DE2202478A1 - Fever thermometer - Google Patents

Description

Clinical Thermometers The invention relates to thermometers, cheap ones Pieberthermometer.

To avoid the high cost of purchasing and maintaining the conventional to avoid clinical glass thermometers and also to avoid the risk of transmission To effectively eliminate pathogens, it is desirable to inexpensive to create clinical thermometers that are economical to use only once, Numerous proposals have already been made for such cheap clinical thermometers been. An example of this is described in US Pat. No. 5,350,490.

The invention wants to create a cheap clinical thermometer, the one A number of highly desirable improvements over known thermometer designs which facilitates its handling and its accuracy in use increase.

To achieve this goal, the invention provides a thermometer, in which there is a heat sink in the chamber of a thermometer bulb, the is in heat-conducting connection with the display fluid, so that the temperature The fluid is retained during the break. Auerdrrr is according to the invention the volume of Reservoir chamber within a wide temperature range kept constant. In this way, the thermometer of the invention eliminates the Problems of thermal shock with the already known cheap clinical thermometers occur and inaccurate measurement results due to temperature changes of the display liquid and cause volume changes of the reservoir during reading.

The invention also provides an improved design of the capillary bore in the capillary part of the thermometer before that in the conventional cheap Clinical thermometers frequently tear off the liquid column in the capillary bore prevents. For this purpose, the capillary bore according to the invention is at least provided three outwardly gradually widened sections that lead to the reservoir chamber are open, with the indicator liquid the reservoir and at least the outermost The end of the outermost enlarged section of the capillary bore down to quite a bit low temperatures of around -26 ° C (-15 ° F). With the terms "after outer "and" outermost "herein are" away from the patient's body "and" furthest away from the body, respectively Meant in the use of the clinical thermometer. The gradation of the capillary bore the end of which effectively prevents the column of liquid from tearing off and ensures an accurate reading in use.

Further details of the invention can be found in the following description of an exemplary embodiment with reference to the accompanying drawings. Show it: Fig .: a front view of a thermometer according to the invention; Fg? enne side view to; Fir *) an enlarged @@@@@@@@@@@ vertical section longitudinally of a diameter, Fig. 4 is a broken section showing a phase illustrated in assembling the thermometer components; Fig. 5 shows a cross section of the thermometer about the line 5-5 of the Pig, lo In the figures is an inventive Thermometer 10 shown in an exemplary embodiment, which is an inexpensive clinical Thermometer represents how it is used as a clinical thermometer for oral measurement in hospitals and the like is usable. Because of its extremely low cost the thermometer 10 can serve as a disposable thermometer, i.e. it can be used after a one-time Discarded use, so that the necessary sterilization after use etc. is not applicable. The thermometer can be packaged in sterile form by the manufacturer, so that it is sterile until the time of use. retains. Such sterile Packaging techniques are known to the person skilled in the art and do not require any further explanation.

The thermometer according to the invention has a two-part plastic housing 11 with a tubular eapillary part 12 and a cup-shaped piston part 13. Both parts 12 and 13 of the housing consist of a suitable sterilizable Plastic. The capillary part 12 consists of a transparent plastic that allows observation of a display liquid 14 in a capillary bore 15, which extends in the axial direction in the capillary part.

The capillary part 12 has a reading part 16 in the transverse direction is flattened, as best seen in Figures 1 and 2, and a scale 17, which covers a temperature range of 54.5 ° to 420C (940-1080F).

Furthermore, the capillary part 12 has a widened end piece 18, which has a cylindrical central part 19 and a tubular extension 20, the outer diameter is slightly smaller than that of the middle part 19o The capillary bore 15 opens at its lower end into a connecting part 21, that of three cylindrical sections 21a, 21b and 21c with progressively larger Radius is formed. The enlarged capillary bore portion 21c is on its End face 22 at the end of the extension 20 remote from the body is open in the axial direction. If in In a specific example, the capillary bore 15 has a diameter of 0.23 mm (9 mil), the enlarged capillary bore section 21 can have a diameter of 0.76 mm (30 mils), as well as the capillary bore portion 21b 1.52 mm (60 mil) and capillary bore portion 21c one of 2.03 mm (80 mil). The total length qer capillary bore 15 can be approximately 11.4 cm (4.5 inches), wherein the enlarged connector 21 would then have a length of about 1.27 cm (5/8 inches) like.

The piston part 13 encloses a reservoir chamber 23, which completely is filled with the display liquid 14. Appropriately, the arrangement is the Chamber 23 and the enlarged connecting part 21 on the expansion coefficient the display liquid 14 matched so that the display liquid 14 at least extends into the lower end of the capillary bore section 21c, too at extremely low temperatures down to - 26 ° C.

As can best be seen from FIG. 4, the upper end 24 of the piston part 13 may be provided with an annular rib 25 which is connected to the underside 26 of the Central part 19 of the end piece 18 can be fused, so that a sealing connection of the piston part 13 with the capillary part 12 comes about. The inside diameter of the upper end 24 of the piston part is approximately equal to the outer diameter of the tubular Approach 20 so that the upper end 24 form-fit on the tubular Approach can be postponed. The tubular extension can be provided with an annular rib 27 be provided, the adhesion between the piston part 24 and the approach 20 still Reinforced0 The rib 27 may, for example, be about 0.38 mm (15 mils) wide and about 0.1 mm (4 mil) high. The capillary part 12 and the piston part 13 are preferred made of a thermoplastic material which is fused to the surface 26 The parts can be made of polystyrene, for example be.

The piston part 13 is provided with a tubular sleeve 28 which a lining of the reservoir chamber 23 forms.

The sleeve 28 delimits the side surface of the chamber 23 and is integral formed with the plastic piston part 13, for example by doing it during the molding of the piston part is embedded in it. Preferably, the sleeve 28 is made of one Material with a low coefficient of thermal expansion and high thermal conductivity. For example, the sleeve 28 can be made of metal. In the illustrated embodiment The sleeve 28 is made from cold rolled steel. The sleeve 28 is useful fairly strong and ensures 90 the dimensional stability of the reservoir chamber 23, too when the piston part 13 is exposed to a wide temperature range. Because of Their high thermal conductivity, the sleeve 28 serves as a heat sink, so that the temperature the display liquid 14 is effectively stabilized and the heat transfer to and is facilitated by the sleeve. So if, for example, when reading the thermometer Thermal energy from the display liquid 14 escapes, for example when the thermometer the room temperature is exposed, so this is almost immediately from the acting as a heat sink sleeve 28 replaced, whereby the display liquid its temperature maintains and improves the patient's body temperature with accuracy can be determined. The plastic from which the piston part 13 is molded has preferably a lower thermal conductivity and thus serves as a protective one Insulator to prevent heat transfer from the reservoir chamber to the outside of the Reduce the piston as much as possible.

Because the thermometer 10 tears off the column of liquid in the capillary bore effectively prevents the handling and the accuracy of the Reading increased. The usual shaking, as with conventional thermometers is necessary to put back an uninterrupted column of liquid liquid at the end of the flask of the thermometer becomes superfluous. Because also effectively prevented is that the column breaks off by withdrawing completely into the chamber 23, is affected by a thermal shock, such as that caused by a sinking during shipping the ambient temperature down to about -26 ° C or below can occur, the storage the display liquid for immediate use, so no preparatory Steps need to be taken, such as shaking or the like at what conventional thermometer designs may be required.

The thermometer 10 is therefore extremely simple and rational Construction and offers the most useful advantages as discussed above became.

Claims (23)

Expectations 1. Thermometer, characterized by a tubular capillary part (12) made of a transparent plastic which contains an axial capillary bore (15), which in one end (18) of the capillary part (12) widened several stepwise Capillary bore sections (21a, 21b, 21c), further by a piston part (13), which connects to said end of the capillary part, and a reservoir chamber (23) contains, with the outermost and widest capillary bore section (21c) is in communication, and by a filling with an expanding fluid (14), which completely fills the reservoir chamber and at least in the outermost one The end of the outermost enlarged capillary bore section (21c) reaches as far as when a preset low temperature is reached 2. Thermometer according to claim t, characterized in that the capillary bore (15) at that end which the end (18) communicating with the reservoir chamber is opposite, sealing is locked. 3e thermometer according to claim 1 or 2, characterized in that the piston part (13) is attached to one end (18) of the capillary part (15) in a sealing manner is. 4. Thermometer according to one of the preceding claims, characterized in that that the cross section of the reservoir chamber (23) is noticeably larger than the cross section the extreme end of the extreme enlarged capillary bore portion (21c). 5. Thermometer according to one of the preceding An51) rüohe, characterized in that that the piston part (13) has a metallic element (28), which the lateral Limitation the reservoir chamber (23) forms and is separated from the outermost, furthest capillary bore section (21c) extends from coaxially, means being provided are to the metallic element with the end (18) of the capillary part (12) rigid connect to. 6. Thermometer according to one of the preceding claims, characterized in that that at least three gradually widening capillary bore sections (21a, 21b, 21c) are provided. 7. Thermometer according to one of the preceding claims, characterized in that that the enlarged capillary bore sections are cylindrical. 8. Thermometer according to one of the preceding claims, characterized in that that the reservoir chamber (23) consists of a cylindrical bore, the diameter of which is larger than the diameter of the widest capillary bore section (21c). 9. Thermometer according to one of the preceding claims, characterized in that that the piston part is provided with a fastening element (25) made of plastic, that with the plastic of the capillary part (12) on its adjacent end face (26) is fused sealingly. 10. Thermometer according to one of the preceding claims, characterized in that that the capillary part (12) at its end to be connected to the piston part has a cylindrical outer end part (20) and the piston part forms a tubular metal element and means are provided to attach the metal element to the plastic of the end part. to fasten. 11. Thermometer according to one of claims 1 to 10, characterized in that that one end of the KapillarelemenZ te (12) is cylindrical on the outside and the piston part (13) has a cylindrical piece (24) which mates with the end of the capillary member and is attached to it0 12. Thermometer according to claim 5 or one of the following Claims, characterized in that the metallic element of the piston part is a metallic sleeve (28) which serves as a lining for the reservoir chamber, and that this sleeve is enclosed by an outer part of the piston part (13) made of plastic is. 13. Thermometer according to claim 12, characterized in that the The plastic part of the piston part is hot-melted with the capillary part. 14. Thermometer with a capillary part and a bulb part, according to one of claims t to t3, characterized by a plastic part which encloses a reservoir chamber (23) for receiving an expandable liquid (14) and by a lining (28) on the inner surface of this chamber, which consists of a material whose The coefficient of thermal expansion is considerably smaller than that of the plastic from which the plastic part is made. 15. Thermometer according to claim 14, characterized in that the Liner is embedded in the plastic part. 16. Thermometer according to claim 14, characterized in that the Ruu clothing alts cold rolled, 3 number consists. 170 thermometer according to claim 14, characterized in that the Lining made of a thermally conductive material to absorb thermal energy, and that the plastic part is made of a plastic having such a low thermal conductivity that the temperature of the liquid (14) in the Reservoir chamber (23) is retained during the A'D reading process 18. Thermometer according to claim 14 or one of the following claims, characterized in that the liner consists of a tubular sleeve. 19. Thermometer according to claim 14 or one of the following claims, characterized in that the lining has a thickness of approximately 0.25 mm (10 mil) has. 20. Thermometer according to claim 14 or one of the following claims, characterized in that the thickness of the lining is approximately the fourth part that of the plastic part. 21. Thermometer according to one of the preceding claims, characterized by an elongated housing made of plastic, in which an axial capillary bore and a reservoir chamber is enclosed at one end of the bore, in which an expanding liquid is received, and by a tubular heat sink with high thermal conductivity, which the reservoir chamber surrounds and is in heat exchange with the liquid, eo that the temperature of the liquid is maintained during the reading. 22. Thermometer according to claim 21, characterized in that the Heat sink also an element with a low coefficient of thermal expansion represents HO that the volume of the reservoir chamber within a is kept constant over a wide temperature range. 23. Thermometer according to one of the preceding claims 1 to 22, characterized characterized in that the low temperature is below - 260C Blank page