JPS61155715A - Temperature detection processing system - Google Patents

Abstract

PURPOSE:To provide a portable temperature detection processing system which can prevent errors in writing and transfer, by arranging a detachable temperature detection body adapted to convert the body heat measured into fan electrical signal and a data totalizer which sorts and memorizes the maximum signal of the body heat measured from the temperature detection body. CONSTITUTION:A temperature detection body 1 contains a temperature detection means inside the pointed end 2 thereof. Then, the numeral 8 indicates a data totalizer in which a data input means 9 and a data display means 10 are arranged on the surface of a casing body. In the configuration of an electric circuit with the temperature detection body 1 and the data totalizer 8, an arithmetic means is connected electrically to a temperature detection means 3 for detecting body heat provided at the pointed end and a display means 5 for displaying body heat and a signal transmission means 14 to the arithmetic means to output the maximum signal of body heat memorized into the arithmetic means to the data totalizer 8 from a relay end.

Description

DETAILED DESCRIPTION OF THE INVENTION (A) Object of the Invention (Field of Industrial Application) The present invention relates to a temperature measurement processing system using an electronic thermometer, and particularly to its automatic data collection function.

(Prior Art) Conventionally, electronic thermometers display body temperature, which is converted into an electrical signal by a temperature detection means such as a thermistor, as a number on a display means such as a liquid crystal display.

Therefore, body temperature can be measured accurately in a short time,
Its popularity has been remarkable in recent years.

However, when used for regular temperature measurements at general hospitals, etc., the data is compiled by filling out a large number of patient names on a tabulation form, which sometimes results in errors. .

Alternatively, when various patient data such as medical records are collected and processed by a computer, it is necessary to further operate a computer input device such as a keyboard, which may lead to repeated errors such as input errors.

(Problems to be solved by the invention) This invention was made in view of the above circumstances, and it processes the data obtained by temperature measurement as an electrical signal, thereby preventing errors in writing and transcription by the person in charge of temperature measurement. The aim is to provide a portable temperature measurement processing system that can be used.

(B) Structure of the Invention The present invention includes a removable thermometer that converts the measured body temperature into an electrical signal, and a data aggregation device that classifies and stores the highest value signal of the body temperature measured from the thermometer. Its more detailed configuration includes: a temperature detection means provided at the tip for detecting body temperature; a calculation means for calculating the body temperature corresponding to the output signal of the temperature detection means and storing the highest value; and a calculation means for storing the highest value. A removable thermometer comprising a signal transmitting means having a relay end for outputting a signal to the outside, and a display means for displaying body temperature based on a body temperature signal output from the calculation means, and electrically connected to the relay end. This temperature measurement processing system is characterized in that it is comprised of a data aggregation device that has a connection section, a data input means, and a data display means, and that classifies and stores the highest value signal from the temperature measurement body.

(Examples) Examples of the present invention will be described in detail below with reference to the drawings, but the present invention is not limited to the following examples.

In FIGS. 1A and 1B, (11 is a thermometer, which has a built-in temperature detection means (3) inside its tip (2).

Further, a visually visible display means (5) is provided approximately at the longitudinal center of the body (4) integrally formed with the tip (2). As the display means (5), for example, a liquid crystal display is used, and three digits composed of seven segments, a decimal point, and a character of °C are displayed. (6) is a reset switch, which is provided near the display means (5).

Further, the tip (2) and the opposite end (7) of the thermometer +11
) is provided with a relay end (15).

Next, (8) is a data aggregation device, and a data input means (9
) and a data display means (II) are arranged on the surface of the exterior body (11).The data input means (9) includes a keyboard (9a) consisting of alphabetical keys and keys having other functions. It consists of a numeric keypad (9b).The data display means OI uses a dot matrix type liquid crystal display that can display various characters.And on the side of the exterior body (11), there is a thermometer (11 relay terminal). Part (1
A recess (12) into which the relay end (15) is inserted is provided, and a connecting portion (17) to which an electrical connection is made when the relay end (15) is fitted is provided inside the recess (12). Furthermore, the data aggregation device (
8) may be, for example, a hand belt computer with a connecting portion (17) attached thereto.

Next is the 21st! The electrical circuit configuration of the thermometer (1) and the data aggregation device (8) will be explained at IA and B.

(13) is a calculation means, which is electrically connected to a temperature detection means (3) provided at the tip for detecting body temperature, and a display means (5) for displaying body temperature. (14) is a signal transmission means that is electrically connected to the calculation means (13) and transmits the highest temperature signal stored in the calculation hand (13) from the relay end (15) to the external data aggregation device (13). 8). (16) is the central processing means, for example 8
Consisting of a BIT microcomputer, data input means (9), data display means α, and connection section (17)
are electrically connected to each other. Central processing means (1
6) has an output port (18) so that data can be transferred to a larger data processing device. A temperature measurement processing system is configured by the above-mentioned temperature measurement body (1) and data aggregation device (8).

Next, the operation will be explained with reference to FIG.

When the tip (2) of the thermometer (1) is caught, for example, in the armpit of the person whose temperature is being measured and temperature measurement is started, the temperature detection means (3) outputs an output signal corresponding to the body temperature to the calculation means (13).
). In response to this, the calculating means (13) calculates the body temperature, and the calculated signal is momentarily outputted to the display means (5) to display the current body temperature. Simultaneously calculating means (13)
The device sequentially holds the highest body temperature during temperature measurement, and at the same time as the temperature measurement ends, stores the highest value and uses it as the highest value signal.

After the temperature measurement is completed, the temperature measurement body (1) is transferred to the data aggregation device (8).
), but in order to distinguish which patient's temperature measurement data belong to, the operator of the data aggregation device (8) inputs a preset patient identification code using the data input means (9). After that, the relay end of the thermometer (11) (15
) is inserted into the recess (12) to electrically connect the relay end (15) and the connecting portion (17). In this state, the central processing means (1-6) outputs a transmission request signal requesting the signal transmission means (14) to transmit the highest value signal. After receiving this transmission request signal, the signal transmitting means (1
4) transmits the highest value signal three times in synchronization with the synchronization signal from the central processing means (16), and the central processing means (16) classifies and stores the one that matches as the true value. In this way, the data obtained by temperature measuring body +1) is classified as registered patient data on the spot without manually inputting the body temperature as data into the data aggregation device (8) using a keyboard, etc. It is something that will be remembered.

When the data has been correctly classified and stored, the data aggregation device (8) generates an electronic sound indicating completion of data input. This operation is sequentially performed for the number of patients registered in the data collection device (8) to collect a plurality of temperature measurement data.

As another embodiment, the signal transmitting means (14) of the thermometer (1)
) may be configured such that a transmitting coil is provided at the relay end (15) and a receiving coil is similarly provided at the connecting portion (17) of the data aggregation device (8). In this case, the highest value signal from the temperature measurement is transmitted from the transmitting coil. It is electrically connected and transmitted to the receiving coil using small radio waves.

Therefore, there is no need for the relay end (15) and the connection part (17) to be in close contact with each other, and errors in transmitting the highest value signal due to deterioration of contact resistance, etc., do not occur.

In still another embodiment, the detection body (1) has 11 identification signals inside it, and transmits the identification signal before transmitting the highest value signal to determine which patient's temperature is being measured. The data aggregation device (8) may automatically classify and store the data.

In addition, the central processing means (16) of the data aggregation device (8)
) has an output port (1B), so temperature measurement data collected at various locations can be automatically sent to a large computer, etc. where various other data regarding patients are stored, via the output port (1B). This is what is input.

This allows a variety of patient-related data to be collected quickly and accurately.

(C) Effects of the Invention According to the present invention, since a thermometer that converts body temperature into an electrical signal is used, a temperature measurement processing system that can quickly and accurately collect temperature measurement data can be obtained. Since temperature measurement data is collected on-site, such as in a hospital room, using electrical signals, it is possible to prevent transcription and other entry errors. Furthermore, by connecting to a large computer, the temperature measurement data can be effectively used by merging and classifying various patient-related data.

[Brief explanation of the drawing]

FIGS. 1A and 1B are perspective views of an embodiment of a thermometer and a data aggregation device, respectively. FIGS. 2A and B are block diagrams showing the electrical circuit configurations of a temperature measurement device and a data aggregation device, respectively. FIG. 3 is an embodiment. 3 is a flowchart showing the operation of FIG. (1)-1.Thermometer, (21-tip, (3)--temperature detection means, (5)--display means, (8)--data aggregation device, (9)--data input means, Ql-data display means, (13)--calculating means, (14)--signal transmitting means, (15)--relay end, (17)--connecting section. Figure 2A 211th!!B

Claims (1)

[Claims] 1. Temperature detection means provided at the tip to detect body temperature, calculation means for calculating the body temperature corresponding to the output signal of the temperature detection means and storing the highest value thereof, and a relay end for outputting the stored highest value signal to the outside. a detachable thermometer comprising a signal transmitting means having a section and a display means for displaying the body temperature based on a body temperature signal output from the calculating means; a connection section electrically connected to the relay end; and a data input means. 1. A temperature measurement processing system comprising: a data aggregation device that has a data display means, and a data aggregation device that classifies and stores the highest value signal from a temperature measurement body.