RU2466365C1 - Self-contained wireless device for measuring temperature of surface of object - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: disclosed is a self-contained wireless device for measuring temperature of the surface of an object, having a detachable housing inside of which there is a heat pipe connected to a detecting element for measuring temperature. The heat pipe has lateral locks, and the housing consists of a base having a central through-hole and is provided with supports and a cover in form of a box. The inner surface of the base in the zone of the hole is provided with a lodgement for fixing the heat pipe, said lodgement being in form of a cup with a hole at the bottom and placed with the bottom up. Between the heat pipe and the surface of the object there is a heat-conducting spacer. Leads from the detecting element pass through the hole in the bottom of the lodgement and are connected to an electronic circuit lying on the board of the electronic module which is provided with an antenna. The end surfaces of the cover are provided with latches which interact with the corresponding elements of the base during connection.

EFFECT: high accuracy of temperature measurements, possibility of taking measurements without an operator.

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Description

The invention relates to thermometry, namely to contact sensors for measuring both the surface temperature of an object, and for measuring the temperature of any environment, such as air. This device can be used in various industries, for example, the oil, gas, chemical, food industries, as well as in public utilities for measuring the surface temperature of an object with a coolant in heating pipes of buildings, regardless of the diameter of the pipe.

Known "Device for measuring the temperature of the medium and surface" according to the patent for utility model No. 90555, class. G01K 7/02, publ. 01/10/2009, where two thermoelectrodes with working junctions, forming a thermocouple, are located in a casing with a cork. However, this device does not provide reliable temperature determination, since it requires cleaning and polishing of both the surface and working junctions.

Known technical solutions for the patent for utility model No. 74468, class. G01K 7/00, publ. 06/27/2008 and the same patent of the Russian Federation No. 2393442, in which in a cylindrical body made in the form of a thin-walled cup, an elastic heat sink is fixed, pressed by a spring. However, these technical devices are inconvenient in operation.

There is a technical solution for copyright certificate No. 1451558, class. G01K 7/04, 02, publ. 01/15/1989, where an elastic element is fixed in the casing, in the longitudinal axial hole of which are the terminals of a thermocouple located in a spiral on a flexible plate fixed to the end of the flexible element. However, this technical solution is not convenient in operation.

The closest technical solution is the "Device for measuring the surface temperature of the object" according to the patent on PM No. 66038, class. G01K 7/00, publ. 08/27/2007. In this technical solution, in a split housing made with a through axial hole, a tip is fixed in one of the ends, on the working end of which there is a plate temperature resistance sensor. The sensor leads through the through holes are connected to the recorder. However, this technical solution does not provide constant monitoring of temperature, it is cumbersome in design, has many metal parts, which with its heat-absorbing actions affect the accuracy of the measured temperature.

The technical task of the present invention is to provide such a device that would provide continuous monitoring of the measured temperature without operator intervention, was convenient to operate, easy to manufacture and provided reliable accuracy of temperature measurement.

This object is achieved by the fact that in an overhead wireless surface temperature meter of the object containing a detachable body, in the cavity of which is mounted a heat conduit connected to a sensing element for measuring temperature, the heat conduit is made with side latches, and the case consists of a base made with a central through a hole and equipped with uprights, and a cover made in the form of a box, the inner surface of the base in the area of the hole is equipped with a lodgement for fixing the heat conduit, By the way, the lodgement is made in the form of a glass with a hole in the bottom and is installed with the bottom up, the sensing element is fixed inside the heat conduit, and there is a heat-conducting gasket between the heat conductor and the surface of the object, the conclusions from the sensitive element pass through the hole in the lodgement bottom and are connected to the electronic circuit located on the board an electronic module equipped with an antenna, which are mounted on the base by means of racks, and the electronic circuit board is configured to take into account the influence of temperature atura of circuit elements on the accuracy of measuring the temperature of the coolant. The end surfaces of the lid are provided with latches that interact with the corresponding elements of the base when connected. The base, cover, lodgement and inserts of the meter are made of dielectric material. The base of the meter on the surface of the object is fixed by means of clamps using heat-insulating inserts. The base of the meter on the surface of the object is fixed by means of angles to the screws or double-sided self-adhesive gasket.

Figure 1 shows the invoice wireless temperature meter, figure 2 is a section along aa of figure 1, figure 3 is a section along bb of figure 2, figure 4 is a view C in figure 2, figure 5 - invoice wireless surface temperature meter of a flat object.

An overhead wireless meter 1 of the surface temperature of the object (see Fig. 1) is installed on the pipeline 2, includes a housing consisting of a base 3 provided with a through hole and struts 4, as well as a cover 5 made in the form of a box. A lodgement 7 is fixed on the inner surface 6 of the base 3 for fixing the heat conduit 8 with the sensing element 9 fixed inside it. The heat conduit is made with lateral latches 19. The lodgement 7 is made in the form of a cup with a hole 10 in the bottom and is installed with the bottom up. The conclusions 11 of the sensing element 9 pass through the hole 10 and are connected to an electronic circuit located on the circuit board of the electronic module, consisting of the circuit board 12, and fixed to it by the racks 13 of the antenna 14. The base 3 and the cradle 7 can be made as a whole. Between the surface of the pipe 2 and the heat conductor 8, a heat-conducting gasket 15 or paste is disposed. The base 3, the cover 5, the lodgement 7 and the insert 16 are made of heat-insulating material. The end surfaces of the lid are provided with latches (not shown in the drawing) that interact with the corresponding elements (such as bayonet connection) when they are connected.

The overhead wireless temperature meter works as follows. To measure the temperature of the coolant flowing in the pipe 2, the meter is installed on the pipe by means of heat-insulating inserts 16 and clamps 17, see figure 1. When measuring the surface temperature of a flat object, see Fig. 5, the meter is mounted on the surface by means of angles 18 and fixed with screws or a double-sided self-adhesive gasket. When the heat carrier passes inside the pipe 2, it heats its walls, and heat is transferred through the heat-conducting gasket 15 to the heat-conducting pipe 8 and to the sensitive element 9 fixed inside it, while the signal from the sensitive element is transmitted to the electronic circuit board 12 through conclusions 11, and then through the antenna 14 is transmitted via a radio communication channel to a temperature indicator and / or a thermal energy calculator (not shown in the drawing), where, using data on the coolant flow rate and temperature, thermal energy is calculated. The presence of the lodgement 9 with the closed bottom of the insulating inserts 16 eliminates heat leakage from the external environment of the heat conduit and vice versa.

The proposed design of an overhead wireless heat carrier temperature meter is simple both in manufacture and in operation. This device is manufactured, tested and has shown reliable operation in heating systems.

Claims (5)

1. An overhead wireless surface temperature meter of an object comprising a detachable body, in the cavity of which a heat conduit is fixed, connected to a temperature sensing element, characterized in that the heat conduit is made with lateral latches, and the detachable body consists of a base made with a central through hole and equipped with racks and a cover made in the form of a box, the inner surface of the base in the area of the hole is provided with a lodgement for fixing the heat conduit, and the lodgement you it is filled in the form of a glass with an opening in the bottom and installed upside down, the sensing element is fixed inside the heat conduit, and there is a heat-conducting gasket between the heat conductor and the surface of the object, the conclusions from the sensitive element pass through the hole in the lodgement bottom and are connected to the electronic circuit located on the electronic module circuit board equipped with an antenna, which are fixed on the base by means of racks, and the electronic circuit board is configured to take into account the influence of the temperature of the elements with emy on the accuracy of the measurement temperature of the coolant. 2. An overhead wireless surface temperature meter according to claim 1, characterized in that the end surfaces of the lid are provided with latches that interact with the corresponding base elements when connected. 3. An overhead wireless surface temperature meter of an object according to claim 1, characterized in that the base of the meter body on the surface of the object is fixed by means of clamps using heat insulating inserts. 4. An overhead wireless surface temperature meter for an object according to claim 3, characterized in that the base, cover, lodgement and meter inserts are made of dielectric material. 5. An overhead wireless surface temperature meter according to claim 1, characterized in that the base of the meter body on the surface of a flat object is fixed by means of corners to screws or a double-sided self-adhesive gasket.

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