JPH05164623A - Temperature recording apparatus - Google Patents

Abstract

PURPOSE:To obtain a temperature recording apparatus, which can decrease the using amount of recording paper, can obtain the temperature changing trend definitely and can decrease the power consumption. CONSTITUTION:An A/D converter circuit 104 converts the signal corresponding to the difference between the temperature signal from a temperature sensor and the initial-value temperature signal set with a setting switch 108 into the digital signal and outputs the signal. In an adding circuit 105, the output signal of the A/D converter circuit 104 is added to the initial-value temperature signal. An operating circuit 110 stores the signals corresponding to the minimum value and the maximum value among the output signals, which are outputted from the adding circuit 105 within the specified time, and a paper feeding signal into a memory device 111. In response to the operation of a print switch 115, a printer control circuit 114 outputs the data stored in the memory device 111 into a printer 112. In the printer 112, bar printing expressing the minimum value and the maximum value within the specified time is performed at a specified interval.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature recording device for measuring and printing out various temperatures such as the temperature in a freezer of a refrigerating car, the temperature in the atmosphere or the temperature of a specific object.

[0002]

2. Description of the Related Art Conventionally, a temperature recording device for measuring and printing out temperature in various fields such as a temperature in a freezer of a refrigerating car, a temperature in the atmosphere, a temperature of a specific object, etc. has been used. In a conventional temperature recording device, a temperature sensor is arranged at a measuring point and printing is performed on a printer based on a temperature signal output from the temperature sensor. In this printing, as shown in FIG. 4, recording paper 401 such as roll paper is fed at a predetermined speed, and a pen or the like is continuously moved in a direction perpendicular to the paper feeding direction according to a temperature signal. It is done by. As a result, a continuous temperature curve as shown in FIG. 4 is drawn on the recording paper 401 over time,
The temperature change at the measuring point is visible.

[0003]

Since the conventional temperature recording apparatus draws a continuous temperature curve over time, the recording paper 401 is continuously fed at a constant speed. Therefore, when the temperature is measured for a long time, there is a problem that the amount of the recording paper 401 used becomes extremely large.

When the paper feeding speed is slowed down in order to reduce the amount of recording paper 401 used, there is a problem that the temperature curve becomes too dense and the tendency of temperature change becomes unclear. further,
Since a recording mechanism such as a pen feed motor for moving a pen or the like constantly consumes electric power, there is a problem that the power consumption increases. By the way, the tendency of the temperature change is that the minimum value T ₂ , T ₄ , T ₆ , T _{8 at} every predetermined time (for example, every 5 minutes).
, And the maximum values T ₁ , T ₃ , T ₅ , T _7, ... Can be grasped.

The present invention has been made by paying attention to such a point, and it is possible to reduce the amount of recording paper used, to clearly grasp the tendency of temperature change, and to reduce the power consumption. The purpose is to provide a possible temperature recorder.

[0006]

The invention according to claim 1 is
A temperature sensor that outputs a temperature signal corresponding to the measured temperature, an operation unit that outputs a signal corresponding to a minimum value and a maximum value in the temperature signal output within a predetermined time, and a signal from the operation unit. In response, a printing unit for bar-printing the minimum value and the maximum value is provided.

The invention according to claim 2 further comprises: a temperature sensor for outputting a temperature signal corresponding to the measured temperature; an initial value setting means for setting an initial value temperature and outputting a corresponding initial value temperature signal; Subtracting means for subtracting the initial value temperature signal from the temperature signal, A / D converting means for converting the output signal of the subtracting means into a digital signal, and addition of the output signal of the A / D converting means and the initial value temperature Adding means, and an arithmetic means for outputting a signal corresponding to a minimum value and a maximum value in the output signal output from the adding means within a predetermined time,
And a printing unit for printing the minimum value and the maximum value in a bar in response to a signal from the calculation unit.

Further, according to the invention of claim 3, a temperature sensor for outputting a temperature signal corresponding to the measured temperature, a signal corresponding to a minimum value and a maximum value in the temperature signal output within a predetermined time, and It is characterized in that it is provided with an arithmetic means for outputting a paper feed signal and a storage means for storing a signal corresponding to the minimum value and the maximum value and a paper feed signal.

[0009]

According to the present invention, the temperature sensor outputs a temperature signal corresponding to the measured temperature, and the calculating means corresponds to the minimum value and the maximum value in the temperature signal output within a predetermined time. The signal is derived and the printing means prints the minimum and maximum values in bars in response to the signal from the computing means.

In the invention according to claim 2, A
The / D conversion unit converts a signal corresponding to the difference between the temperature signal and the initial value temperature into a digital signal, the addition unit adds the output signal of the A / D conversion unit and the initial value temperature, and the calculation unit described above. The adding means outputs a signal corresponding to the minimum value and the maximum value in the output signal output within a predetermined time, and the printing means prints the minimum value and the maximum value in a bar in response to the signal from the calculating means.

Further, in the invention according to claim 3,
The temperature sensor outputs a temperature signal corresponding to the measured temperature, and the arithmetic means outputs a signal corresponding to the minimum value and the maximum value among the temperature signals output within a predetermined time and a paper feed signal, and the storage means Stores signals corresponding to the minimum and maximum values and a paper feed signal.

[0012]

1 is a block diagram showing an embodiment of a temperature recording apparatus of the present invention. In FIG. 1, an output terminal of a temperature sensor 101 arranged in a freezer of a refrigerating vehicle is connected to one of subtraction circuits 103 via a linearizer 102 that corrects non-linearity of the temperature sensor and converts it into a linear temperature signal. It is connected to the input terminal. The output terminal of the subtraction circuit 103 is connected to one input terminal of the addition circuit 105 via the analog / digital (A / D) conversion circuit 104. An output terminal of the adder circuit 105 is connected to an input terminal of a display circuit 106 including an LED or a liquid crystal display (LCD) and an arithmetic circuit 110 as an arithmetic means. The input / output terminal of the arithmetic circuit 110 is connected to the input terminal of a storage device 111 which is a storage unit composed of a random access memory (RAM). Also,
The output terminal of the storage device 111 is connected to the input terminal of the printer control circuit 114. A control terminal of the printer control circuit 114 is connected to the print switch 115, and an output terminal of the printer 112 as a printing unit having a printing function while feeding a recording paper (not shown) such as roll paper at a predetermined speed. It is connected to the input terminal.

On the other hand, the output terminal of the setting switch 108, which is an initial value temperature setting means composed of a key switch for setting the initial value temperature, has the other input terminal of the adder circuit 105 and the digital / digital input terminal via the decoder 109. It is connected to the input terminal of the analog (D / A) conversion circuit 107. The output terminal of the D / A conversion circuit 107 is connected to the other input terminal of the subtraction circuit 103.

The A / D conversion circuit 104 and the addition circuit 10
5, decoder 109, arithmetic circuit 110, storage device 111
The printer control circuit 114 can be configured by the one-chip microcomputer 113. Also,
It is also possible to use only the storage device 111 as a memory card or the like. The operation of the temperature recording device configured as described above will be described below.

First, by operating the setting switch 108, an initial value temperature, which is the central temperature of the temperature to be measured, is set. In this embodiment, the initial value temperature is set to -10 degrees C. When the number of bits of the A / D conversion circuit 104, which will be described later, is small, the measurement temperature range is limited narrowly, but the setting switch 108 for setting the initial value temperature is set.
By providing, the measurement temperature range is not narrowed even when an A / D conversion circuit with a small number of bits is used.

The initial value temperature signal corresponding to the initial value temperature set by the setting switch 108 is converted into a predetermined digital signal by the decoder 109, and then is supplied to the other input terminal of the adding circuit 105 and the D / A conversion circuit 107. Is output. The D / A conversion circuit 107 converts the initial value temperature signal from the decoder 109 into an analog signal, and then the subtraction circuit 1
It outputs to the other input terminal of 03.

On the other hand, the temperature sensor 101 outputs to the linearizer 102 a temperature signal corresponding to the temperature of the place where the refrigerator is arranged. The linearizer 102 linearly converts the temperature signal and then outputs it to one input terminal of the subtraction circuit 103. The subtraction circuit 103 includes a linearizer 102.
The initial value temperature signal is subtracted from the temperature signal from and output to the A / D conversion circuit 104. The A / D conversion circuit 104 converts the input signal into a digital signal and outputs the digital signal to one input terminal of the addition circuit 105. The adder circuit 105 is an A / D
The signal from the conversion circuit 104 and the initial value temperature signal from the decoder 109 are added, and the display circuit 106 and the arithmetic circuit 11 are added.
Output to 0. As a result, the display circuit 106 performs segment display or analog display corresponding to the temperature signal of the temperature sensor 101 at any time.

On the other hand, the arithmetic circuit 110 performs the processing shown in FIG. FIG. 2 is a flow chart for explaining the operation of the arithmetic circuit 110. The temperature data is taken in every 5 seconds, and the minimum value and the maximum value are selected for every 60 pieces of data and the storage device 111 together with the paper feed signal. Shall be output to. That is, the minimum value and the maximum value are selected at intervals of 5 minutes and stored in the storage device 111 together with the paper feed signal.

In FIG. 2, n representing the number of data is 1
(201). Next, the data A is fetched from the output signal of the adder circuit 105 into a register (not shown) (2
02), the data A is stored as the minimum value T _min and the maximum value T _max (203). Here, it waits until 5 seconds have passed (204). Next, the new data A is taken into the register (205), and when the new data A is smaller than the minimum value T _min , the new data A is set to the minimum value T _min (206, 207), Rewrite the contents of the register. If the new data A is larger than the maximum value T _max , the new data is set as the maximum value T _max (208, 20).
9) Rewrite the contents of the register. Here, wait for 5 seconds (210). Next, n is incremented by 1 (211). If n is less than 60, new data is fetched and the above operation is repeated (212). On the other hand, n is 6
When it becomes 0, that is, when the number of data becomes 60, the minimum value T _min and the maximum value T _max are stored in the storage device 111 together with the paper feed signal (213), and the above operation is ended.

The above processing is performed every 5 minutes, and the minimum value T _min , the maximum value T _max and the paper feed signal for each 5 minutes are sequentially stored in the storage device 111. When the print switch 115 is pressed after the above processing is completed, the printer control circuit 114 responds to this by pressing the minimum value data, the maximum value data and the paper feed signal stored in the storage device 111 in the order in which they are stored. To output to the printer 112.

[0021] In the printer 112, in response to a signal representative of the minimum value T _min and the maximum value T _max, the position corresponding to the maximum value T _max from the minimum value T _min printing mechanism such as a pen or a thermal head to a temperature axis It moves to and bar printing is performed. As a result, as shown in FIG. 3, the minimum value T _min
A bar print, which is a straight line showing T ₂ representing T ₁ and T ₁ representing the maximum value T _max , is drawn on the recording paper 301. next,
In response to the paper feed signal, the recording paper 301 is fed by the length corresponding to the 5-minute interval.

Thereafter, the above operation is repeated, and the bar printing is a straight line showing the minimum value T ₄ and the maximum value T ₃ of the temperature, the bar printing is a straight line showing the minimum value T ₆ and the maximum value T ₅ every 5 minutes. Minimum value T
.. and ₈ which are straight lines representing the maximum value T ₇ are sequentially printed on the recording paper 301. In this embodiment, the case where the number of the temperature sensor 101 is one has been described, but a plurality of temperature sensors may be used and only the minimum value and the maximum value of the temperature signals from those temperature sensors may be printed. in this case,
If a plurality of temperature sensors 101 are connected to each input terminal of the multiplexer and an output terminal of the multiplexer is connected to an input terminal of the linearizer 102 so that the multiplexer is switched in a time division manner at predetermined time intervals, The processing can be performed as described above.

As described above, according to the present embodiment, since only the minimum and maximum values of the temperature are bar-printed at a predetermined interval, the tendency of the temperature change irrespective of the paper feeding speed of the printer 112 is shown. It is possible to clearly represent the amount and it is possible to reduce the amount of recording paper used. In addition, the recording mechanism of the printer can perform the recording operation collectively only when necessary, and since the temperature curve is not always printed unlike the conventional method, the bar printing is printed at a predetermined time interval, power consumption is reduced. It is also possible to reduce the battery life and improve the life of the printer pen when the pen printer is used.

Further, since digital processing is performed by utilizing the difference between the initial value temperature set by the setting switch 108 and the temperature signal from the temperature sensor, the A / D conversion circuit 10
Processing is possible even if the number of bits such as 4 is small. Therefore, it is possible to measure and record a large temperature change using a one-chip microcomputer with a small number of bits, and it is possible to perform inexpensive and highly accurate measurement and recording.

Further, by configuring the storage device 111 with a memory card or the like, it becomes possible to carry only the memory card or the like to another location and perform bar printing with a general printer installed in another location. The effect that the convenience of use improves is produced.

[0026]

As described above, according to the first aspect of the present invention, only the minimum value and the maximum value of the temperature are bar-printed at a predetermined interval. Therefore, regardless of the paper feeding speed of the printing means. It becomes possible to clearly show the tendency of temperature change, and it is possible to reduce the amount of recording paper used. Further, it becomes possible to reduce power consumption.

According to the second aspect of the invention, since the digital processing is performed by utilizing the difference between the initial value temperature set by the setting means and the temperature signal from the temperature sensor, A
The processing can be performed even if the number of bits of the / D conversion means is small. Therefore, it is possible to measure and record a large temperature change using a one-chip microcomputer having a small number of bits, and it is possible to perform inexpensive and highly accurate measurement and recording.

According to the third aspect of the present invention, the storage means stores the signals corresponding to the minimum and maximum values and the paper feed signal, so that the storage means can be stored in another location. This makes it possible to carry only a bar and perform bar printing with a general printer, which brings about an effect of improving convenience of use.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is a flowchart of an arithmetic circuit for explaining the operation of the present invention.

FIG. 3 is a temperature recording diagram printed according to an embodiment of the present invention.

FIG. 4 is a temperature recording diagram printed by a conventional temperature recording device.

[Explanation of symbols]

 101 ... Temperature sensor 103 ... Subtraction circuit as subtraction means 104 ... A / D conversion circuit as A / D conversion means 105 ... Addition circuit as addition means 108 ... Initial value setting means Setting switch 110 ... Computation circuit as computation unit 111 ... Storage device as storage unit 112 ... Printer as printing unit

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Toru Shimazaki Toru Shimazaki 6972 Shimoyoshida, Yoshida-cho, Chichibu-gun, Saitama Prefecture In Taisei Co., Ltd. (72) Inventor Shozo Uchida 282 Ueto, Kawagoe City, Saitama Prefecture Kaken Co., Ltd.

Claims (3)

[Claims] 1. A temperature sensor for outputting a temperature signal corresponding to a measured temperature, an arithmetic means for outputting a signal corresponding to a minimum value and a maximum value in the temperature signal output within a predetermined time, and the arithmetic operation. A temperature recording device, comprising: a printing unit that performs bar printing of the minimum value and the maximum value in response to a signal from the unit. 2. A temperature sensor that outputs a temperature signal corresponding to a measured temperature, an initial value setting means that sets an initial value temperature and outputs a corresponding initial value temperature signal, and the initial value temperature signal from the temperature signal. Means for subtracting, an A / D conversion means for converting the output signal of the subtraction means into a digital signal, an addition means for adding the output signal of the A / D conversion means and the initial temperature, and the addition means. Calculating means for outputting a signal corresponding to the minimum value and the maximum value in the output signal outputted within a predetermined time from the printing means, and a printing means for printing the minimum value and the maximum value by a bar in response to the signal from the calculating means. A temperature recording device comprising: 3. A temperature sensor that outputs a temperature signal corresponding to the measured temperature, and a computing means that outputs a signal corresponding to a minimum value and a maximum value of the temperature signal output within a predetermined time and a paper feed signal. And a storage unit that stores a signal corresponding to the minimum value and the maximum value and a paper feed signal.