission belongs to the known technology in the field.

Specifically, the application provides a brain hernia patient is with rescue bed and respiratory monitoring device's theory of operation is:

the respiration monitoring device is mainly used for monitoring respiration of a patient, the normal respiration range is 15-20 times/min, once the respiration is considered weak below a minimum value and the respiration is considered rapid above a maximum value, relevant signals are transmitted to the controller, when abnormality of the respiration is found, the controller sends signals to the wireless receiver and displays the signals through the display, so that the situation is known, and meanwhile, the alarm lamp 204 is made to emit light, so that medical staff nearby can know the situation of the patient;

the controller monitors the pressure condition of the patient lying on the rescue bed through the first pressure sensor and the second pressure sensor when the abnormality of the patient is detected, when the difference value between the first pressure sensor and the second pressure sensor exceeds a set threshold value, the patient is shown to be in a lateral lying state in a direction with larger pressure,

firstly, the electromagnet 700 in the first shell 300 is stopped to be electrified, meanwhile, the electromagnet 700 in the second shell 301 is electrified, the electromagnet 700 has larger magnetism, the first inserted rod enters the second jack 304 under the action of the magnetism, because the minimum distance between the length of the second jack 304 and the minimum distance between the first shell 300 and the second shell 301 is one third of the length of the first inserted rod 302, the first inserted rod 302 is positioned in the first jack 303, in this state, the relative rotation between the second plate 102 and the second extension plate 103 or between the third plate 104 and the third extension plate 105 cannot be realized, then the left extension motor 201 or the right extension motor 203 is started, the first slide block 108 in the second plate 102 is enabled to displace in the first slide groove 106 when the left extension motor 201 is started, meanwhile, the first slide block 108 in the second extension plate 103 is enabled to displace in the first cross slide groove 107, and the displacement direction is parallel to the direction of the first slide groove 106, in the process, the second plate 102 and the second extension plate 103 are enabled to present angle change relative to the first plate 100, the patient is enabled to recover to the horizontal state under the action of gravity after the relative angle is reached, at the moment, the pressure value monitored by the second pressure sensor is increased, further the left telescopic motor 201 is enabled to work in the opposite direction, the second plate 102 and the second telescopic plate are enabled to recover to the initial position, the second sliding block 111 in the third plate 104 is enabled to displace in the second sliding groove 109 when the right telescopic motor 203 is started, the second sliding block 111 in the third extension plate 105 is enabled to displace in the second sliding groove 110, the displacement direction is parallel to the direction of the second sliding groove 109, in the process, the third plate 104 and the third extension plate 105 are enabled to present angle change relative to the first plate 100, at the moment, the patient is enabled to recover to the horizontal state under the action of gravity after the relative angle is reached, at the moment, the pressure value monitored by the first pressure sensor is increased, further, the right telescopic motor 203 works in the opposite direction, and the third plate 104 and the third extension plate 105 are restored to the initial positions;

Then, the electromagnet 700 in the second shell 301 is stopped to be electrified, the electromagnet 700 in the first shell 300 is electrified, the first inserted link 302 enters the first jack 303, the electromagnet 700 in the third shell 400 and the fifth shell 600 is stopped to be electrified, the electromagnet 700 in the fourth shell 401 and the sixth shell 601 is electrified, the electromagnet 700 has larger magnetism, the second inserted link 402 enters the fourth jack 404 under the action of magnetic force, the third inserted link 602 enters the sixth jack 604, the left telescopic motor 201 at the second extension board 103, the right telescopic motor 203 at the third extension board 105 and the middle telescopic motor 202 are started, further, the third sliding block 113 is displaced along the set direction of the third sliding groove 112, meanwhile, the first sliding block 108 is displaced along the first cross sliding groove 107, the displacement direction is parallel to the direction of the third sliding groove 112, the second sliding block 111 is displaced along the second cross sliding groove 110, the displacement direction is parallel to the direction of the third sliding groove 112, in the process, the first extending plate 101, the second extending plate 103, the third extending plate 105 and the head placing plate 500 realize angle deflection relative to the directions of the first plate 100, the second plate 102 and the third plate 104, and the effect of lifting the upper body of a patient is achieved;

The patient head is initially positioned at the middle position of the head placing plate 500, the two righting plates 502 are positioned at the two sides of the patient head, the pressure applied to the righting plates 502 by the patient head is further known through the third pressure sensors in the righting plates 502, when the difference value between the third pressure sensors is within the set threshold value range, the rotation directions of the two rotating motors 501 are opposite at the moment, the two righting plates 502 deflect in opposite directions until the righting plates 502 are contacted with the patient head, then the two rotating motors 501 are enabled to continuously work, the orientation change of the patient head can be further changed, the patient head can be deflected under the action of gravity only by changing the smaller angle of the patient head, then the patient head can be deflected under the action of gravity after the righting plates 502 are restored to the initial position, the functions of lying on the side of the patient, lifting the upper limbs and deflecting the head can be automatically realized in the process, the emergency rescue time can be shortened in the way that medical staff is driven.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. The utility model provides a brain hernia patient is with rescue bed, its characterized in that, including a board, a board's top swing joint has an extension board, a board's left side swing joint has No. two boards, no. three boards of right side swing joint of board, no. two boards's top swing joint has No. two extension boards, no. three boards's top swing joint has No. three extension boards, no. two boards No. two extension boards No. three boards with No. three extension boards all can to a board direction deflects, no. one extension board can to No. two board directions deflect, no. three extension boards can to No. three board directions deflect, still include the base, the front of base with No. one board is connected, no. two boards with No. three boards's back looks butt of base, no. two boards have a flexible subassembly, no. two boards, no. two expansion assembly, no. three boards are connected with one and are connected, no. two the whole subassembly, no. three boards are connected with one is connected through one and are connected to No. two the expansion assembly, no. three the whole subassembly is connected with one and is become one and is connected with the whole subassembly, no. three the subassembly is connected with one and is become one and is No. two the whole subassembly, no. two extension board is connected with one and is become one and is connected with the subassembly.

2. The emergency treatment bed for brain hernia patient according to claim 1, wherein the telescopic assembly comprises a left telescopic motor, a middle telescopic motor and a right telescopic motor, the left telescopic motor, the middle telescopic motor and the right telescopic motor are all arranged on the front surface of the base, a first sliding groove is formed in the back surface of the second plate, a first cross sliding groove is formed in the back surface of the second plate, first sliding grooves and the inside of the first cross sliding groove are both slidingly connected with a first sliding block, a second sliding groove is formed in the back surface of the third plate, a second sliding groove and a second sliding block are both slidingly connected in the back surface of the third plate, a third sliding block is slidingly connected in the third sliding groove, the number of the left telescopic motor and the number of the right telescopic motor are both multiple, the output ends of the left telescopic motor are respectively and movably connected with the back surfaces of the first motor, and the output ends of the second sliding block are movably connected with the back surfaces of the second sliding block.

3. The emergency treatment bed for the brain hernia patient according to claim 2, wherein the first connecting assembly comprises a first shell, a second shell and a first inserting rod, the first shell is arranged on the back surfaces of the second plate and the third plate, the second shell is arranged on the back surfaces of the second extending plate and the third extending plate, a first inserting hole is formed in the first shell, a second inserting hole is formed in the second shell, the inner diameter size of the first inserting hole and the inner diameter size of the second inserting hole are matched with the inner diameter size of the first inserting rod, the length of the first inserting rod is identical to the length of the first inserting rod, the minimum distance between the second inserting hole length and the first shell is one third of the length of the first inserting rod, and electromagnets are arranged in the first shell and the second shell.

4. The emergency treatment bed for the brain hernia patient according to claim 3, wherein the second connecting component comprises a third shell, a fourth shell and a second inserting rod, the third shell is arranged on the back of the second plate, the second extending plate, the third plate and the third extending plate, the fourth shell is arranged on the back of the first plate and the back of the first extending plate, a third inserting hole is formed in the third shell, a fourth inserting hole is formed in the fourth shell, the inner diameter size of the third inserting hole and the inner diameter size of the fourth inserting rod are matched with the inner diameter size of the second inserting rod, the third inserting hole is identical to the second inserting rod in length, the minimum distance between the fourth inserting hole is one third of the first inserting rod length, and the electromagnets are arranged in the third shell and the fourth shell.

5. The emergency treatment bed for the brain hernia patient according to claim 4, wherein a first pressure sensor is arranged in the second plate and the second extension plate, a second pressure sensor is arranged in the third plate and the third extension plate, a first distance sensor, a second distance sensor and a controller are arranged in the base, the first distance sensor and one side of the first extension plate are located on the same axis, the second distance sensor and the middle extension motor are located on the same axis, an alarm lamp is arranged on the surface of the base, and the alarm lamp, the first pressure sensor, the second pressure sensor, the left extension motor, the middle extension motor, the right extension motor, the electromagnet, the first distance sensor and the second distance sensor are all electrically connected with the controller.

6. The emergency treatment bed for cerebral hernia patient according to claim 5, further comprising a head placement plate, wherein the back surface of the head placement plate is abutted to the front surface of the base, a righting component is arranged on the head placement plate, the righting component comprises a rotating motor and a righting plate, a placement groove is formed in the head placement plate, the rotating motor is arranged in the head placement plate, the output end of the rotating motor extends to the placement groove and is provided with the righting plate, a third pressure sensor is arranged in the righting plate, the righting components are two groups, the righting components are symmetrically arranged on the center line of the head placement plate, and the third pressure sensor and the rotating motor are electrically connected with the controller.

7. The emergency treatment bed for the brain hernia patient according to claim 6, further comprising a third connecting assembly, wherein the third connecting assembly comprises a fifth shell, a sixth shell and a third inserting rod, the fifth shell is arranged on the back surface of the head placement plate, the sixth shell is arranged on the back surface of the first extending plate, the second extending plate and the third extending plate, a fifth jack is formed in the fifth shell, a sixth jack is formed in the sixth shell, the inner diameter of the fifth jack and the inner diameter of the sixth jack are matched with the inner diameter of the third inserting rod, the length of the fifth jack is identical to the length of the third inserting rod, the minimum distance between the fifth jack and the fifth shell and the sixth shell is one third of the length of the third inserting rod, and the electromagnets are arranged in the fifth shell and the sixth shell.

8. The emergency cot for a cerebral hernia patient of claim 5, further comprising a terminal including a wireless communicator and a display, the display being electrically connected to the wireless communicator, the controller being communicatively connected to the wireless communicator.

9. The emergency treatment couch for cerebral hernia patient according to claim 6, wherein a distance gap is provided between the righting plate and the placement slot, and the distance gap is provided between the first plate, the first extension plate, the second extension plate, the third extension plate and the head placement plate.

10. A respiration monitoring device comprising a rescue bed for a cerebral hernia patient according to claims 1-9.