RU2181193C2 - Device measuring and indicating temperature - Google Patents

Abstract

FIELD: thermometry, temperature information by way of simultaneous indication of its value in several light panels. SUBSTANCE: device includes measurement unit, digital unit, transmission unit, reception units and indication units. In this case transmission unit is connected to reception units by two-wire communication lines. Number of reception and indication units is determined by number of needed positions of temperature indication. EFFECT: widened zone of temperature information display. 1 dwg

Description

 The invention relates to devices for measuring and indicating temperature and can be used to inform residents of a small village, workers of a large enterprise or institution about the ambient temperature by indicating its value simultaneously on several light displays installed in different places.

 Known devices for measuring temperature and the issuance of its value on the light panel. Examples of such devices include an automatic electronic thermometer [1, p. 34, fig. 1] and an electronic clock-thermometer with indication on a light board [2, p. 24].

 Closest to the claimed device is a diagram of a thermometer included in an electronic clock-thermometer [2, p. 24], comprising a measuring unit, a digital unit, and an indication unit. The measuring unit includes a temperature sensor connected in series, temperature - voltage and voltage - frequency converters, as well as a temperature sign generator, the input of which is connected to the temperature - voltage converter output. The digital block contains a pulse counting circuit, the first input of which is connected to the output of the voltage converter - frequency, and the second input is connected to the output of the counting interval shaper, and the outputs are connected by a multi-wire communication line to the inputs of the display unit decoder. The display unit also contains a light board, the first input of which is connected to the output of the driver of the temperature sign of the measuring unit, and the remaining inputs are connected to the outputs of the decoder.

 The disadvantage of these devices is that they are designed to control the operation of only one light panel.

 The objective of the invention is to expand the area for the issuance of information about the ambient temperature by simultaneously indicating its values on several light displays installed in different places. To do this, in a device for measuring and indicating temperature, containing a measuring unit, including a temperature sensor connected in series, a temperature-voltage converter and a voltage-frequency converter, as well as a temperature sign generator, the input of which is connected to the output of the temperature-voltage converter, a digital unit including pulse counting circuit, the first input of which is connected to the output of the voltage-frequency converter of the measuring unit, and the second input is connected to the first output The transmitter unit, N two-wire communication lines, N receiving units and N display units are additionally introduced to the transmitter of the counting interval of the digital unit, while the first input of the parallel load of the shift register of the transmitting unit is connected to the output of the driver of the temperature sign of the measuring unit, and the remaining inputs of the parallel download of the shift register of the transmitting blocks are connected to the outputs of the pulse counting circuit of the digital block, the recording input of the shift register of the transmitting block through the write pulse shaper the register is connected to the second output of the counting interval shaper of the digital unit, the input of the shift pulse of the shift register of the transmitting unit is connected to the output of the generator of the shift pulse of the transmitting unit, and the output of the shift register of the transmitting unit is connected to the input of the amplifier of the transmitting unit, the output of the amplifier of the transmitting unit via two-wire communication lines is connected to the inputs of the sequential load of the shift registers of the receiving units, the inputs of the shear pulses of which are connected to the outputs of the generators of the shear pulses of the receiving blocks, and the outputs of the shift registers of the receiving blocks are connected to the inputs of the decoders of the indication blocks connected by the outputs to the light board of the same blocks. The inclusion in the device for measuring and indicating the temperature of the transmitting unit, two-wire communication lines, receiving units and additional display units allows you to expand the area for the issuance of information about the ambient temperature by simultaneously displaying its values on several light displays installed in different places. In addition, due to the conversion of temperature information from parallel to serial code when it is transmitted via communication lines, the number of wires in them decreases to the minimum possible value equal to two.

The drawing shows a diagram of a device for measuring and indicating temperature. The device comprises a measuring unit 1, a digital unit 2, a transmitting unit 3, N two-wire communication lines (4 ₁ -4 _N ), N receiving units (5 ₁ -5 _N ), N display units (6 ₁ -6 _N ), and N - the number of communication lines, receiving units and display units is equal to the number of places of temperature display on the light panel.

 The measuring unit 1 includes a temperature sensor 7 connected in series, a temperature-voltage converter 8 and a voltage-frequency converter 9, as well as a temperature sign generator 10, the input of which is connected to the output of the temperature-voltage converter 8.

 The digital unit 2 includes a pulse counting circuit 11, the first input of which is connected to the output of the voltage-frequency converter 9 of the measuring unit 1, and the second input is connected to the first output of the counting interval generator 12 of the digital unit 2.

 The transmitting unit 3 includes a shift register 13, the first parallel loading input of which is connected to the output of the temperature sign generator 10 of the measuring unit 1, and the remaining inputs of the parallel loading of the shift register of the transmitting unit are connected to the outputs of the pulse counting circuit 11 of digital block 2, the shift register recording input of the transmitting unit through the shaper of the write pulse in the register 14 is connected with the second output of the shaper of the counting interval 12 of the digital block 2, the input of the shear pulses of the shift register the giving unit is connected to the output of the shear pulse generator 15, and the output is connected to the input of the amplifier 16 of the transmitting unit 3.

The receiving units 5 ₁ -5 _N include the shift registers 17 ₁ -17 _N , the inputs of the sequential loading of which through two-wire communication lines 4 ₁ -4 _{N are} connected to the output of the amplifier 16 of the transmitting unit 3, and the inputs of the shear pulses are connected to the outputs of the generators of the shear pulses 18 ₁ -18 _N receiving units 5 ₁ -5 _N, respectively.

Display units 6 ₁ -6 _N include decoders 19 ₁ -19 _N , the inputs of which are connected to the outputs of the shift registers 17 ₁ -17 _{N of the} receiving units 5 ₁ -5 _N, respectively, and the outputs are connected to the inputs of the light panel 20 ₁ -20 _N of the display units 6 ₁ -6 _N, respectively.

 The device operates as follows.

 As a result of the influence of the ambient temperature on the sensor 7, in the measuring unit 1, the signal from the output of the sensor is supplied to the input of the transducer temperature - voltage 8. The voltage from the output of the transducer 8 is proportional to the value and sign of the temperature; the voltage - frequency 9 and the temperature sign former 10 .

 At the output of the voltage-frequency converter, pulses appear, the repetition rate of which is proportional to the temperature value. These pulses are fed to the first input of the pulse counting circuit 11 of the digital block 2, it is counted for a period of time determined by the operation of the shaper of the counting interval 12, for which the signal from its first output is fed to the second input of the pulse counting circuit 11.

 The signal corresponding to the temperature sign is supplied to the first input of the parallel loading of the shift register 13 of the transmitting unit 3 from the output of the temperature sign generator 10 of the measuring unit 1, and the temperature value is supplied to the other inputs of the parallel loading from the outputs of the pulse counting circuit 11 of digital unit 2 in the binary-decimal code . The sign and temperature values are recorded in the register by applying a pulse from the second output of the shaper of the counting interval 12 of the digital block 2 to the recording input of the shift register 13 through the shaper of the write to the register 14.

 After the sign and temperature are recorded in the shift register 13, the shear pulse generator 15 of the transmitting unit 3 is started. The pulses, the number of which is equal to the bit capacity of the shift register 13, are output from the output of the shear pulse generator 15 to the input of the shift pulse of the shift register 13. Begins a shift in the contents of its cells, that is, the conversion of information from a parallel form of its presentation to a serial one.

From the output of the shift register 13 through the amplifier 16 and two-wire connecting lines 4 ₁ -4 _N signals carrying information about the sign and value of the temperature are fed to the inputs of the sequential download of the shift registers 17 ₁ -17 _N receiving blocks 5 ₁ -5 _N, respectively, in which the reverse process of converting information from serial to parallel occurs. When the first pulse arrives at the input of the sequential load of the shift registers 17 ₁ -17 _N from the transmitting unit 3, the shear pulse generators 18 ₁ -18 _{N of the} receiving blocks 5 ₁ -5 _N, respectively, are launched, from the outputs of which the signals are fed to the inputs of the shear pulses of the shift registers 17 ₁ -17 _N. The recording of pulses that carry information about the sign and value of temperature in the shift registers 17 ₁ -17 _{N is} carried out simultaneously with their shift.

After the input pulse sequence is completely placed in the shift registers 17 ₁ -17 _N , a binary-decimal temperature code will appear at their inputs, which goes to the inputs of the decoders 19 ₁ -19 _N of the display units 6 ₁ -6 _N, respectively.

Decoders 19 ₁ -19 _N convert the binary-decimal temperature code into control signals for segments of the light boards, which from their outputs go to the inputs of the light boards 20 ₁ -20 _N, respectively. Light boards 20 ₁ -20 _N indicate the sign and value of the ambient temperature.

 Thus, the inclusion in the device for measuring and displaying the temperature of the transmitting unit, two-wire communication lines, receiving units and additional display units allows you to expand the area for issuing information about the ambient temperature by simultaneously displaying its values on several light displays installed in different places. In addition, due to the conversion of temperature information from parallel to serial code when it is transmitted via communication lines, the number of wires in them decreases to the minimum possible value equal to two.

LITERATURE
1. Alferov V., Lyzhin S. Automatic electronic digital thermometer. The collection "To help the amateur radio", publisher DOSAAF USSR, 62, 1978.

 2. Gorshkov S. Electronic clock-thermometer. Collection "To help the amateur radio". Publishing house DOSAAF USSR, 98, 1987.

Claims (1)

 A device for measuring and indicating temperature, comprising a measuring unit including a temperature sensor in series, a temperature-voltage converter and a voltage-frequency converter, as well as a temperature sign generator, the input of which is connected to the temperature-voltage converter output, a digital unit including a pulse counting circuit the first input of which is connected to the output of the voltage-frequency converter of the measuring unit, and the second input is connected to the first output of the driver of the counting interval of the digital block, characterized in that the transmitting unit, N two-wire communication lines, N receiving blocks and N indication blocks are additionally inserted into the device, while the first input of the parallel loading of the shift register of the transmitting block is connected to the output of the temperature sign generator of the measuring unit, and the rest the inputs of the parallel loading of the shift register of the transmitting unit are connected to the outputs of the pulse counting circuit of the digital unit, the input of the recording of the shift register of the transmitting unit through the the register write pulse generator is connected to the second output of the digital block counting interval shaper, the input of the shift register of the shift register of the transmitting unit is connected to the output of the shift pulse generator of the transmitting unit, and the output of the shift register of the transmitting unit is connected to the input of the amplifier of the transmitting unit, the output of the amplifier of the transmitting unit via two-wire the communication line is connected to the inputs of the sequential loading of the shift registers of the receiving units, the inputs of the shear pulses of which are connected to the output m generators of shear pulses of the receiving blocks, and the outputs of the shift registers of the receiving blocks are connected to the inputs of the decoders of the indication blocks connected by the outputs to the light panel of the same blocks.