CN201299768Y - Dual-purpose manual respiration bed - Google Patents

Abstract

Disclosed is a mechanical ventilation device for curing patients with respiratory failure, which relates to a dual-purpose manual respiration bed. The up-and-down movement of a subabdominal splint with a gasbag synchronous with respiration supports and presses the suspended abdominal part, or shifts and moves the bed body in the meanwhile under the driving of a power motor controlled by respiration sensor signals or electric signals of fixed frequency, so a patient lying prostrate or on the back in the bed can produce the effect similar to large mouth deep belly breathing, and can be cured.

Description

Dual-purpose artificial respiration's bed

Affiliated technical field

This utility model is a kind of non-damage mechanical ventilation equipment that the patient of dyspnea, respiratory distress syndrome (ARDS) and acute respiratory failure is implemented to give treatment to.

Background technology

At present, use maximum non-damage mechanical ventilation equipment for using the positive pressure respirator of high pressure face shield Give oxygen clinically.But there is certain limitation in the face shield positive airway pressure, makes the part patient because of the acceptance of discomfort refusal except face shield air-flow and breathing are at loggerheads, and also has a lot of other drawbacks.As owing to need higher airway pressure just can keep effective ventilation, some face type changes face shield and is difficult to airtightly, influences airway secretions or sputum attraction etc.In addition, serious local compression damage can cause facial rotten to the corn, and malleation enters upper digestive tract and causes serious flatulence, and pressure causes pain by pharyngotympanic tube compressing tympanum, also can influence proceeding of face shield ventilation.The most serious is very easily causes respirator dependency pneumonia and follows the depletion of a plurality of internal organs for the old people, causes death.The child uses the problem of positive pressure respirator more, and respirator and patient respiration are asynchronous, and gas leakage, pneumorrhagia, blood circulation and complication such as nervous system and chronic lung disease easily take place.

Summary of the invention

In order to overcome and solve many disadvantages of the high pressure ventilation artificial respirator existence of using at present, this utility model provides a kind of novel non-damage mechanical ventilation equipment.

The technical scheme that this utility model adopted is: (1) is used the unsettled oblique prone position patient of abdominal part and is breathed the synchronous upwards method of backing pressure abdominal part, the abdominal pressure of phase when increase exhaling, make upward displacement of diaphragm, improve intrathoracic pressure, discharge residual gas in the lung, improve the tidal volume of breathing; (2) use and breathe the synchronous shift bed body angle and the method for moving bed body, make diaphragm be subjected to the compound pulling function of gravity and inertia force, increase the motion amplitude of tabula, improve the tidal volume of breathing; (3) above two kinds of methods can act on diaphragm simultaneously, make the diaphragm displacement to greatest extent to reach, increase tidal volume.Concrete technical scheme is: a bed body lie prostrate with and lie on the back and use two covers.There is outstanding gastropore the abdominal part position of lying prostrate with the bed body, and there are abdomen bottom plate and capsule pad in outstanding gastropore position.The respiration pickup signal is by the control power motor, with breathe synchronous driving abdomen bottom plate to unsettled abdominal part uninterruptedly, repeatedly up impose backing pressure, change Intraabdominal pressure; Simultaneously, and breathe synchronous bed a body translation-angle and the displacement of making, change the gravity and the inertia force that act on diaphragm.The Intraabdominal pressure of change, the gravity that acts on diaphragm and inertia force by synchronous with breathing, the motion amplitude that drives, increases diaphragm increases tidal volume.

The beneficial effects of the utility model are: change over and use artificial respirator to press all adverse consequencess of hammering in high pressure gas and causing toward interior the giving birth to of lung, make the artificial respiration more approach physiological abdomen formula deep breathing process.Be actually positive utilization human body at special posture to the favourable influence factor of abdominal respiration function and optimum organization by external force, the patient who tiltedly lies prostrate on artificial respiration's bed is produced carries out the significantly deep breathing effect of abdomen formula.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples.

Fig. 1-the 1st, the sketch map of this utility model first embodiment when exhaling beginning.

Fig. 1-2 is the sketch map of this utility model first embodiment when air-breathing beginning.

Fig. 2 is I-I cutaway view B and the A of Fig. 1-1 and 1-2.

Fig. 3 is the sketch map of this utility model second embodiment when exhaling beginning.

Fig. 4 is the sketch map of this utility model the 3rd embodiment when exhaling beginning.

Fig. 5 is the sketch map of this utility model the 4th embodiment when exhaling beginning.

Fig. 6 is the sketch map of this utility model the 5th embodiment when exhaling beginning.

Fig. 7 is the sketch map of this utility model the 6th embodiment when exhaling beginning.

Fig. 8-the 1st, the sketch map of this utility model the 7th embodiment when exhaling beginning.

Fig. 8-the 2nd, the sketch map of this utility model the 7th embodiment when air-breathing beginning.

Fig. 9 is I-I cutaway view B and the A of Fig. 8-1 and 8-2.

Figure 10 is the sketch map of this utility model the 8th embodiment when exhaling beginning.

Figure 11 is the sketch map of this utility model the 9th embodiment when exhaling beginning.

Figure 12 is the sketch map of this utility model the tenth embodiment when exhaling beginning.

Figure 13 is the sketch map of this utility model the 11 embodiment when exhaling beginning.

Figure 14 is the sketch map of this utility model the 12 embodiment when exhaling beginning.

Figure 15-the 1st, the sketch map of this utility model the 13 embodiment when exhaling beginning.

Figure 15-the 2nd, the sketch map of this utility model the 13 embodiment when air-breathing beginning.

Figure 16 is I-I cutaway view B and the A of Figure 15-1 and 15-2.

Figure 17 is the sketch map of this utility model the 14 embodiment when exhaling beginning.

Figure 18 is the sketch map of this utility model the 15 embodiment when exhaling beginning.

Figure 19 is the sketch map of this utility model the 16 embodiment when exhaling beginning.

Figure 20 is the sketch map of this utility model the 17 embodiment when exhaling beginning.

Figure 21 is the sketch map of this utility model the 18 embodiment when exhaling beginning.

Figure 22 is the sketch map of this utility model the 19 embodiment when exhaling beginning.

Figure 23 is the sketch map of this utility model the 20 embodiment when exhaling beginning.

Figure 24-the 1st, the sketch map of this utility model the 21 embodiment when exhaling beginning.

Figure 24-the 2nd, the sketch map of this utility model the 21 embodiment when air-breathing beginning.

Figure 25-the 1st, the sketch map of this utility model the 22 embodiment when exhaling beginning.

Figure 25-the 2nd, the sketch map of this utility model the 22 embodiment when air-breathing beginning.

1. bodies among the figure, 2. outstanding gastropore, 3. a body shank section of a body, 4. rest the head on formula air bag, 5. abdomen bottom plate, 6. organ case air bag, 7. circuit control box, 8. power motor rotating shaft, 9. a body support bar, 10. support bar fixed muffle, 11. orthodromes, 12. pressure transducers, 13. electronic support roller, 14. electronic carriage castors, 15. base holder rails, 16. the support bar castor, 17. support roller support bars, 18. enclose saccus abdominalis, 19. the power drive wheel, 20. drive rods, 21. slide blocks, 22. the slide block slide rail, 23. power levers, 24. lever fulcrum shafts, 25. the counterweight stone roller, 26. sliding sleeves, 27. circular arcs pushing wheel, 28. the spacing rope in back, 29. front limit ropes, 30. power transmission chains, 31. runner, 32. the driving wheel fixed bar, 33. body buttocks and legs sections, 34. connecting rods.

The specific embodiment

First embodiment (Fig. 1-1 and 1-2): the stage casing of the body (1) of lying prostrate has a body to hang gastropore (2), has abdomen bottom plate (5) to be connected to power motor rotating shaft (8) under it, and the shank section (3) of bed body can prevent that the health of tiltedly lying prostrate from gliding.Bed body (1) is installed on the body support bar (9), is fixed on the orthodrome (11) by support bar fixed muffle (10).Be subjected to the power motor of respiration pickup signal controlling to drive abdomen bottom plate (5) downward bed body that breaks away from when air-breathing, make abdominal part unsettled (B of Fig. 2); Abdomen bottom plate (5) upwards resets, passes through organ case air bag (6) to pop-up, pressure abdominal part (A of Fig. 2) during expiration.Pressure transducer (12) control is arranged in the air bag, regulate intracapsular pressure.Simultaneously, orthodrome (11) is subjected to the driving of electronic support roller (13) to make a body change into certain angle when air-breathing; Change flat during expiration.Under Electric Machine Control the rotation of electronic carriage castor (14) make a body support frame when air-breathing translation to sufficient side; Translation cephalad during expiration.Regulate the length of bed body support bar (9), a body (1) is rotated on the level of distance center of circle different distance.

Second embodiment (Fig. 3): the first embodiment bed body (1) and the orthodrome under it (11) with organ case air bag (6) directly drop on the base holder rail (15).Under the driving of the power motor of respiration pickup signal controlling, circular arc pushing wheel (27) comes and goes translation, promotes a bed body orthodrome (11) and comes and goes and roll, and makes a body (1) roll cephalad when exhaling and changes flat; Roll to sufficient side when air-breathing and change into certain angle.Front limit rope (29) guarantees that with the spacing rope in back (28) orthodrome can not produce head, foot to displacement when rolling.

The 3rd embodiment (Fig. 4): the first embodiment bed body (1) and the orthodrome under it (11) with organ case air bag (6) directly drop on the base holder rail (15).By the round rotation of the power motor driving wheel (19) of respiration pickup signal controlling, the power transmission chain through being connected to the orthodrome two ends (30) comes and goes a body orthodrome (11) and rolls, and makes a body (1) roll cephalad when exhaling and is level; Roll when air-breathing at an angle to sufficient side.

The 4th embodiment (Fig. 5): the first embodiment bed body (1) with organ case air bag (6) drops on the body support bar (9), is subjected to the power drive wheel (19) of respiration pickup signal controlling by drive rod (20) body (1) side when exhaling to be set level gradually; A side is raised to certain angle when air-breathing.

The 5th embodiment (Fig. 6): the first embodiment bed body (1) with organ case air bag (6) is installed in power lever (23) swing arm end, the power drive wheel (19) that is subjected to the respiration pickup signal controlling acts on the arm of force end of power lever (23) by drive rod (20), and a body (1) side when expiration is set level gradually; A side is raised to certain angle when air-breathing.Move up and down the position of power drive wheel (19) on its fixed bar (32) and the junction point of drive rod (20) and power lever (23) simultaneously, can change an angle that body head side is raised.

The 6th embodiment (Fig. 7): the first embodiment bed body (1) with organ case air bag (6) is installed on the forward and backward bed body support bar (9), and the lower end of sufficient side bed body support bar (9) links to each other with drive rod (20).Be subjected to the control of respiration pickup signal, power motor rotating shaft (8) makes by the turning clockwise of drive rod (20) that sufficient side bed body is raised, a side bed body reduction when exhaling, and the bed body is set level; On the contrary, then power motor rotating shaft (8) rotates counterclockwise when air-breathing, makes a body at an angle.

The 7th embodiment (Fig. 8-1 and 8-2): for replace first embodiment of organ case air bag (6) with pillow formula air bag (4).

The 8th embodiment (Figure 10): for replace second embodiment of organ case air bag (6) with pillow formula air bag (4).

The 9th embodiment (Figure 11): for replace the 3rd embodiment of organ case air bag (6) with pillow formula air bag (4).

The tenth embodiment (Figure 12): for replace the 4th embodiment of organ case air bag (6) with pillow formula air bag (4).

The 11 embodiment (Figure 13): for replace the 5th embodiment of organ case air bag (6) with pillow formula air bag (4).

The 12 embodiment (Figure 14): for to enclose the 6th embodiment that saccus abdominalis (18) replaces organ case air bag (6).

The 13 embodiment (Figure 15-1 and Figure 15-2): for to enclose first embodiment that saccus abdominalis (18) replaces organ case air bag (6).

The 14 embodiment (Figure 17): for to enclose second embodiment that saccus abdominalis (18) replaces organ case air bag (6).

The 15 embodiment (Figure 18): for to enclose the 3rd embodiment that saccus abdominalis (18) replaces organ case air bag (6).

The 16 embodiment (Figure 19): for to enclose the 4th embodiment that saccus abdominalis (18) replaces organ case air bag (6).

The 17 embodiment (Figure 20): for to enclose the 5th embodiment that saccus abdominalis (18) replaces organ case air bag (6).

The 18 embodiment (Figure 21): for to enclose the 6th embodiment that saccus abdominalis (18) replaces organ case air bag (6).

The 19 embodiment (Figure 22): be first embodiment of the body (1) of lying prostrate with the displacement of lie supine bed body.

The 20 embodiment (Figure 23): be the 6th embodiment of the body (1) of lying prostrate with the displacement of lie supine bed body.

The 21 embodiment (Figure 24-1 and Figure 24-2): be to replace the body (1) of lying prostrate, replace second embodiment that (27) are taken turns in the circular arc pushing with the swing of heavily cutting or polish jade with an emery wheel (25) simultaneously with the lie supine bed body.Be subjected to the control of respiration pickup signal, when exhaling beginning, the rotation of power shaft (8) makes heavily stone roller (25) the pendulum cephalad that is positioned at sufficient side, and bed body weight heart cephalad shifts, and gravitate orthodrome (11) rolls cephalad sets level a body (1); Otherwise when air-breathing beginning, power motor rotating shaft (8) rotates counterclockwise, and makes heavily stone roller (25) be flapped toward sufficient side, and orthodrome tilts at an angle a body to sufficient side roll.

The 22 embodiment (Figure 25-1 and Figure 25-2): being with the lie supine bed body displacement body (1) of lying prostrate, is that power moves back and forth a body and changes the 6th embodiment of angle with the heavy swing of stone roller (25) simultaneously.

Above embodiment is faint or when disappearing, the motion of bed body (1) and abdomen bottom plate (5) all is automatically converted to by predefined signal controlling when patient's autonomous respiration.The amplitude that bed body (1) rotates can be regulated between 0～45 degree according to patient's needs; In abdomen bottom plate (5) when motion,, as required by the selected control of circuit control box (7), it is motionless to make a body be fixed on a certain special angle.A lie prostrate body and lie supine bed body can be changed mutually easily.

Claims (10)

1. dual-purpose artificial respiration's bed, comprise a body (1), the outstanding gastropore (2) of bed body, bed body shank section (3), organ case air bag (6), pressure transducer (12), abdomen bottom plate (5), power motor rotating shaft (8), bed body support bar (9), support bar fixed muffle (10), orthodrome (11), electronic support roller (13), electronic carriage castor (14), base holder rail (15), circuit control box (7), it is characterized in that: bed body (1) is installed on the bed body support bar (9) that passes support bar fixed muffle (10), be fixed on the rotating orthodrome (11), orthodrome (11) drops on the electronic support roller (13), electronic carriage castor (14) drops on the base holder rail (15), the respiration pickup signal is controlled electronic support roller (13) by circuit control box (7), electronic carriage castor (14) and power motor rotating shaft (8) realize bed body and abdomen bottom plate and breathe synchronous mechanical action.

2. dual-purpose artificial respiration's bed according to claim 1, it is characterized in that: the orthodrome (11) that bed body (1) has been installed directly drops on the base holder rail (15), the front and back displacement of front limit rope (29) and the spacing rope in back (28) restriction orthodrome, the respiration pickup signal is realized bed body and abdomen bottom plate and is breathed synchronous mechanical movement by circuit control box (7) control circular arc pushing wheel (27) and power motor rotating shaft (8).

3. dual-purpose artificial respiration's bed according to claim 1, it is characterized in that: bed body (1) is installed on the rotating orthodrome (11), orthodrome (11) directly drops on the base holder rail (15), power drive wheel (19) is connected with bed body two ends through drive rod (20), power transmission chain (30), the respiration pickup signal is realized bed body and abdomen bottom plate and is breathed synchronous mechanical movement by circuit control box (7) control power drive wheel (19) and power motor rotating shaft (8).

4. dual-purpose artificial respiration's bed according to claim 1, it is characterized in that: bed body (1) is directly installed on the body support bar (9), and be connected by drive rod (20) with power drive wheel (19) on being fixed on base, the respiration pickup signal is realized bed body and abdomen bottom plate and is breathed synchronous mechanical movement by circuit control box (7) control power drive wheel (19) and power motor rotating shaft (8).

5. dual-purpose artificial respiration's bed according to claim 1, it is characterized in that: bed body (1) is installed in the swing arm end of power lever (23), power drive wheel (19) is linked the arm of force end of power lever (23) through drive rod (20), the respiration pickup signal is realized bed body and abdomen bottom plate and is breathed synchronous mechanical movement by circuit control box (7) control power drive wheel (19) and power motor rotating shaft (8).

6. dual-purpose artificial respiration's bed according to claim 1, it is characterized in that: bed body (1) is installed on the forward and backward bed body support bar (9), the lower end of foot side bed body support bar is connected with the drive rod (20) in the power motor rotating shaft (8), the respiration pickup signal is controlled bedstead and the power motor rotating shaft (8) of bed on the body respectively by circuit control box (7), realizes bed body and abdomen bottom plate and breathes synchronous mechanical movement.

7. according to claim 1 or 2 or 3 or 4 or 5 or 6 described dual-purpose artificial respiration's beds, it is characterized in that: the organ case air bag (6) on bed body (1) the abdomen bottom plate (5) replaces with pillow formula air bag (4) without exception.

8. according to claim 1 or 2 or 3 or 4 or 5 or 6 described dual-purpose artificial respiration's beds, it is characterized in that: the organ case air bag (6) on bed body (1) the abdomen bottom plate (5) replaces with without exception and encloses saccus abdominalis (18).

9. according to claim 1 or 2 or 3 or 4 or 5 or 6 described dual-purpose artificial respiration's beds, it is characterized in that: the body (1) of lying prostrate replaces with lie supine bed body (1) without exception.

10. according to claim 1 or 2 or 3 or 6 described dual-purpose artificial respiration's beds, it is characterized in that: go up power motor rotating shaft (8), drive rod (20), the counterweight stone roller of installing (25) with bed body (1), the respiration pickup signal is by circuit control box (7) control power motor rotating shaft (8), make counterweight stone roller (25) swing, realize the bed body and breathe synchronous mechanical movement.

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