DE3703441A1 - Respiration hose suspension equipment - comprises three guide bars at set angles with hose clips - Google Patents

Abstract

The suspension equipment is for respiration hose and monitoring systems, particularly in incubators. It comprises three guide bars (1,2,3), each with a holding clip (20) for the hose, one of them being fixed to a suspension bar with coupling ball (4) and lugs for clips at roughly 30 deg. angle. The other two are joined at the ends at a set angle and detachably. The hose is so arranged that it runs from a high point roughly at the incubator roof level and with a steady downward gradient to the respirator head with automatic condensate eliminator, and also to a respiration gas humidifier so as to remove the condensate. The hoses and head can be slewed inside the incubator in the horizontal plane. USE - Particularly for artificial respiration or premature and newborn babies.

Description

Due to medical advances, especially in recent years could survive even very small premature babies be significantly improved. Optimal artificial ventilation possibly over weeks, plays a crucial role in this. Despite significant advances in ventilation technology unfortunately, many practical problems are still insufficient triggers such. B. also the suspension of the ventilation hose systems when performing artificial ventilation in the incubator. Detailed problems solved unsatisfactorily are:

• 1. The production of strain-relieved hose connections of ventilation machine, humidifier and patient (= avoid of deconnections, pressure points and extubations in the patient).
• 2. The optimal local adaptation of the ventilation hose guidance to changing positions of the patient z. B. after bronchial toilet in a few easy steps.
• 3. The creation of a safe drainage of condensed water from the most varied tube sections of ventilation systems in designated water traps (collection devices).
• 4. Avoiding sagging of flexible ventilation hoses with local condensation accumulation (= uncon controlled ventilation pressure losses with resulting dangerous under-ventilation of the patient).
• 5. Avoiding condensation aspiration (inhalation condensation can lead to life-threatening ignitions).  
• 6. The quick, safe, clear and hygienic Arrangement of a breathing circuit with monitoring system for artificial ventilation of a patient in the Incubator.

Thereafter, the task described below arises Invention of these listed detailed problems that arise especially with artificial respiration for premature babies and newborns surrender born in the incubator to solve.

This object is achieved by the in the characterizing ning part of claim 1 contained features solved. Further advantageous embodiments are in the sub claims specified.

Here, the breathing circuit and monitoring system (spirometric parameters and temperature of the breath gases) by a suspension device in the manner brings that the detailed problems mentioned 1-6 and others as described below.

Technical description of an embodiment

Fig. 1 shows the holding device in side view, with as by || indicated, abbreviated parts 2, 12 and 3 . The joints and part ( 1 ), which can be locked by knurled screws ( 8, 15 ), are also shown enlarged.

Fig. 2 shows the holding device in supervision. The parts 2, 12 and 3 are shown as shortened in Fig. 1.

Fig. 3 shows a retaining clip for the breathing tube system and breathing monitoring system in supervision.

Fig. 4 shows the holding device for ventilation hose systems and monitoring systems mounted on the holding arm ready to receive the ventilation hose system for artificial ventilation in the incubator.

Fig. 5 shows the holding device schematically in operation with artificial ventilation of a premature baby in the incubator.

The holding device for ventilation hose systems exists from three parts.

Part ( 1 ) represents a vertically arranged rectangular profile rod, which carries at its upper end a suspension ball ( 4 ) for articulated connection with a known articulated arm ( 5 ) which is connected to a wall rail ( 6 ) of the intensive care unit via a holding clip . In the lower third part ( 1 ) has a hole with thread ( 7 ). The knurled screw ( 8 ) is inserted through a hole arranged in the end in part ( 2 ) and screwed into the thread ( 7 ). This knurled screw connects part ( 1 ) and part ( 3 ) articulated and lockable. In addition, a fixed angular position between part ( 1 ) and part ( 3 ) can be set when the cam ( 10 ) of part ( 3 ) snaps into the hole of the plate ( 11 ) firmly connected to part ( 1 ). The hole ( 9 ) made at the lowest end of part ( 1 ) serves as a suspension eye, for example for a bronchial secretion collection container. For a connection with part ( 2 ) part ( 1 ) continues to form an angle of about 30 degrees in a profile bar ( 12 ), which ends in a widened end piece ( 13 ) with the rectangular profile bar ( 12 ) Forms an angle of approximately 100 degrees (see FIG. 1). For articulated connection with part ( 2 ), the end piece ( 13 ) has a threaded bore ( 14 ) into which the knurled screw ( 15 ), the widened end piece ( 16 ) of part ( 2 ) and a toothed lock washer ( 17 ) penetrated, screwed. To prevent loss, the knurled screw ( 15 ) is still secured by a spring washer ( 18 ).

The part ( 2 ) can be pivoted horizontally laterally to the right and left by loosening the knurled screw ( 15 ) according to the changing positioning needs of the respiratory patient. To attach the ventilation hose and monitoring system, the retaining clips ( 19 ) are provided with recesses for breathing tubes ( 20 ), measuring tubes and measuring cables ( 21 ), suction tubes ( 22 ) and a recess ( 23 ) for snapping onto the rectangular profile rails of the parts ( 12, 2, 3 ) and the right corner holes ( 24 ) of the two tabs ( 25, 26 ) firmly connected to part ( 1 ).

Functional description

Fig. 4 shows the holding device with its holding ball ( 4 ) freely movable in all directions attached to a known th articulated arm ( 5 ) which is attached to an intensive wall rail ( 6 ) with a claw. In addition to this advantageous mobility of this ball joint suspension, which can be determined, the holding device itself has 2 further joints that can be fixed with the knurled screws ( 15 and 8 ). After loosening the knurled screw ( 15 ), the holding arm can be seen in Fig. 5 for the ventilation tubes ( 33, 36 ) and the ventilation head ( 34 ), to which the patient is connected via an adapter and tracheal tube when moving from right to back position to the left , e.g. B. as part of the bronchial toilet, as indicated by arrows in the horizontal pivot and thus optimally adapt these requirements. By the knurled screw ( 8 ) lockable joint of the holding arm ( 3 ) allows this to adjust in its inclination so that a sufficient slope in the hose ( 32 ) in the direction of breathing gas humidifier (A , 31 ) arises for a safe drainage of the condensed water into the humidifier ( 31 ).

Fig. 5 illustrates schematically the advantageous, only made possible by the holding device guidance of the breathing tubes. The respiratory gas emitted by the respirator ( 29 ) flows through a corrugated hose ( 30 ) to the breathing gas humidifier ( 31 ) that is as deep as possible on an intensive wall rail. This humidifies and heats the dry breathing gas, which then continues via the hose ( 32 ) (through a conventional incubator opening ( 28 ) and the hose ( 33 ) to the ventilation head ( 34 ) with connected ventilation tube. The warm and moist exhaled air reaches the Exhalation phase via the ventilation head ( 34 ) and the tubes ( 36, 37 and 38 ) to the exhalation valve of the respirator (R , 29 ).

Since the warm, humid breathing gas cools down in the hoses, condensed water precipitates out there. Condensate from the hose ( 32 ) runs back to the heavier moisture ( 31 ). The condensate from the hoses ( 33 and 36 ) can flow through the suspension device due to the breathing tubes with a steady downward gradient to the special ventilation head ( 34 ), where it is automatically ejected into a container via a plugged-in probe ( 35 ). The condensate accumulating in the hoses ( 37 and 38 ) can flow into the water trap ( 39 ).

As shown by the hanging device Solved detailed problems 1-5. Because the stops  device both quickly and effortlessly into the incubator recommended how it can be removed as well themselves, the ventilation hose systems and possibly on the hose system attached sensors with their measuring tubes and Measuring cables outside the incubator (here with a smaller one Workload) quick and hygienically safe pre-assembly In addition to Problem 6, there are also further Problem solved.

Claims (6)

1. Hanging device for respiratory hose systems and breathing monitoring systems with particular suitability for incubators, characterized in that the hanging device consists of three breathing hose guide rods provided with retaining clips, the one guide rod being fixed at an angle of approximately 30 degrees with a hanging rod with holding ball and tabs is connected for holding clips and the other two respiratory tube guide rods are connected at their ends to form a certain angle or can be detachably connected and thereby the breathing tubes are arranged in such a way that they are from a spatially highest point outside the incubator, for example at the top of the roof, especially with a steady gradient, firstly in the direction of the ventilation head with automatic condensate elimination (which is located in the incubator) and secondly in the direction of the respiratory gas humidifier for safe condensate removal and that the ventilation tubes and the ventilation head continue to run in the incubate or can be pivoted in a horizontal plane. 2. Suspension device for ventilation hose systems and Breath monitoring systems particularly suitable for Incubators, characterized in that the on hanger rod carrying hose guide rod with the Command staff holding the ventilation head and tubing in the incubator has a fixed angle in the range of Forms 90-120 degrees.   3. Suspension device for ventilation hose systems and Breath monitoring systems particularly suitable for Incubators according to claim 1 and 2, characterized net that the respiratory head in the incubator Guide bar in the horizontal direction (to the right and left) pivoted from the outside with the help of tabs and with the help of a knurled screw in its position can be fixed. 4. Suspension device for ventilation hose systems and Breath monitoring systems particularly suitable for Incubators according to claim 1, characterized in that the hose guide carrying the suspension rod rod with the guide rod pointing towards the humidifier a freely adjustable one with a knurled screw fixable angle can form or the setting a standard angle, when a cam is engaged. 5. hose guide rods according to claim 1-4, characterized records that it has a rectangular cross-section point, which snaps the retaining clips and their rotationally secure fixation enables. 6. Holding clip according to claim 1 and 5, characterized records that they are next to circular cutouts different diameters for fastening cables and hoses a rectangular cutout with wedge shaped incision to snap onto the rectangle has profile bars.