RU2058539C1 - Maximum medical thermometer - Google Patents

Abstract

FIELD: testing technology; medicine, meteorology, hydrology. SUBSTANCE: thermometer has mechanism for bringing it in initial state. Mechanism has cap with reset rod and return spring arranged inside it. Temperature is read off two dials which are matches during operating position. Dials are applied on thermometer housing along transparent port and on surface of reading device. EFFECT: enhanced efficiency. 4 cl, 2 dwg

Description

 The invention relates to instrumentation, and more specifically to a medical maximum thermometer.

 The invention can be used in medicine and veterinary medicine to measure body temperature of humans and animals, as well as to measure maximum temperatures in other fields of science and technology, for example, meteorology, hydrology, etc.

 Medical thermometers are widely known in which mercury is used as a thermometric substance (see, for example, ed. St. USSR N 626364, class G 01 K 5/32 or US patent N 3688582, class G 01 K 5/00, etc. .). However, mercury thermostats are unsafe in environmental and medical terms both in production and disposal, and during their operation.

Known medical thermometer containing a capillary with transparent walls, in communication with a reservoir filled with ferromagnetic fluid, a magnetic system located at the end of a removable housing covering the capillary, and a scale deposited on the housing [1]
The indicated thermometer is medically dangerous, since if the glass capillary is accidentally destroyed, its fragments can injure the patient. This disadvantage is inherent in all capillary thermometers.

 The presence of a removable housing in the design of the thermometer and the possibility of fixing the maximum temperature only when the housing is completely worn on the capillary leads to injury when measuring temperature in hard-to-reach parts of the body, and in some cases to complete inability to measure temperature in body cavities (for example, vaginal cavity). In addition, this design of the thermometer makes it impossible to measure the temperature, depending on subjective factors (staff qualifications, speed of putting on the removable case on the capillary, if it is impossible to put it on near or inside the patient's body).

 The design features of the thermometer also cause other shortcomings during its operation (storage and preparation for temperature measurement). So, before preparing for temperature measurement, it is necessary to separate the capillary and the removable housing; the design requires separate storage of capillaries and removable housings for them.

Known maximum liquid thermometer, the closest analogue to the claimed solution [2] with a mechanism for bringing it to its original state, containing a tank filled with thermometric substance (transformer oil), a camera mounted on the tank and partially filled with indicator fluid (transformer oil), connected to a reservoir of a piston pair with piston stroke limiters and a screw drive, ^a capillary bent at an angle of 180 ° with a flexible handle-movable scale placed in a transparent case, and connected at one end to the reservoir, and at the other, pointed, end to the chamber.

The indicated thermometer, as well as other thermometer designs based on measuring the volumetric increment of the thermometric substance in the capillaries, has the following main disadvantages: the possibility of injuring patients if the capillary is destroyed by fragments (in this case, the environmentally harmful liquid of transformer oil gets into the body or inside the body human or animal); complexity and duration of actuation of the process of the thermometer in the initial state for the new measurement of the temperature (in this case, requiring the removal of the indicator fluid from the capillary thermometer by rotation in a vertical plane through an angle ^of 180 and manual manipulation of the piston pair).

 In addition, the thermometer is structurally complex, which leads to its low manufacturability. Thus, a thermometer consists of many heterogeneous parts (a curved capillary, a screw drive, a flexible scale with the means of its movement, etc.), requiring great precision in their manufacture and assembly. Due to the structural complexity of the thermometer, temperature measurement is difficult. Reading the reading of the scale falling on the level boundary of the indicator liquid drawn into the measuring capillary is possible only with manual alignment of the zero of the scale with the boundary of the thermometric liquid, which causes significant errors in temperature measurement due to possible inaccurate alignment with the zero of the scale and visual distortion measurement result.

 Thus, the indicated thermometer is environmentally and medically unsafe, structurally complex, which entails a relatively low manufacturability of its manufacture and certain operational difficulties both in terms of accuracy and convenience of determining the temperature, and in terms of returning the thermometer to its original state for a new temperature measurement.

 The purpose of the invention is the creation of a maximum medical thermometer in such a design that it is possible to determine the maximum temperature by measuring the pressure increment in a closed volume, which ensures the safety of the thermometer in environmental and medical terms, reduces the time to return the thermometer to its original state while simplifying the design and manufacturing technology a thermometer.

 The goal is achieved in that in a medical maximum thermometer containing a housing with a thermometric substance located at one end, a scale and a mechanism for bringing the thermometer to its original state, a window is made of transparent material with a scale applied along it on the outer surface of the housing, inside the housing are placed a piston with a rod, facing the working surface to a thermometric substance and elastically connected with the housing, a reading device rigidly connected with the piston rod, made with the possibility of movement inside the housing along its longitudinal axis, while the vernier scale coinciding with the window is applied to the surface of the reading device, and the mechanism for bringing the thermometer to its initial state contains a cap located on the opposite end of the housing from the piston, in which the discharge rod with a return spring mounted on it .

 The placement inside the piston body, facing the working surface of the thermometric substance, and its elastic connection with the housing allow temperature measurement not to measure the increment of the volume occupied by the thermometric substance, as is done in traditional capillary thermometers, including the closest analogues of the present invention, and through measuring the increment of pressure in a tank with a thermometric substance. Such a constructive implementation of the thermometer allows, while maintaining the accuracy of measurement necessary for medicine and veterinary medicine, to use as a thermometric substance a wide variety of environmentally friendly materials (gases, pastes, solids, for example, a medically harmless and environmentally friendly aqueous sugar solution), as well as maintaining the dimensions of traditional medical thermometers extremely simplify the design of the thermometer, which entails, accordingly, a simplification of the manufacturing technology of the thermometer. At the same time, the simplification of the design allows the use of durable in operation and easily processed materials for the manufacture of thermometer parts.

 A rigid connection of the piston rod with a readout device that can move inside the housing along its longitudinal axis with a vernier scale applied to the surface of the readout device, as well as a transparent window on the thermometer case with a scale applied along the outer surface of the housing allow the pressure increment to be read, tared in degrees with the accuracy required in medicine.

 The implementation of the mechanism for bringing the thermometer to its initial state in the form of a cap located on the end of the cap body, which houses the discharge rod with a return spring installed on it, allows you to simply reset the temperature to a maximum value and reset the thermometer to its initial state for subsequent temperature measurement . In this case, the time to bring the thermometer to its initial state is a fraction of a second.

 According to one embodiment of the thermometer, it is advisable to install a spring with an adjusting washer on the piston rod.

 This embodiment of the thermometer, which provides an elastic connection between the piston and the body of the thermometer, allows the thermometer to be set to any required accuracy, as well as to calibrate it during assembly.

 According to another embodiment of the thermometer, it is advisable to make a guide groove on the outer surface of the reading device, and the protrusions in the groove on the inner surface of the thermometer housing.

 Such a constructive implementation of the thermometer is necessary only if the casing and the reading device are in the form of round cylinders to prevent accidental rotation of the reading device inside the thermometer case and, therefore, maintaining the stable operation of the thermometer.

 According to another embodiment of the thermometer, it is advisable to mate the surfaces of the reading device and the housing with a roughness sufficient to prevent spontaneous movement of the reading device, which allows you to fix the maximum measured temperature by holding the reading device in this position by friction. This embodiment of the thermometer is the most simple and technologically advanced.

 In Fig.1 shows a medical maximum thermometer in section; in FIG. 2 same view, complete.

 The maximum medical thermometer comprises a housing 1 (Fig. 1) with a thermometric substance 2 located at one end thereof, a mechanism 3 for bringing the thermometer to its original state. In the housing 1, a window 4 is made of a transparent material with a scale 5 deposited along it on the surface of the housing 1 (Fig. 2). Inside the housing 1 there is a piston 6 (FIG. 1), the working surface of which is facing the thermometric substance 2, and the piston 6 moves in the sleeve 7. A spring 9 and an adjusting washer 10 are installed on the piston rod 8 of the piston 6. The piston rod 6 of the piston 6 is rigid (screw connection) is connected with a reference cylinder (device) 11, on the surface of which a vernier scale 12 is applied (FIG. 2). The mechanism 3 (Fig. 1) for bringing the thermometer to its initial state for subsequent temperature measurement consists of a cap 13, in which a reset rod 14 with a return spring 15 and a thrust washer 16 are placed. The rod 14, when pressed at its end, protruding from the cap 13, returns the reading device 11 with the piston 6 to its original position.

 The thermometer shown in the drawings is made in the embodiment where both the housing 1 and the reading device 11 are in the form of a circular cylinder. Therefore, to prevent accidental rotation of the reading device 11 in the housing 1, the reading device 11 has a guide groove 17, and the housing 1 has protrusions 18 included in the specified groove 17.

 The mating surfaces of the reading device 11 and the housing 1 are made with a roughness sufficient to prevent spontaneous movement of the reading device, but not preventing it from returning to its original position after pressing the reset rod 14.

 The operation of the thermometer is as follows.

 The thermometer is placed in a place whose temperature you want to measure (for example, in the armpit of a person when using a thermometer as a medical one).

 In this case, the thermometric substance 2 (Fig. 1), located at one end of the thermometer housing 1, will begin to expand and will transmit pressure to the working surface of the piston 6. The piston 6 through the rod 8 will act on the reading device (cylinder) 11, moving it inside the housing 1. The movement of the piston 6 and, consequently, the reading device 11 will be hindered by the spring 9, which was adjusted during assembly by the washer 10. Thus, instead of the generally accepted measurement of the volume increment, which requires long transparent and fragile capillaries, pressure increment, as well as volume increment proportional to temperature. Upon reaching the maximum temperature, the vernier scale 12 (figure 2) will occupy a position corresponding to a given body temperature; on the main scale 5, whole degrees are counted, and on a scale of 12 tenths of a degree. Moreover, due to the roughness of the surfaces of the reading device 11 and the housing 1, spontaneous movement of the reading device 11 will not occur and the value of the maximum temperature on the scales 5 and 12 will remain indefinitely.

 To return the thermometer to its original state, i.e. to prepare it for new temperature measurements, click on the protruding end of the discharge rod 14, which will move the reading device 11 together with the piston 6 to its original position.

 Thus, with this thermometer, the maximum temperature is measured by measuring the pressure increment in a closed volume, which ensures simplicity of design and increases the manufacturability of its manufacture. Using this thermometer can improve the speed and accuracy of temperature measurement, as well as reduce the time to bring the thermometer to its original state to fractions of a second. The thermometer is safe in environmental and medical terms.

 Specific embodiments of the present invention have been described above, subject to various modifications and additions that are obvious to those skilled in the art to which this invention relates. Thus, the elastic connection of the piston with the housing can be ensured not only by the spring, as described in the embodiment of the thermometer, but also by using other means. Means for preventing the rotation of the reading device in the housing if they are made in the form of circular cylinders can be made of a different design than those indicated in the description of the invention. Other means may also be implemented to prevent spontaneous movement of the reading device.

Claims (4)

 1. MEDICAL MAXIMUM THERMOMETER, comprising a housing with a thermometric substance located at one end thereof, a scale and a mechanism for bringing the thermometer to its original state, characterized in that a piston with a rod is inserted into the housing adjacent the working surface to the thermometric substance, a reading device rigidly connected to the piston rod with the ability to move inside the housing along its longitudinal axis, means to prevent spontaneous movement of the reading device, while in the housing there is a window made of of transparent material, a scale is applied along it on the outer surface of the case, a vernier scale is placed on the surface of the reading device from the side of the window, and the mechanism for bringing the thermometer to its initial state is made in the form of a cap worn on the other end of the case, with the dumping rod placed in it outward, with a return spring mounted on it.  2. The thermometer according to claim 1, characterized in that adjustment means made in the form of a spring with an adjusting washer installed on the piston rod are introduced into it.  3. The thermometer according to claim 1, characterized in that on the outer surface of the reading device a guide groove is made, and on the inner surface of the thermometer housing, the protrusions included in this groove.  4. The thermometer according to claim 1, characterized in that the means for preventing spontaneous movement of the reading device is made in the form of roughnesses on the mating surfaces of the reading device and the housing.

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