CN215607035U - Multi-angle prone position ventilation full-automatic turnover bed - Google Patents

Abstract

The application discloses a multi-angle prone position ventilation full-automatic turnover bed, which comprises a rotary turnover device, a turnover bed base and a control device; the rotary turnover device comprises a turnover bed bedstead and a turnover bed board; the bed frame of the turning-over bed is arranged on the base of the turning-over bed; the bed plate of the turn-over bed comprises a top end track rotating disc, a tail end track rotating disc, a supine position bed plate and a prone position bed plate; the top end rail rotating disc is arranged at the top end of the turning bed frame; the tail end track rotating disc is arranged at the tail end of the bed frame of the turnover bed; one end of the supine position bed board is connected with the top end track rotating disc, and the other end of the supine position bed board is connected with the tail end track rotating disc; one end of the prone position bed plate is connected with the top end track rotating disc, and the other end of the prone position bed plate is connected with the tail end track rotating disc; the control device comprises a control panel and a motor; the control panel is arranged at the tail end of the bed frame of the turnover bed and is connected with a tail end track rotating disc through a motor; the control device is also connected with the base of the turning-over bed. The application has the technical effects of effectively reducing workload and being wide in application range.

Description

Multi-angle prone position ventilation full-automatic turnover bed

Technical Field

The application relates to the technical field of medical facilities, in particular to a multi-angle prone position ventilation full-automatic body turning bed.

Background

The prone position ventilation, which is generally speaking to ventilate the patient lying on his stomach, is usually performed by bare-handed operation or by using a turning bed and/or a turning device, so that the patient can be mechanically ventilated in the prone position, and the prone position ventilation is mainly used for improving the anoxic state of the patient suffering from Acute Respiratory Distress Syndrome (ARDS). From a great number of reports on the rescue of new critical coronary disease patients in recent years, many severe patients are often treated by lying on a bed for oxygenation and ventilation, so that a very good clinical curative effect is achieved. As early as 1974, Bryan first proposed that prone position ventilation might improve dorsal lung ventilation, and thus oxygenation; in 2009, Taccone et al adopted a protective ventilation strategy, with a prone group mortality rate of 47% and a supine group mortality rate of 52.3%; in 2000, professor Gattinoti reported a multicenter test; in 2013, the multicenter immediate control clinical study of Guerin et al published in the new england journal of medicine had milestone significance, patients ventilated in prone position with ARDS had improved oxygenation, and showed a trend towards decreased patient mortality. This study has drawn attention to the fact that prone ventilation is becoming more and more widely used in the ICU as an important therapeutic measure for ARDS.

In the rescue treatment of the new coronavirus pneumonia, in order to improve the treatment success rate of patients, medical staff actively and widely apply prone position ventilation therapy to severe patients, and the death rate of the severe patients with the new coronavirus pneumonia is greatly reduced. However, in the process of the treatment and nursing operation, the difficult problem of turning over nursing from a supine position to a prone position (in two directions) exists, and generally, 4-5 persons are required to cooperate to complete the turning-over process once. However, in an isolation ward, in order to prevent cross infection, medical staff need to wear thick protective clothing and wear various protective devices, and in this state, the medical staff will feel a surge and a call for a patient to do slight physical work daily, and 6-7 medical staff need to cooperate to complete the turning of the patient in prone position, which is very difficult and laborious. If N patients are subjected to prone position ventilation treatment at the same time, the turnover nursing workload and the working strength are huge. At present, the prone position ventilation is more and more paid attention to the treatment of ARDS patients, a large number of clinical cases also prove that the prone position ventilation can improve the anoxic state of the patients, the prone position ventilation is widely applied in an ICU as a means of a lung protection strategy, but no equipment specially used for helping turning over exists up to now clinically.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a full-automatic bed of standing up of ventilating of multi-angle prone position has the technical effect that effectively reduces work load and application scope is wide.

In order to achieve the above object, the present application provides a full-automatic bed of standing up of ventilating of multi-angle prone position, includes: a rotary turnover device, a turnover bed base and a control device; the rotary turnover device comprises: a turnover bed frame and a turnover bed plate; the bed frame of the turning-over bed is arranged on the base of the turning-over bed; the bed board of the turn-over bed comprises: a top end track rotating disc, a tail end track rotating disc, a supine position bed board and a prone position bed board; the top end rail rotating disc is arranged on the inner side of the top end of the turning bed frame; the tail end track rotating disc is arranged on the inner side of the tail end of the turning bed frame; one end of the supine position bed board is connected with the top end track rotating disc in a sliding mode, and the other end of the supine position bed board is connected with the tail end track rotating disc in a sliding mode; one end of the prone position bed plate is connected with the top end track rotating disc in a sliding mode, and the other end of the prone position bed plate is connected with the tail end track rotating disc in a sliding mode; the control device includes: a control panel and a motor; the control panel is arranged on the outer side of the tail end of the turning bed frame and is connected with the tail end track rotating disc through a motor; the control device is also connected with the base of the turning-over bed.

As above, wherein, the supine position bed board includes: a first supine position bed board and a second supine position bed board; two opposite ends of the first supine position bed plate are respectively provided with a bed plate bearing rotor; two opposite ends of the second supine position bed plate are respectively provided with a bed plate bearing rotor; the prone position bed board includes: a first prone position bed plate and a second prone position bed plate; two opposite ends of the first prone position bed plate are respectively provided with a bed plate bearing rotor; two opposite ends of the second prone position bed plate are respectively provided with a bed plate bearing rotor.

As above, wherein the top end track rotating disc and the tail end track rotating disc are both provided with rectangular tracks; the rectangular track includes: vertical track and horizontal track, vertical track includes: a first vertical rail and a second vertical rail; the horizontal rail includes: a first horizontal rail and a second horizontal rail; one end of the first vertical rail is connected with one end of the first horizontal rail, the other end of the first vertical rail is connected with one end of the second horizontal rail, one end of the second vertical rail is connected with the other end of the first horizontal rail, and the other end of the second vertical rail is connected with the other end of the second horizontal rail, so that a rectangular rail is formed; the bed plate bearing rotor is arranged in the rectangular track and slides along the rectangular track.

The above, wherein the width of the vertical track is greater than the width of the horizontal track; a plurality of elastic sliding balls are respectively arranged on two inner side surfaces of the vertical track.

As above, wherein the sliding beads on the two inner sides are asymmetrically arranged.

As above, one side of the first prone position bed plate, which is far away from the second prone position bed plate, is provided with a prone position arm support; one side of the second prone position bed plate, which is far away from the first prone position bed plate, is provided with a prone position arm support.

As above, one side of the first prone position bed plate, which is far away from the prone position arm support, is provided with a first groove, and the first groove is close to the top end rail rotating disc; one side of the second prone position bed plate, which is far away from the prone position arm support, is provided with a second groove, the second groove is close to the top end rail rotating disc, and the first groove and the second groove are spliced to form a shelving hole for shelving the head.

As above, the bed plate of the turn-over bed also comprises a plurality of wide woven belts; a plurality of wide woven belts are arranged on both sides of the first supine position bed board and both sides of the second supine position bed board; both sides of the first prone position bed board and both sides of the second prone position bed board are provided with a plurality of wide woven belts.

As above, wherein, the base of the turn-over bed comprises: the six-degree-of-freedom platform system comprises a six-degree-of-freedom platform system, a base and a plurality of universal wheels; the six-degree-of-freedom platform system is arranged on the base and is connected with the bed frame of the turnover bed; a plurality of universal wheels set up in the base bottom.

As above, wherein, the top end orbit rotary disk is provided with an air flue pipeline window and an ECMO pipeline window.

The beneficial effect that this application realized is as follows:

(1) the full-automatic bed of standing up of ventilating of multi-angle prone position of this application presss from both sides tightly fixedly to the human body through double-deck bed board, and the rotatory turning-over device of automatic control rotates, has realized standing up patient's normal position, and the angle of standing up targets in place once, and extremely little technological effect to state of an illness physiology interference.

(2) After the multi-angle prone position ventilation full-automatic turning-over bed completes turning over, the original bed board becomes the bedside sideboard, and the shape and the function of the existing sickbed are maintained.

(3) The multi-angle prone position ventilation full-automatic body turning bed has the effect that a tube is not required to be temporarily sealed and pulled in the body turning process.

(4) The multi-angle prone position ventilation full-automatic body turning bed utilizes the function of a six-degree-of-freedom platform system to realize lifting, left/right inclination multi-posture six-direction space positioning of a rotating body turning device, and multi-angle and all-around realization of full lung re-opening airway open drainage.

(5) The multi-angle prone position ventilation full-automatic body turning bed realizes body turning through full-automatic operation, and the whole body turning process can be easily completed by only 1 person, so that the workload can be effectively reduced.

(6) The utility model provides a full-automatic bed of standing up of multi-angle prone position ventilation is ICU serious illness room, breathing and critical illness discipline's important rescue equipment, and application scope is wide, for example: is suitable for the turning-over treatment of the burn patients; is suitable for treating moderate and severe Acute Respiratory Distress Syndrome (ARDS) for long-time prone position ventilation; mechanically ventilated patients who still cannot reduce the oxygen inhalation solubility to below 60% on the basis of active lung refolding and proper PEEP; patients with difficult airway drainage, incomplete pulmonary alveolar renaturation, bronchiectasis, lung abscess and the like; refractory hypoxemia can not be corrected by conventional mechanical ventilation; conventional prone position adjustment after fundus retinal surgery.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is an exploded view of an embodiment of a multi-angle prone position ventilation full-automatic turn-over bed;

FIG. 2 is a schematic structural view of a multi-angle prone position ventilation full-automatic turn-over bed in a state that the bed does not need to be turned over;

fig. 3 is a schematic structural view of the multi-angle prone position ventilation full-automatic turn-over bed in a state of needing to be turned over.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-3, the present application provides a multi-angle prone position ventilation full-automatic turn-over bed, comprising: a rotary turnover device 1, a turnover bed base 2 and a control device 3. The rotation turning-over device 1 includes: a turnover bed frame 11 and a turnover bed board 12; the turning bed frame 11 is arranged on the turning bed base 2. The bed board 12 of the turn-over bed comprises: a top end track rotating disc 121, a tail end track rotating disc 122, a supine position bed board 123 and a prone position bed board 124; the top end rail rotating disc 121 is arranged on the inner side of the top end of the turning bed frame 11; the tail end track rotating disc 122 is arranged on the inner side of the tail end of the turning bed frame 11; one end of the supine position bed plate 123 is connected with the top end track rotating disc 121 in a sliding manner, and the other end is connected with the tail end track rotating disc 122 in a sliding manner; one end of the prone position bed plate 124 is connected with the top end track rotating disc 121 in a sliding mode, and the other end of the prone position bed plate is connected with the tail end track rotating disc 122 in a sliding mode. The control device 3 includes: a control panel 31 and a motor 32; the control panel 31 is arranged at the outer side of the tail end of the turning bed frame 11 and is connected with a tail end track rotating disc 122 through a motor 32; the control device 3 is also connected with the base 2 of the turning-over bed. Specifically, the control panel 31 of the control device 3 controls the motor 32 of the rotating turning-over device 1 and/or the turning-over bed base 2 through an integrated circuit control system and an existing corresponding control software program, so as to realize various functional actions and change of space forms, and in addition, the control panel 31 can also hide the setting position of the motor 32, so as to have the function of a motor shell.

Further, the turn-over bed frame 11 includes: a first rod 111, a second rod 112, a top rod 113, and a tail rod 114; one end of the first rod 111 is fixedly connected with one end of the top rod 113, and the other end of the first rod 111 is fixedly connected with one end of the tail rod 114; one end of the second rod 112 is fixedly connected with the other end of the top rod 113, and the other end of the second rod 112 is fixedly connected with the other end of the tail end 114.

Specifically, the frame 11 of the turn-over bed has a supporting and fixing function for the rotation turn-over device 1.

Further, two bearing fixing seats 115 are also arranged on the turning bed frame 11, and connecting holes are formed in the two bearing fixing seats 115; the two bearing holders 115 are respectively disposed on the top rod 113 and the tail rod 114.

Specifically, the top-end orbital rotation disc 121 is disposed inside the bearing fixing seat 115 of the top rod 113, and is fixedly connected to the bearing fixing seat 115 by the fixing shaft 4 penetrating through a connecting hole on the bearing fixing seat 115 of the top rod 113. The tail end orbit rotating disk 122 is disposed inside the bearing fixing seat 115 of the tail end rod 114, and the rotating shaft of the motor 32 penetrates through the bearing fixing seat 115 of the tail end rod 114 to be connected with the bearing fixing seat 115, and the motor 32 provides a power torque, so as to realize the overturning of the rotating overturning device 1, wherein the range of the overturning angle is as follows: 0 to 180 degrees. The rotary turnover device 1 can rotate left or right by 0-180 degrees and returns according to the original path after rotating.

Further, the bed board 123 in the supine position includes: a first bed board 1231 in a supine position and a second bed board 1232 in a supine position; the opposite ends of the first supine position bed plate 1231 are respectively provided with a bed plate bearing rotor 5; two opposite ends of the second supine position bed plate 1232 are respectively provided with a bed plate bearing rotor 5; the prone position bed plate 124 includes: a first prone position bed plate 1241 and a second prone position bed plate 1242; two opposite ends of the first prone position bed plate 1241 are respectively provided with a bed plate bearing rotor 5; two opposite ends of the second prone position bed plate 1242 are respectively provided with a bed plate bearing rotor 5.

Specifically, the width dimension of the prone bed plate 124 (i.e. the width dimension after the first prone bed plate 1241 and the second prone bed plate 1242 are spliced) is smaller than the width dimension of the supine bed plate 123 (i.e. the width dimension after the first supine bed plate 1231 and the second supine bed plate 1232 are spliced). The specific values of the width dimension of the prone position bed plate 124 and the width dimension of the supine position bed plate 123 are determined according to actual conditions.

Preferably, the width of the prone position bed plate 124 is: 58 cm-60 cm; the width dimension of the supine position bed plate 123 is: 90 cm-100 cm.

Further, the top end orbit rotating disk 121 and the tail end orbit rotating disk 122 are both provided with a rectangular orbit 6; the rectangular rail 6 includes: a vertical rail and a horizontal rail; the vertical rail includes: a first vertical rail 61 and a second vertical rail 63; the horizontal rail includes: a first horizontal rail 62 and a second horizontal rail 64; one end of the first vertical rail 61 is connected to one end of the first horizontal rail 62, the other end of the first vertical rail 61 is connected to one end of the second horizontal rail 64, one end of the second vertical rail 63 is connected to the other end of the first horizontal rail 62, and the other end of the second vertical rail 63 is connected to the other end of the second horizontal rail 64, thereby constituting the rectangular rail 6; the bed plate bearing rotor 5 is arranged in the rectangular track 6 and slides along the rectangular track 6.

Further, the rectangular rail 6 further includes a corner rail, one end of the first vertical rail 61 is connected to one end of the first horizontal rail 62 through the corner rail, the other end of the first vertical rail 61 is connected to one end of the second horizontal rail 64 through the corner rail, one end of the second vertical rail 63 is connected to the other end of the first horizontal rail 62 through the corner rail, and the other end of the second vertical rail 63 is connected to the other end of the second horizontal rail 64 through the corner rail.

Furthermore, the corner track is of a fan-shaped structure, and the central angle of the fan-shaped structure is 90 degrees.

Further, a rack or gear chain transmission system is arranged in the rectangular track 6, a bed plate bearing rotor 5 is provided with a servo motor, and the bed plate in the supine position and the bed plate in the prone position move in opposite directions and move in the opposite directions through the driving of the motor. Wherein, the opposite movement is as follows: the bed board in the supine position and the bed board in the prone position move to the state when the rotary turnover device 1 needs to be turned over. The back-to-back movement is: the bed board in the supine position and the bed board in the prone position move to the state when the rotary turnover device 1 does not need to be turned over.

Further, the width of the vertical track is larger than that of the horizontal track; a plurality of elastic sliding balls are respectively arranged on two inner side surfaces of the vertical track.

Specifically, the arrangement that the width of the vertical track is larger than that of the horizontal track facilitates the self-adjusting sliding of the bedplate bearing rotor 5 in the rectangular track 6.

Furthermore, the sliding balls on the two inner side surfaces are arranged asymmetrically.

Specifically, when the bed plate bearing rotor 5 slides in the vertical track, the sliding balls pressed by the bed plate bearing rotor 5 contract inwards, a plurality of sliding balls are respectively arranged on two inner side surfaces of the vertical track, the sliding balls on the two side surfaces are asymmetric, and the bed plate bearing rotor 5 on the vertical track is fixed.

Further, a prone position arm support 7 is arranged on one side of the first prone position bed plate 1241 away from the second prone position bed plate 1242; one side of the second prone position bed plate 1242 far from the first prone position bed plate 1241 is provided with a prone position arm support 7.

Specifically, when the bed plate bearing rotor 5 of the prone position bed plate is located in the first horizontal rail 62, the height of the prone position arm support 7 is lower than that of the first prone position bed plate 1241 or the second prone position bed plate 1242, and the prone position arm support 7 and the first prone position bed plate 1241 or the second prone position bed plate 1242 form a step structure. The width of the arm support 7 in the prone position is determined according to actual conditions, and the width is preferably 15 cm-21 cm in the application. The height difference between the prone position arm support 7 and the first prone position bed plate 1241 or the second prone position bed plate 1242 is determined according to actual conditions, and the preferred range of the height difference is 10 cm.

Further, a first groove is formed in one side, away from the prone position arm support 7, of the first prone position bed plate 1241, and the first groove is close to the top end rail rotating disc 121; one side of the second prone position bed plate 1242 far away from the prone position arm support 7 is provided with a second groove, the second groove is close to the top end rail rotating disc 121, and the first groove and the second groove are spliced to form a shelving hole for shelving the head.

Further, as an embodiment, the bed board 12 of the turn-over bed further comprises a plurality of wide woven belts 8; a plurality of wide woven belts 8 are arranged on one side of the first supine position bed plate 1231 and one side of the second supine position bed plate 1232, and after the first supine position bed plate 1231 and the second supine position bed plate 1232 are spliced, the wide woven belts 8 are respectively arranged on one side of the first supine position bed plate 1231 far away from the splicing position and one side of the second supine position bed plate 1232 far away from the splicing position; one side of the first prone position bed plate 1241, which is provided with the prone position arm support 7, and one side of the second prone position bed plate 1242, which is provided with the prone position arm support 7, are both provided with a plurality of wide woven belts 8.

Specifically, the specific data of the wide webbing 8 is determined according to actual conditions; the application preferably has four wide webbing 8 on one side, with the four wide webbing 8 being evenly spaced. The prone position bed board 124 and the supine position bed board 123 are connected through a wide woven tape 8 and play a role in fixing the human body.

Further, as another embodiment, the bed plate 12 of the turn-over bed further comprises a plurality of wide woven belts 8; both sides of the first supine position bed plate 1231 and both sides of the second supine position bed plate 1232 are provided with a plurality of wide woven belts 8; both sides of the first prone position bed board 1241 and both sides of the second prone position bed board 1242 are provided with a plurality of wide woven belts 8.

Specifically, the specific data of the wide webbing 8 is determined according to actual conditions; the application preferably has four wide webbing 8 on one side, with the four wide webbing 8 being evenly spaced. The both sides of first supine position bed board 1231, the both sides of second supine position bed board 1232, the both sides of first prone position bed board 1241 and second prone position bed board 1242 both sides all evenly are provided with 4 wide meshbelt 8 on every side. The prone position bed board 124 and the supine position bed board 123 are connected through a wide woven belt 8 and play a role in fixing a human body; the first supine position bed board 1231 and the second supine position bed board 1232 and the first prone position bed board 1241 and the second prone position bed board 1242 are connected through the wide woven belts 8 respectively, and the bed boards are fixed.

As shown in fig. 2, as an embodiment, when the rotary turnover device 1 is in a state that it is not required to turn over, the bed plate bearing rotor 5 of the first prone position bed plate 1241 is located in the first horizontal rail 62 near one side of the first vertical rail 61, the bed plate bearing rotor 5 of the second prone position bed plate 1242 is located in the first horizontal rail 62 near one side of the second vertical rail 63, and the first slot of the first prone position bed plate 1241 and the second slot of the second prone position bed plate 1242 are spliced to form a placement hole; a bed plate bearing rotor 5 of the first supine position bed plate 1231 is positioned in the first vertical track 61 and is spliced with a prone position arm support 7 of the first prone position bed plate 1241; the bed plate bearing rotor 5 of the second supine position bed plate 1232 is located in the second vertical track 63 and is spliced with the prone position arm support 7 of the second prone position bed plate 1242. In this state, the first and second bed panels 1231 and 1232 have a guardrail function.

As shown in fig. 3, as another embodiment, when the rotary turnover device 1 is in a state of needing to be turned over, the bed plate bearing rotor 5 of the first prone position bed plate 1241 is located in the first horizontal rail 62 near one side of the first vertical rail 61, the bed plate bearing rotor 5 of the second prone position bed plate 1242 is located in the first horizontal rail 62 near one side of the second vertical rail 63, and the first slot of the first prone position bed plate 1241 and the second slot of the second prone position bed plate 1242 are spliced to form a placement hole; the bed board bearing rotor 5 of first supine position bed board 1231 slides to the second horizontal track 64 along rectangular track 6 in, the bed board bearing rotor 5 of second supine position bed board 1232 slides to the second horizontal track 64 along rectangular track 6 in, and first supine position bed board 1231 and the amalgamation of second supine position bed board 1232, constitute the rectangle space that is used for placing the human body after the amalgamation, place the human body after, human back is hugged closely in prone position bed board 124, human prothorax is hugged closely in supine position bed board 123, human arm is placed on prone position arm holds in the palm 7, connect through wide meshbelt 8 between prone position bed board 124 and the supine position bed board 123, and play the fixed action to the human body.

Further, when the motor 32 drives the rotary turn-over device 1 to rotate 180 degrees, the second horizontal rail 64 is located below the first horizontal rail 62, the prone-position bed plate 124 is converted from the original bearing plate to the covering plate, and the supine-position bed plate 123 is converted from the original covering plate to the bearing plate. When the rotary turnover device 1 is fixed at the angle and does not need to rotate, the first prone position bed plate 1241 of the prone position bed plate 124 slides to the first vertical rail 61, the second prone position bed plate 1242 slides to the second vertical rail 63, the prone position arm support 7 is connected to the first supine position bed plate 1231 or the second supine position bed plate 1232 in a straddling mode, and the first prone position bed plate 1241 and the second prone position bed plate 1242 in the state have a guardrail function.

Furthermore, when the rotating turnover device 1 is in a state of needing to be turned over, a protective cushion is arranged in advance at the front part and/or the rear part of the human body according to the requirement of finishing the horizontal position by turning over at present so as to prevent the body from pressing sores. Wherein, the protection pad includes: a supine position mattress, a prone position functional mattress and a prone position mattress.

Further, the base 2 of the turn-over bed comprises: a six-degree-of-freedom platform system 21, a base 22 and a plurality of universal wheels 23; the six-degree-of-freedom platform system 21 is arranged on the base 22 and is connected with the turning bed frame 11; a plurality of universal wheels 23 are provided at the bottom of the base.

Specifically, as an embodiment, the turning bed frame 11 is connected with the six-degree-of-freedom platform system 21 through the connecting screw 9. The six-degree-of-freedom platform system 21 is an existing functional product, and the working principle of the six-degree-of-freedom platform system 21 is as follows: the six-freedom-degree platform system 21 comprises six electric rods, an upper universal hinge, a lower universal hinge, an upper platform and a lower platform, wherein the lower platform is fixed on the base, and the upper platform completes the motion of the upper platform in six spatial degrees of freedom (X, Y, Z, alpha, beta and gamma) by means of the telescopic motion of the six electric rods, so that various spatial motion postures and spatial positioning are simulated, the overall lifting, the left/right inclination, the lifting of a bed head/a bed tail and various spatial posture functional position actions clinically required by the rotary turnover device 1 are completed, and the omnibearing and multi-angle full-alveolar refolding and airway opening drainage are realized. Wherein, the universal wheel 23 is connected with the base 22 through the universal wheel fixing nut 10. The number of the universal wheels 23 is determined according to actual conditions, and the number of the universal wheels 23 is preferably 4 in the present application.

Further, the universal wheel 23 is a universal wheel with a brake.

Concretely, the full-automatic bed of standing up of ventilating in multi-angle prone position removes through the universal wheel of taking the brake, fixes through the brake of universal wheel 23 after removing to suitable position, and this setting is convenient for the full-automatic bed of standing up of ventilating in multi-angle prone position carries out long distance's removal.

Further, the top end orbit rotating disc 121 is provided with an airway tube window 1211 and an ECMO (Extracorporeal Membrane Oxygenation) tube window 1212, so that under the condition that the whole rotating body-turning device 1 is turned over by 180 degrees, temporary tube drawing/sealing is not needed, only the tube outside the bed body is crossed, but general clinical application is not affected.

Furthermore, a 360-degree rotary bearing pipe ring is arranged on the top end orbit rotary disc 121, so that temporary pipe drawing/pipe sealing is not needed under the condition that the rotary turnover device 1 is turned over for 180 degrees integrally, and the phenomenon of crossing of pipelines outside the bed body is avoided.

The beneficial effect that this application realized is as follows:

(1) the full-automatic bed of standing up of ventilating of multi-angle prone position of this application presss from both sides tightly fixedly to the human body through double-deck bed board, and the rotatory turning-over device of automatic control rotates, has realized standing up patient's normal position, and the angle of standing up targets in place once, and extremely little technological effect to state of an illness physiology interference.

(2) After the multi-angle prone position ventilation full-automatic turning-over bed completes turning over, the original bed board becomes the bedside sideboard, and the shape and the function of the existing sickbed are maintained.

(4) The multi-angle prone position ventilation full-automatic body turning bed has the effect that a tube is not required to be temporarily sealed and pulled in the body turning process.

(4) The multi-angle prone position ventilation full-automatic body turning bed utilizes the function of a six-degree-of-freedom platform system to realize lifting, left/right inclination multi-posture six-direction space positioning of a rotating body turning device, and multi-angle and all-around realization of full lung re-opening airway open drainage.

(5) The multi-angle prone position ventilation full-automatic body turning bed realizes body turning through full-automatic operation, and the whole body turning process can be easily completed by only 1 person, so that the workload can be effectively reduced.

(6) The utility model provides a full-automatic bed of standing up of multi-angle prone position ventilation is ICU serious illness room, breathing and critical illness discipline's important rescue equipment, and application scope is wide, for example: is suitable for the turning-over treatment of the burn patients; is suitable for treating moderate and severe Acute Respiratory Distress Syndrome (ARDS) for long-time prone position ventilation; mechanically ventilated patients who still cannot reduce the oxygen inhalation solubility to below 60% on the basis of active lung refolding and proper PEEP; patients with difficult airway drainage, incomplete pulmonary alveolar renaturation, bronchiectasis, lung abscess and the like; refractory hypoxemia can not be corrected by conventional mechanical ventilation; conventional prone position adjustment after fundus retinal surgery.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, the scope of protection of the present application is intended to be interpreted to include the preferred embodiments and all variations and modifications that fall within the scope of the present application. It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (10)

1. The utility model provides a full-automatic bed of standing up of ventilating of multi-angle prone position which characterized in that includes: a rotary turnover device, a turnover bed base and a control device;

the rotary turnover device comprises: a turnover bed frame and a turnover bed plate;

the bed frame of the turning-over bed is arranged on the base of the turning-over bed;

the bed board of the turn-over bed comprises: a top end track rotating disc, a tail end track rotating disc, a supine position bed board and a prone position bed board;

the top end track rotating disc is arranged on the inner side of the top end of the turning bed frame; the tail end track rotating disc is arranged on the inner side of the tail end of the turning bed frame;

one end of the supine position bed plate is connected with the top end track rotating disc in a sliding mode, and the other end of the supine position bed plate is connected with the tail end track rotating disc in a sliding mode;

one end of the prone position bed plate is connected with the top end track rotating disc in a sliding mode, and the other end of the prone position bed plate is connected with the tail end track rotating disc in a sliding mode;

the control device includes: a control panel and a motor;

the control panel is arranged on the outer side of the tail end of the turning bed frame and is connected with the tail end track rotating disc through a motor; the control device is also connected with the base of the turning-over bed.

2. The multi-angle prone position ventilation full-automatic turn-over bed as claimed in claim 1, wherein the supine position bed board comprises: a first supine position bed board and a second supine position bed board; two opposite ends of the first supine position bed plate are respectively provided with a bed plate bearing rotor; two opposite ends of the second supine position bed plate are respectively provided with a bed plate bearing rotor; the prone position bed board includes: a first prone position bed plate and a second prone position bed plate; two opposite ends of the first prone position bed plate are respectively provided with a bed plate bearing rotor; and two opposite ends of the second prone position bed plate are respectively provided with a bed plate bearing rotor.

3. The multi-angle prone position ventilation full-automatic turn-over bed as claimed in claim 2, wherein the top end rail rotating disc and the tail end rail rotating disc are both provided with rectangular rails; the rectangular rail includes: a vertical rail and a horizontal rail, the vertical rail comprising: a first vertical rail and a second vertical rail; the horizontal rail includes: a first horizontal rail and a second horizontal rail; one end of the first vertical rail is connected with one end of the first horizontal rail, the other end of the first vertical rail is connected with one end of the second horizontal rail, one end of the second vertical rail is connected with the other end of the first horizontal rail, and the other end of the second vertical rail is connected with the other end of the second horizontal rail, so that a rectangular rail is formed; the bed plate bearing rotor is arranged in the rectangular track and slides along the rectangular track.

4. The multi-angle prone position ventilation full-automatic turn-over bed as claimed in claim 3, wherein the width of the vertical rail is greater than that of the horizontal rail; and a plurality of elastic sliding beads are respectively arranged on two inner side surfaces of the vertical track.

5. The multi-angle prone position ventilation full-automatic turn-over bed as claimed in claim 4, wherein the sliding beads on the two inner side surfaces are arranged asymmetrically.

6. The multi-angle prone position ventilation full-automatic turn-over bed as claimed in claim 2, wherein a prone position arm support is arranged on one side of the first prone position bed plate away from the second prone position bed plate; one side of the second prone position bed plate, which is far away from the first prone position bed plate, is provided with a prone position arm support.

7. The multi-angle prone position ventilation full-automatic turn-over bed as claimed in claim 6, wherein a first groove is arranged on one side of the first prone position bed plate far away from the prone position arm support, and the first groove is close to the top end rail rotating disc; one side of the second prone position bed plate, which is far away from the prone position arm support, is provided with a second groove, the second groove is close to the top end track rotating disc, and the first groove and the second groove are spliced to form a shelving hole for shelving the head.

8. The multi-angle prone position ventilation full-automatic turn-over bed as claimed in claim 2, wherein the turn-over bed plate further comprises a plurality of wide woven belts; a plurality of wide woven belts are arranged on both sides of the first supine position bed board and both sides of the second supine position bed board; and a plurality of wide woven belts are arranged on both sides of the first prone position bed plate and both sides of the second prone position bed plate.

9. The multi-angle prone position ventilation full-automatic turn-over bed as claimed in claim 1, wherein the turn-over bed base comprises: the six-degree-of-freedom platform system comprises a six-degree-of-freedom platform system, a base and a plurality of universal wheels; the six-degree-of-freedom platform system is arranged on the base and is connected with the turning bed frame; the universal wheels are arranged at the bottom of the base.

10. The multi-angle prone position ventilation full-automatic turn-over bed as claimed in claim 1, wherein the top end rail rotating disc is provided with an air passage pipeline window and an ECMO pipeline window.

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