DE19828923A1 - Unit for heating a blood flow through a channel during blood cleaning - Google Patents

Abstract

The heating system, to heat medical fluids, has a channel (11) to carry the fluid in a serpentine or spiral path. An electrical heater is in contact with the channel surface, at least partially. The path of the heating conductor generally follows the fluid channel structure, and it is connected to the electricity mains supply through a transformer, or to a special supply circuit. The fluid channel is welded in a plastics bag as a disposable unit (10).

Description

The invention relates to a heater for heating medical fluids with a channel carrying the liquid, which is a meandering or spiral has shaped channel structure, and consisting of an electric heating element from a heating conductor track applied to a carrier element, the Hei zelement is in contact with at least part of the surface of the channel.

Such a heater is for example from WO 87/06140 for blood purification gung known to the purified blood before feeding into the circuit of the Pati warm the ducks back to body temperature. The heater consists of one Bag with channels welded into it in a meandering shape, between two heating plates is introduced. The heating plates each consist of a ladder plate on which a conductor track structure is etched, which serves as a heating element. A heat compensation layer applied to the circuit board is intended for a ensure even heat distribution. The disadvantage of this arrangement is essential that this is complex and that due to the large  ß heat capacity of the heating plate the blood relatively slowly warms.

EP 0 012 123 A1 also discloses a heater for heating blood known in which a meandering hose between two heating plates is introduced. However, the heating plates have a high heat capacity, which leads to heating of the surrounding housing and also a long due to the heating responding.

From WO 97/09076 is also a heater for heating blood be knows in which the blood flowing through a flow chamber by means of electroma magnetic microwave radiation is heated. A wall of flow Chamber consists of a circuit board on which a microwave antenna in Stripline technology is applied and the microwaves in the flow chamber emits. A disadvantage of this arrangement is that the microwave Heating requires a relatively complex circuit technology and that Blood in the flow chamber may be unevenly or excessively heated. There is also a second chamber, which is not traversed by liquid, for the coupling of the microwaves is necessary.

Another way of heating for heating medical liquid is to use a directly heatable stainless steel tube. This Lö solution can, however, only be achieved through a complex manufacturing process become.

The object of the invention is therefore an inexpensive heating for heating of medical fluids to create a quick response at the Allows warming of the blood.

This object is achieved by the features of patent claim 1. The invent Solution according to the invention is that the course of the heating conductor on the Carrier element essentially that of the channel structure. In this way  on the size of a postcard, the power required to heat the liquid tion, for example in blood purification. The direct heating of the liquid-carrying channels with the heating conductor lead to a quick The heater responds because there is no additional material between the channels must be heated. Since no metal plate is required for heat transfer is, heating of the housing surrounding the heater can also be avoided that will. If the heating is switched off, the Healing elements are realized, which is particularly advantageous in the case of faulty conditions.

A particularly quick response of the heating can be achieved if the Materials of the heating conductor track and of the carrier element are chosen in each case that the heating element has the lowest possible heat capacity. Go one assumes that the carrier element is a circuit board on which the heating conductor is applied, then the circuit board consists in the usual way of a glass fiber reinforced plastic plate and thus already shows the required mate rial properties. The choice of material for the heating conductor depends on this depending on the boundary conditions. For a given layer thickness and spread The width of the heating conductor is a suitable material as aluminum, as this predetermined volume has a particularly low heat capacity. Becomes however, a certain resistance over a certain length of the heating conductor track required for heat generation, can be with a copper or silver track through a corresponding reduction in the layer thickness, a particularly low heat reach me capacity.

A particularly simple construction of the electrical supply to the heating element results when the heating element is connected to the mains voltage via an isolating transformer closed is. However, due to the high mains voltage, this requires thin ones or correspondingly long heating conductor tracks to ensure high resistance of the heater to reach zelements. In addition, electrical isolation in the event of a fault must be ge be provided to the patient.  

Another option is to connect the heating element to an electronic device valid power supply to connect. No isolating transformer is required, so that Power supply can be made particularly small and to any mains voltage can be connected.

It is usually required to use the heater for medical purposes Lich that the channel carrying the liquid as a disposable part (so-called dis posable) is designed to meet the hygiene requirements for each new application to be able to fulfill. In principle, two embodiments are conceivable here. On the one hand, the channel carrying the liquid can be designed as a disposable part, while the electric heating element is reusable. On the other hand but also the entire heater can be designed as a disposable part, so that the entire Heating forms the so-called disposable.

According to a first embodiment it is accordingly provided that the channel in egg is sealed as a disposable plastic bag. On the sides of the plastic bag is the meandering or spiral channel for heating by heating lement accessible, the plastic bag preferably between two plates is braced, of which at least one plate as an electrical heating element is formed. The two plates can be pivotally connected to one another, so that the plastic bag can be easily inserted between the two plates. It is particularly advantageous if the plastic bag has holes at the edges is provided with the correspondingly positioned on the plates centering pins in Can be brought so that the channel structure and the course of the Heating conductor track to cover.

According to a second embodiment, however, it is provided that the channel with the heating element is permanently connected. The channel preferably has a rectangular cross-section, so that a heating at one edge of the channel conductor track can be easily applied. It is also conceivable that the Heizlei terbahn is applied in the usual way on a circuit board and in one  further coating process the channel carrying the liquid on the heating conductor track is piled up.

Further details and advantages of the invention are based on one in the drawing voltage illustrated embodiment explained in more detail. In this shows:

Fig. 1 is a plan view of a disposable part after the first execution form,

Fig. 2 is a plan view of a heating element according to the first execution form,

Fig. 3 shows a cross section through a disposable part with an integrated heating according to the second embodiment and

Fig. 4 shows a measurement of the switching on and off of the heating according to the invention in comparison to a conventional heating.

Fig. 1 shows the top view of a disposable part according to the first embodiment. The disposable part 10 comprises a liquid-conducting channel 11 which is welded into a film. At the edges 14 , the film is reinforced and has holes 15 , on which the disposable part can be attached or centered relative to the heating element. Further hoses are connected to the connections 12 , 13 in a conventional manner, the connections being able to consist, for example, of Luer connectors.

Fig. 2 shows a plan view of a heating element according to the first embodiment. The heating element 20 consists of a printed circuit board 24 on which a heating conductor track 21 is applied. The heating conductor track 21 has a profile which essentially corresponds to the channel structure of the disposable part according to FIG. 1. For reasons of simplification, the heating conductor is angular at the reversal points of the meander-shaped course, but it is of course possible that the heating conductor also exactly follows the course of the channel carrying the liquid. Connected to the connections 22 , 23 is a schematically illustrated voltage source 26 , which supplies the electrical energy which is converted into heat along the heating conductor track 21 . Centering pins 25 are provided on the printed circuit board 24 , onto which the corresponding disposable part with the holes 15 provided therefor can be attached. This ensures that the channel course 11 and the course of the heating conductor track 21 essentially coincide. On the disposable part placed on the heating element, another heating element can be placed on the so that the channel located in the disposable part is heated on both sides. Alternatively, it can be provided that the disposable part is braced with a further end plate with the heating element.

The heating conductor is preferably made of aluminum. Aluminum has a particularly low heat capacity for a given volume, so that particularly high layer thicknesses can be achieved by using aluminum. It is also conceivable that an aluminum strip, sometimes several millimeters thick, is laid on the printed circuit board 24 . When bracing with the disposable part 10 , the protruding aluminum heating conductor is pressed into the disposable part or the channel carrying the liquid, so that a particularly large contact area can be produced between the channel and the heating conductor.

Fig. 3 shows a cross section through a disposable part with an integrated heater according to the second embodiment. The design of the electrical Heizele element thus resembles that of FIG. 2, so that the electrical heating element from egg ner printed circuit board 30 with a meandering heating conductor 31 is thereon. The channel 32 carrying the liquid is placed on the heating conductor track 31 and is permanently connected to the heating conductor track.

Fig. 4 shows a measurement of the input and switch-off operation. The course 40 shows the temperature course of the heater according to the invention, while the course 41 shows the course of a conventional heater which is constructed from a silicone heating conductor mat. Here, 15 ° C cold water was heated with a flow of 125 ml / minute and 160 watts. The heating was switched off after 10 minutes. It can be seen that the heating according to the invention responds much more quickly to switching operations.

The back of the electric heating element was when trying with a PVC sheet covered that was only lukewarm. Thus, the invention heating has a low heat dissipation and can therefore with appropriate Construction can be used in a designated housing.

For precise control, there is a two-stage version of the heating conductor conceivable. A corresponding swirling of the liquid can also cause a uniform temperature distribution can be achieved.

Claims (12)

1. heating for heating medical liquids,
with a channel carrying the liquid, which has a meandering or spiral channel structure, and
with an electrical heating element consisting of a heating conductor track applied to a carrier element, the heating element being in contact with at least part of the surface of the channel,
characterized by
that the course of the heating conductor track on the carrier element corresponds essentially to that of the channel structure 2. Heater for heating medical liquids according to claim 1, characterized in that the heating conductor track consists of a material, with the lowest possible heat capacity of the entire heating element can be achieved. 3. Heating for heating medical liquids according to one of the An sayings 1 to 2, characterized in that the carrier element from a Material exists with the lowest possible heat capacity of the ge Entire support element can be achieved. 4. Heating for heating medical liquids according to one of the An Proverbs 1 to 3, characterized in that the carrier element is a ladder is plate on which the heating conductor is applied. 5. Heating for heating medical fluids according to one of the An sayings 1 to 4, characterized in that the heating element via a Isolating transformer is connected to the mains voltage. 6. Heating for heating medical fluids according to one of the An sayings 1 to 4, characterized in that the heating element to an elec tronically regulated power supply is connected. 7. Heating for heating medical liquids according to one of the An sayings 1 to 6, characterized in that the channel in a plastic bag is welded as a disposable part. 8. Heater for heating medical liquids according to claim 7, characterized in that the plastic bag ver between two plates is stretched, with at least one plate being an electrical heating element is formed.   9. Heater for heating medical liquids according to claim 8, characterized in that the two plates are pivotable with each other are connected. 10. Heater for heating medical fluids according to one of the An Proverbs 7 to 9, characterized in that the plastic bag on the rän which is provided with holes that correspond to the support element positioned centering pins are engaged so that the channel structure and the course of the electrical heating element to cover. 11. Heater for heating medical fluids according to one of the An sayings 1 to 6, characterized in that the channel with the Heizele ment is inextricably linked. 12. Heater for heating medical liquids according to claim 11, characterized in that the channel has a rectangular cross section points, and that on at least one edge of the channel a heating conductor is applied.