HU197665B - Baby incubator of coolable bell space - Google Patents

Abstract

Incubator device including a cot suitable for holding an infant and openings for output and intake of air as well as a heating body in a ventilation channel and refrigeration means. In the housing of the incubator 10 there are disposed in order to constitute a part of the refrigeration unit: a compressor 11, a condensation unit 12 and a refrigeration fan 13, while refrigeration elements fitted with refrigeration fins 9 are disposed so as to constitute one of the walls of an air pipe or alternatively projecting past these walls. Application to incubators fitted with an adjustable continuous refrigeration device. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a cool incubator infant incubator which allows the incubator incubator incubator temperature to be maintained below ambient temperature without compromising the cleanliness and disinfection of the device.

The airspace of infant care incubators is divided into two functionally separate and interconnected sections of flowing air: the inflatable envelope and the air duct containing the proper microclimate, the heater, the fan, and various other components.

Generally, temperatures higher than the ambient temperature should be achieved in the bath space, however, in some cases, such as when used in non-climatic areas of warm coastal countries, or during certain therapeutic interventions, it may be necessary to achieve lower temperatures. According to the established practice, the cooling of the sail space is solved by ice. For example, the Medicor IKS-22 incubator has a reservoir capable of holding about 4 kg of ice below the duct, whose upper ribbed surface is in contact with the flowing air. In cooling mode, the temperature control electronics are off, but with the air recirculation fan on, a single charge in the sail can maintain a temperature of about 4 ° C below ambient for up to 4 hours. The disadvantage of this solution is obvious: the amount of cooling available is small, not controllable within a given range, and frequent refilling of ice makes treatment difficult. In the same way, the cooling of the burial space is also solved in the US AIR-SHIELD C-86 incubator.

An incubator with a built-in mechanical cooling unit is not manufactured.

It is an object of the present invention to provide an integrated infant incubator with a cooling unit for machine cooling.

This object was achieved by providing an incubator comprising an air duct in an incubator housing, a cover plate with inlet openings covering the duct, a base plate provided with suction openings in the latter, and a suction cup enclosed in a suction cup for holding the baby, a fan housed in a fan housing for maintaining air flow, a heater housing the fan housing, a suction trough including a sensor housing, and wherein the temperature control unit in the incubator housing is partially enclosed and provided with one or more cooling elements that form part of the cooling unit. . The invention is based on the fact that the cooling unit is a machine-cooled unit and one of the surfaces of the cooling element or cooling elements forming part thereof forms part 2 of the air channel surface facing the air flow and the other parts of the cooling unit are located in the incubator housing.

The arrangement of the present invention eliminates the above disadvantages by placing a controllable cooling machine-cooling chiller in the incubator or by providing a chiller directly performing the cooling as part of the incubator duct, while not affecting the cleanability and contamination of the incubator, .

It is irrelevant to the arrangement according to the invention that a thermoelectric cooling unit, which is otherwise known per se, using a compressor, an absorption or a Peltier element, is used. Either one can be used, and in any one of its applications, the design of the basic functional units, the way they are connected, can be the same as the one used for shallow cooling units. The only difference is in the design and placement of the heat sinks. In the arrangement according to the invention, each of the components, except for the cooling element, is integrated in the incubator housing, while the cooling element or cooling elements are partly arranged in the incubator housing but separated from it and functionally separated by connected to the surface of the flowing air.

An example of an embodiment of the present invention for the use of a compressed-air cooling unit for an inflatable infant incubator according to the invention is illustrated by the following drawings, in which:

Figure 1 is a longitudinal sectional view of a cooling incubator for a cooled cow, a

Figure 2 is a sectional view A-A of the incubator of Figure 1, a

Figure 3 is a sectional view B-B of the incubator of Figure 1.

The figures thus show that in the air channel 2 in the incubator housing 1, the fan housing 4 is surrounded by radiators 3 and has a fan 5 for supplying air. As part of the air channel 2, cooling elements 8 are located below the inlet openings 7 in the lining plate 6 covering the duct 2. The surfaces of the cooling elements 8, which are connected to the inner part of the duct 2, are provided with one or more removable heat sinks 10 for improving heat transfer. whereas their surfaces facing the incubator housing 1 are preferably coated with a heat-insulating layer 9. The cooling elements 8 are connected in series by means of a pipe 11 and one of them is connected via a rain coil with a filter 12 and a capillary to the output of a capacitor 14 connected to the output of the compressor 13 (see Fig. 2). connected to the inlet of the compressor 13. Next to the condenser 14 is another fan 15 for cooling it. On the base plate 16 on the cover 6, 2197665, the baby's cradle 17 is located, which is separated by 18 transparent covers. The suction openings 19 in the base plate 16 are connected to the suction side of the fan 5 via a suction mouth 20 (see Figure 3). The sensors 21 are located in the suction mouths 20, and the control box 22 is the remainder of the control loop.

The essential properties of the coolable cage infant incubator according to the invention are: the cleanliness and disinfection of the infant space does not deviate from the usual features of known incubators, since it is in the plane of The removable cooling ribs 10, which are placed on the cooling elements 8, can still be provided with removable and properly designed, while the other parts of the cooling unit are housed in an incubator housing 1 which does not require cleaning and disinfection.

With reference to the figures, only one embodiment of the arrangement according to the invention is described. Of course, the invention also encompasses solutions in which the cooling elements 8 are part of an absorption unit or in which a cool solution of the Peltier element, which is connected to the inner surface of the duct 2, is thermoelectric, or is a heat conductor tightly coupled thereto. furthermore, in which the cooling elements 8 are connected in parallel or different from two, and in the case of more than two cooling elements 8, they are connected in series or in parallel, or partially in series and partly in parallel. The invention also includes solutions in which the thermal insulation layer 9 is extended over most or all of the surface of the duct 2 towards the housing 1, or in which the cooling elements 8 are located in any part of the duct 2, or heat sinks and heat sinks 10 form one unit.

The operation of the arrangement according to the invention will be described with reference to the figures. After compressing the freon refrigerant, preferably R12 / CF ₂ CL ₂ /, in the compressor 13, it passes through the other condenser 14, cooled with fan 15, and the conduit 14 with filter and capillary, to the cooling elements 8, where it is cooled and then returned to 13 compressors. Continuous repetition of this process results in low temperature of the cooling elements 8 and cooling of the air flowing over them. The air flow is provided by the fan 5 located in the fan housing 4. The air flowing through the opposing openings of the fan housing 4 passes through the heaters 3, which are inactive during cooling, and above the cooling elements 8, and then passes through the inlet openings 7 to the space delimited by the transparent bulb 18, from where the inlets 19 and the suction mouth 20 the sensor housing 21 touches the inlet side of the fan 5. The radiators 3 and / or the cooling unit are actuated by the remainder of the control loop in the control box 20 according to the temperature measured by the thermometer sensor in the sensor unit 21.

Claims (9)

1. A cooling incubator infant incubator comprising an incubator housing duct, a cover plate with inlet openings covering the duct, a base plate provided with suction openings in the latter, and a cradle in an inflatable air bubble enclosed in an inflatable suction lance in the core of the infant. a fan housed in a fan housing for maintaining it, heaters surrounding the fan housing, suction valves comprising a sensor housing, a control box in the incubator housing as part of the temperature control unit, and the incubator air duct being provided with one or more cooling elements as part of the cooling unit , characterized in that the cooling unit is a machine-cooled unit and one of the surfaces of the cooling element or cooling elements (8) forming part thereof is connected to the air stream of the duct (2). s, and the remainder of the cooling unit is located in the incubator housing (1). An incubator according to claim 1, characterized in that the cooling element or cooling elements (8) are made of a condenser (14) connected to their inlet by a pipe (11) with a filter and a capillary, a compressor (13) connected to the condenser (14), and the cooling unit consisting of a pipe connecting the outlet of the cooling element or cooling elements (8) to the compressor (13). An incubator according to claim 1, characterized in that the cooling unit is a cooling unit operating on an absorption principle located in the incubator housing (1). An incubator according to claim 1, characterized in that the cooling element or cooling elements (8) of the cooling unit are formed from the cold side of the Peltier elements of a cooling unit operating on a thermoelectric principle located in the incubator housing (1). An incubator according to claim 1 or 2, characterized in that a cooling fan (15) is provided adjacent to the condenser (14). An incubator according to any one of claims 1 to 5, characterized in that at least one cooling rib (10) is located on the cooling surface of the cooling element or cooling elements (8). An incubator according to claim 6, characterized in that the cooling element or cooling elements (8) form an integral part with the cooling fins (10). -3197665 8. Figures 1-7. An incubator according to any one of claims 1 to 4, characterized in that the surfaces of the cooling element (8) facing the incubator housing (1) are provided with a heat-insulating layer (9). An incubator according to claim 8, characterized in that the thermal insulating layer (9) extends over at least part of the surface of the duct (2) towards the incubator housing (1).