DE20200896U1 - thermometer - Google Patents

Description

K38009

Fever thermometer

The invention relates to the field of electronic thermometers and in particular to an improved clinical thermometer.

Conventional electronic thermometers generally have the following disadvantages:

As shown in Fig. 7, a conventional electronic thermometer 40 typically includes a sleeve-shaped metal tip portion

42 above its measuring element 41, a generating component 43 and a wire 44 lying in the metal tip section 42, the indication of the body temperature by the generating component 43 being such that the temperature is displayed on a display screen on the surface of the clinical thermometer 40. Although the metal tip section 42 can conduct the body heat, since the metal tip section 42 contains solidified rubber 45 which conducts the generating component

43 and also connects the measuring element 41 to the metal tip portion 42, the poor thermal conductivity of the inner solidified rubber 45 causes the body heat when the metal tip portion 42 comes into contact with the epidermis to be not generated uniformly and completely around the generating component 43 arranged in the lower extension of the metal tip portion 42. In addition, according to Fourier's law of thermodynamics, the temperature generated by the generating component 43 and the generating wire 44 cannot be rapidly transferred by thermal conduction to establish thermal equilibrium, and the heat thus generated is gradually conveyed to the tip and dissipated. Thus, the clinical thermometer 40 takes a long time to measure the body temperature and also has a high degree of error.

The invention is therefore based on the object of developing a clinical thermometer

·

that does not have the disadvantages mentioned above.

This object is achieved according to the invention by a clinical thermometer according to claim 1. Further developments of the invention are specified in the dependent claims.

Further features and advantages of the invention will become clear from reading the following description of preferred embodiments, which refers to the drawings, in which:

Fig. 1 an isometric drawing of the clinical thermometer of the

Invention;

Fig. 2A, 2B are cross-sectional views of the flexible portion of the clinical thermometer, seen from the front and from the side;

Fig. 3 is a cross-sectional view of the measuring element and the inner

construction of the metal tip section of the thermometer;

Fig. 4 is a cross-sectional view of another measuring element and a

Internal construction of the metal tip section of the clinical thermometer;

Fig. 5 an exploded view of the measuring element rotary construction

the clinical thermometer;

Fig. 6 a cross-sectional view of the measuring element of the clinical thermometer

ters after rotation by an angle;

Fig. 6A, 6B are side views of Fig. 6; and

Fig. 7 the already mentioned cross-sectional view of the measuring element and

the internal construction of the metal tip of a conventional clinical thermometer.

As shown in Figs. 1, 2A and 2B, the construction of the clinical thermometer according to the invention comprises a clinical thermometer body 10, a measuring element 11 connected to the body 10, a metal tip portion 20 fitted onto the measuring element 11 and a rear cover 12 provided at the end of the body 10, the clinical thermometer body 10 being of a one-piece molded construction so that the entire body is both dustproof and waterproof. Above a flat member 101 of the body 10 for the on/off switch 13 of the thermometer is a U-shaped flexible portion 14 on which a pressure pad 141 is provided which can be pressed, while the flat member 101 can also be slightly bent downward so that pressure on the pressure pad 141 actuates the on/off switch 13 to turn on the circuit in the inner portion of the clinical thermometer. The space between the flat member 101 and the flexible portion 14 is filled to seal the on/off switch 13 so that it is water and dust proof, while the surface of the flexible portion 14 has a rough pattern 142 on it to facilitate hand gripping. In addition, the body 10 includes a one-piece convex cover glass 15 mounted over its display screen which magnifies the alphanumeric characters of the measured temperature indicated by the thermometer for better viewing by the user. Where the convex cover glass 15 is mounted, the body 10 is transparent, while the remainder of the body 10 is the same color as its interior walls.

As shown in Fig. 3, in the connection area between the metal tip portion 20 of the clinical thermometer and the clinical thermometer body 10, there is hard rubber 21 for reinforcing and fixing the generating wire 23, while a dielectric (such as air or a hard or soft foam with a low thermal conduction coefficient) is packed in the metal tip portion 20, so that the generating component 22 and the generating wire 23 are arranged in a helical manner in the metal tip portion 20 and are completely fixed to the inner wall of the metal tip portion 20. This allows the generated temperature to quickly and completely reach equilibrium, as well as the rapid heat conduction according to Fourier's law of thermodynamics (the heat conduction speed is directly proportional to the contact area), so that the clinical thermometer of the

Invention can immediately indicate the exact temperature.

As shown in Fig. 4, the generating component 22 and the generating wire 23 are not arranged in a helical manner but are also directly and completely fixed to the inner wall of the metal tip portion 20, so that the generated temperature quickly and completely reaches thermal equilibrium and the thermometer quickly becomes heat conductive.

As shown in Figs. 5, 6, 6A and 6B, the rotary structure 11 of the clinical thermometer is designed to include a front part 111 and a base part 112 each formed with an inclined surface in mutual contact and connection. On the inclined surface 1111 of the front part 111 there is a flange holder 1113 with a locking lug 1112, while in the base part 112 there is a locking sleeve 1121 with a protruding engaging edge 11211. On the base part 112 there is formed a stepped portion 1122 which enables the attachment of a hollow metal sleeve 30 so that the metal sleeve 30 is contained in the locking sleeve 1121. The metal sleeve 30 has an inclined surface 31, and on the inclined surface 31 a large insertion hole 32 is formed which is connected to a small insertion hole 33.

In assembling the structure, the inclined surfaces 1111 and 31 can be brought together, the flange bracket 1113 slides into the large insertion hole 32 so that it can also slide into the small insertion hole 33 so that the front part 111 and the base part 112 are connected while being able to rotate. The front end of the engaging edge 11211 of the locking sleeve 1121 faces the inclined surface 1111 of the front part 111 and also extends into the smaller diameter root portion of the flange bracket 1113 so that the large insertion hole 32 is filled when held to prevent separation of the front part 111 from the base part 112 during rotation. The locking nose 1112 normally faces one side of the engaging edge 11211 to provide static support for the assembly after rotation of the measuring member 11. In addition, the generator wire 23 is guided through a hole 11131 formed in the flange holder 1113 so that it can be inserted into the fever thermometer.

meter body 10.

When the front part 111 of the measuring member 11 is rotated, the front part 111 is quickly positioned at a suitable angle (the thermometer of the embodiments allows an angle of 120°) at the connection point of the base portion 112 due to its inclined surface 1111. In addition, since the locking lug 1112 of the flange bracket 1113 faces the other side of the engaging edge 11211 after rotation, the rotation angle of the measuring member 11 is kept in a fixed position. Thus, the design of the movable front part 111 enables ergonomic and convenient grasping and holding by hand when the user uses the clinical thermometer to measure temperature.

Claims (7)

1. A clinical thermometer comprising a clinical thermometer body ( 10 ), a measuring element ( 11 ) connected to the body ( 10 ), a metal tip section ( 20 ) fitted onto the measuring element ( 11 ) and containing a generating component ( 22 ) and a generating wire ( 23 ), and a rear cover ( 12 ) at the end of the body ( 10 ), characterized in that the generating component ( 22 ) and the generating wire ( 23 ) in the metal tip section ( 20 ) are completely fixed to the inner wall of the metal tip section ( 20 ) so that the generated temperature quickly reaches thermal equilibrium and rapid thermal conductivity is achieved so that the clinical thermometer can display the accurate temperature substantially immediately. 2. Clinical thermometer according to claim 1, characterized in that the generating component ( 22 ) and the generating wire ( 23 ) are arranged helically in the metal tip section ( 20 ) and are completely attached to the inner wall of the metal tip section ( 20 ). 3. Clinical thermometer according to claim 1 or 2, characterized in that a hard or soft foam with a low thermal conductivity coefficient is packed into the metal tip section ( 20 ). 4. A clinical thermometer according to any preceding claim, characterized in that the clinical thermometer body ( 10 ) has a one-piece molded construction. 5. A clinical thermometer according to any preceding claim, characterized in that the clinical thermometer body ( 10 ) has a U-shaped flexible portion ( 14 ) located above its on and off switch ( 13 ), while on the flexible portion ( 14 ) there is a pressure field ( 141 ) which can be pressed and bent. 6. A clinical thermometer according to any preceding claim, characterized in that the measuring member ( 11 ) has a rotary construction which includes a front part ( 111 ) and a base part ( 112 ), each formed with an inclined surface for mutual contact and interconnection. 7. A clinical thermometer according to any preceding claim, characterized in that a hole (11131) is formed in the flange holder ( 1113 ) through which the generator wire ( 23 ) is inserted and guided into the clinical thermometer body ( 10 ).