RU98240U1 - TEMPERATURE STICK-UP SENSOR - Google Patents

Abstract

1. Attachable temperature sensor containing a temperature-sensitive element, a sealed housing and a power supply, characterized in that a resistance sensor is used as a temperature-sensitive element, and the temperature-sensitive element is isolated from the external environment using poroizol. ! 2. Attachable temperature sensor according to claim 1, characterized in that the device is equipped with a radio transmitter for transmitting data to the recorder, connected directly to the temperature-sensitive element. ! 3. An overlay temperature sensor according to claim 1, characterized in that the device is supplemented with fastening means, consisting of a fastening board and two fastening brackets that tightly press the structure to the pipe, and the device body is made of two halves, one of the halves contains a mounting protrusion, and the second - a depression, and when connected, they snap into place, reliably localizing the internal space with functional structural elements.

Description

The utility model relates to the field of instrumentation, in particular to devices for measuring temperature, and can be used in systems for accounting for heat consumption by local consumers, for example, in public utilities, in systems for accounting for heat consumed by a separate apartment in an apartment building.

Known temperature sensors containing a housing and placed in it a thermosensitive element. In this case, the sensitive element of the temperature sensors is a thermally dependent resistance (usually copper or platinum) or a thermocouple (for example, chromel-copel, chromel-alumel, etc.) inserted into a protective pipe (fittings, sleeve). To measure the temperature of the coolant in the pipe, a "submersible" type sensor is usually used. At the same time, a hole is made in the pipe wall into which the sensor sleeve is inserted and fixed with its fitting (see, for example, “Electrical Measurements of Non-Electric Values”, edited by Novitsky. Ed. 6th, revised and supplemented L. “Energy ", 1983) [1].

A disadvantage of the known devices [1] is the complexity of their installation, because “insertion” of temperature measuring sensors into the pipeline is required. In addition, in cases where the diameter of the pipe is close to the length of the working part of the sleeve or more, this measurement method gives a large error or is generally impossible.

Also known is the temperature sensor of the consignment note containing the sensing element and the sealed housing, wherein the resistance thermometer is connected directly to the resistance-current converter, and the temperature of the coolant is measured by direct contact to the pipeline wall by the sensing element. (see, for example, Patent for PM No. 37415 according to class G01K 5/00 for 2004) [2].

The known device [2] is devoid of the disadvantages of the sensors "submersible" type [1], as it reads the temperature of the coolant directly from the surface of the pipeline and does not require "tapping" into the pipe.

However, the temperature-sensitive element of the sensor [2] is subject to the influence of ambient temperature, since the design of the sensor does not provide any thermal insulation of the temperature-sensitive element. This effect increases the errors in the operation of the device [2]. In addition, the known device [2] is not equipped with a wireless radio transmitter, which makes it impossible to automatically collect information about measurements from this device by a building-wide heat metering system. Also in the known device [2] does not provide a mechanism for fast and high-quality fastening of the sensor to the pipeline.

The problem to which the proposed utility model is directed is to improve the design of the device.

The technical result that will be achieved by using this utility model is to minimize errors in the operation of the device, to supplement the device with radio communications and a mechanism for fast and high-quality fastening of the sensor to the pipeline.

The above technical result is achieved due to the fact that in a surface temperature sensor containing a thermally sensitive element on a heat-conducting plate or in a thermally conductive housing, a sealed housing and a power supply, according to the proposal, a resistance sensor is used as a thermally sensitive element, and the insulation of the thermally sensitive element from the external environment carried out using poroizol. In this case, the device is equipped with a radio transmitter for transmitting data to the recorder, connected directly to the heat-sensitive element. In addition, the device is supplemented by fastening means, consisting of a mounting plate and two fastening brackets, firmly pressing the structure to the pipe, and the device body is made of two halves, one of the halves containing a fastening protrusion, and the second cavity, and when connected, snap into place, reliably localizing interior space with functional structural elements.

The applicant has not found sources of information containing the same set of essential features specified in the formula of the utility model, which allows us to conclude that the proposed technical solution meets the criterion of "novelty."

The utility model is illustrated in the drawing, where figure 1 shows the functional part of the device with the removed upper part of the housing.

The surface temperature sensor contains a temperature-sensitive element (1), a radio transmitting module (2), an electronic board (3), a right mounting bracket (4), a mounting plate (5), a power supply (6), a left mounting bracket (7), which is reliable fixes the functional part of the device on the pipeline (8), as well as the housing (9), which in turn contains a mounting protrusion (10).

The invoice temperature sensor operates as follows.

The temperature-sensitive sensor (1) takes temperature readings every 30 seconds directly from the surface of the pipeline (8) and immediately transmits data to a radio transmitting module (2), which in turn sends data to an information receiving and processing device.

The electronic board (3), securely fixed by the mounting plate (5) with the help of mounting brackets (4, 7), ensures that there are no errors during measurements made by the temperature-sensitive sensor (1), and the sealed housing (9) localizes the internal space with functional structural the external environment.

Using the proposed utility model will improve the accuracy of temperature measurements and ensure the convenience and reliability of data transmission from a temperature measurement sensor to a system for accounting for heat consumed by local consumers, for example, in public utilities, in systems for accounting for heat consumed by a separate apartment in an apartment building.

Claims (3)

1. An overhead temperature sensor containing a thermosensitive element, a sealed housing and a power supply, characterized in that a resistance sensor is used as the thermosensitive element, and the insulation of the thermally sensitive element from the external environment is carried out using poroizol. 2. The invoice temperature sensor according to claim 1, characterized in that the device is equipped with a radio transmitter for transmitting data to a recorder connected directly to the heat-sensitive element. 3. The laid on temperature sensor according to claim 1, characterized in that the device is supplemented by fastening means consisting of a mounting plate and two fastening brackets tightly pressing the structure to the pipe, and the device body is made of two halves, one of the halves containing a mounting protrusion, and the second is a hollow, and when connected, they snap into place, reliably localizing the internal space with functional structural elements.