RU2450250C1 - Device for measuring heat carrier temperature and wireless temperature measuring device - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: electronic model consists of a base mounted by one face onto the binding head of a tailpiece, and by the other face, through a neck connected to the main substrate of the board with an electronic circuit. An antenna is mounted on the top face of the main substrate of the board. The housing of the electronic module is in form of a double-wing box consisting of two series-connected steps, each wing of the lower step having a cross wall with a centre groove, and the inner surface of the face of each wing of the lower step has a lodgement for holding the head of the tailpiece.

EFFECT: high accuracy of measuring temperature of heat carrier.

14 cl, 6 dwg

Description

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

Known technical solution according to the patent of the Russian Federation No. 2311622, class. G01K 7/32, 11/27/2007, in which the sensor comprises an all-metal mounting head fixed in the housing, in which a thermosensitive element is connected to the board. However, this technical solution does not provide reliable and accurate temperature measurement, since heat is transferred to the heat-sensitive element through an additional element, heat-conducting material.

Known "Temperature sensor" according to the patent of Russian Federation No. 2281466, class. G01K 1/14, G01K 7/32, 08/10/2004, which comprises a carrier tube fixed to the pipe by means of a fitting, in which the board is located, and a heat-sensitive element is enclosed in a sleeve connected to the carrier tube. However, this technical solution, as well as the previous one, has a heat-conducting material and, in addition, is difficult in design.

It is known "Device for measuring the temperature of the coolant" according to the patent of the Russian Federation No. 2373502, class. G01K 1/14, G01K 7/16, containing a pipeline with a fixed capsule with a nozzle, in the inner cavity of the capsule is a measuring and transmitting module, the printed circuit board of which is equipped with a shank located in the nozzle and provided with a sensing element, i.e. sensor. The capsule is closed with a cap with ventilation holes. However, this technical solution is difficult in constructive implementation of the capsule body with a nozzle and cap, as well as a measuring module.

The closest technical solution is the "Temperature sensor" according to the patent of the Russian Federation No. 2307330, class. G01K 7/16, publ. September 27, 2007, where a printed circuit board is connected in the housing cavity, connected to the temperature-sensitive element by means of a wire, and the temperature-sensitive element is located in the sleeve-pipe. However, this technical solution does not provide an accurate measurement of the temperature of the carrier, since part of it is lost on heating the metal casing.

The objective of the present invention is to improve the accuracy of measuring the temperature of the coolant by simplifying the design, as well as the development of a universal sensor used not only for measuring the temperature in a moving coolant, but also for measuring ambient temperature, such as air.

This object is achieved in that the device for measuring the temperature of the coolant, including a temperature sensor mounted on a pipeline equipped with a capsule, is characterized in that the capsule is made in the form of a glass with horizontal flanging at the open end, the inner surface of the capsule is provided with a thread in which the shank of the electronic module of a wireless temperature meter, the upper part of the shank is equipped with a fixing head, on which an electronic m a muzzle consisting of a base fixed by one end to the fixing head of the shank, and the other by means of an isthmus connected to the main substrate of the circuit board with an electronic circuit, and an antenna is fixed on the upper end of the main substrate of the board, the housing of the electronic module is made in the form of a closed one end and a central a hole on the other end of the double-leaf duct, consisting of two steps connected in series, the wings are connected along the longitudinal axis, pop is installed inside each leaf of the lower stage river dividing wall with a central slot, and the inner surface of each end of the lower-stage shutters is provided for lodgment shank fixation head, the electronic circuitry of the PCB is arranged to provide allowance for the influence of temperature on the circuit elements of the accuracy of measurement of the coolant temperature. The housing of the device may be cylindrical. The capsule on the pipeline can be fixed with an integral connection, for example, either by welding or by soldering. The capsule on the pipeline is fixed by means of a clamp with clamps, while a gasket is installed between the capsule and the pipeline. The detachable surfaces of each casement leaf are provided with latches made in the form of protrusions on one leaf, interacting with corresponding cavities on the other leaf. The body of the device is equipped with ventilation openings with curtains. The upper stage of the housing is made larger than the lower. The shank of the electronic module of the wireless temperature meter is made of a material with a high coefficient of thermal conductivity, such as copper or brass. The housing is made of dielectric material.

A wireless temperature meter contains a housing and a printed circuit board located in it, a heat-sensitive element is characterized in that the housing is made in the form of a double-leaf stepped box closed from one end and a central hole on the other end, consisting of upper and lower steps connected in series, the flaps are connected along the longitudinal axis , inside each leaf of the lower stage there is a transverse partition with a central groove, and the inner surface of the end of each leaf of the lower stage is equipped with on the lodgement for the fixing head of the shank of the electronic module of the wireless temperature meter, while the electronic module consists of a base fixed with one end to the fixing head of the shank, and the other end through the neck of the circuit board connected to the main substrate with the electronic circuit, and fixed on the upper end of the main substrate of the board the antenna, the electronic circuit of the printed circuit board is configured to take into account the influence of the temperature of the circuit elements on the accuracy of the temperature measurement of heat the settler. The housing may be cylindrical.

The detachable surfaces of each casement leaf are provided with latches made in the form of protrusions on one leaf, interacting with corresponding cavities on the other leaf.

The housing is equipped with ventilation openings with curtains. The housing is made of dielectric material.

Figure 1 presents a device for measuring the temperature of the coolant installed on the pipeline, figure 2 - wireless temperature meter, figure 3 - the same with a partial section, figure 4 - view A of figure 3, figure 5 - fixing the device by means of clamps, in Fig.6 - installation of the device on the tee of the pipeline.

A device for measuring the temperature of the coolant consists of a capsule 1 (see figure 1) mounted on the pipeline 2 and made in the form of a glass with horizontal flanging 3 at the open end, and the lower flanging surface adjacent to the pipeline can be made cylindrical, for reliable fit to the pipeline. The capsule 1 is fixed either on the pipe 2, while the protective sleeve 44 can be used, or on the tee 4 of the pipe, as shown in Fig.6, with the adapter sleeve 43 being used if necessary. The adapter sleeve 43 can be made in one piece with the capsule 1. The capsule 1 can be fixed either with an integral connection, for example by welding, soldering flanging to the pipeline, see Fig. 1, or a detachable connection, see Fig. 5, by means of a transition clamp 5 and a clamp 6, with a gasket 7 installed between the pipeline and flanging while the transition clamp 5 and the clamp 6 are made of a material with low thermal conductivity.

In the capsule 1, the shank 8 of the wireless temperature meter 9 (see FIG. 2) is fixed, the shank 8 is made of a material with a high coefficient of thermal conductivity, such as copper or brass. The shank 8 is made with an external thread interacting with the internal thread 11 of the capsule 1, and the upper part of the shank is provided with a fixing head 12 (see FIG. 3), on which an electronic module 13 is enclosed in the housing. Electronic module 13 (see FIG. 3 ) consists of a base 14, fixed with its lower end 15 on the fixing head 12 of the shank 8, and the upper end 16 is connected via the neck 17 to the lower end 18 of the main substrate of the board 19, on which an electronic circuit (not shown) is made on one side, and on the other hundred the power source 20 is fixed. The shank 8 is made with an internal central through hole 21, in which the terminal 22 of the base 14 of the printed circuit board 19 is fixed, while the topological conductors of the electronic circuit are located on the isthmus 17, in the base 14, the end 22 and are connected to the terminals of the sensing element 23, also located in the end zone of the through hole 21 of the shank 8. At the upper end 24 of the board 19, an antenna 25 is installed. The electronic circuit of the printed circuit board is configured to take into account the influence of temperature s circuit elements on the measurement accuracy of the investigated medium temperature.

A wireless temperature meter 9 (see FIG. 2) consists of an electronic module 13 mounted in a housing made of a material with low thermal conductivity, such as plastic. The body of the wireless temperature meter 9 is made in the form of a box closed from one end 27 and a central hole 28 on the other end 29 and consists of two leaf-parts 30, 31 connected along the axis of the box. Each leaf is made of successively docked steps, the upper 32 and the lower 34. The upper step 32 of the housing is made of a larger diameter, and the lower step 34 adjacent to its lower end 33 is made of a smaller diameter. On the surface 35 of the connector of one leaf 30, protruding hooks 36 are made, interacting with the corresponding recesses 37 on the surface of the other leaf 31. A transverse partition 38 with a central groove 39 is installed inside each lower stage 34 of both wings, while on the inner surface of the end face 29 of each leaf of the lower stage a lodgement 40 is fixed, interacting with the fixing head 12 of the shank 8. The housing is provided with ventilation holes 41 provided with protective shutters 42. The electronic module 13 is inserted into one of Orok housing and fixed by a fixing head 12 in the cradle 40, and then closes the second flap carrying compound latches 36. In this assembled wireless temperature meter 9 shank 8 is threaded into the capsule 1 mounted on a pipeline, or a tee. This wireless temperature meter 9 can measure the temperature of the environment, such as air, since the sensing element 23 is located at the end of the open hole 21 of the shank 8.

The device operates as follows. To measure the temperature of the coolant flowing in the pipe, the device is installed either on the pipe or on the pipe adapter, while first capsule 1 is fixed by any known method - by soldering, welding, clamps, then a wireless temperature meter 9 is screwed into the capsule. When the coolant passes inside the pipe, it washes, i.e. in contact with the capsule, while the temperature of the capsule corresponds to the temperature of the coolant. The sensing element 23 of the electronic module 13 located in the capsule will have the same temperature, the signal from which goes to the electronic circuit of the wireless temperature meter and is transmitted via the radio channel to the temperature indicator and / or thermal energy calculator (not shown in the drawing), where, Using data on the coolant flow rate and its temperature, the consumed heat energy is calculated.

The presence of the base 14, connected through the isthmus 17 with the main substrate of the board 19, eliminates heat leakage from the external environment to the shank 8 and vice versa.

The proposed design of a device for measuring the temperature of the coolant and a wireless temperature meter are simple both in manufacture and in operation. This device is manufactured, tested and has shown reliable operation in heating systems.

Claims (14)

1. A device for measuring the temperature of the coolant, including a temperature sensor mounted on a pipeline equipped with a capsule, characterized in that the capsule is made in the form of a glass with horizontal flanging at the open end, the inner surface of the capsule is provided with a thread in which the shank of the electronic module of the wireless temperature meter is fixed , the upper part of the shank is equipped with a fixing head on which the electronic module enclosed in the housing is fixed, consisting of a base, fixed about one end on the fixing head of the shank, and the other end through the isthmus of the circuit board connected to the main substrate with the electronic circuit, and the antenna is fixed on the upper end of the main substrate of the board, the housing of the electronic module is made in the form of a double-leaf box closed from one end and a central hole on the other end consisting of two steps connected in series, the leaves are connected along the longitudinal axis, a transverse partition with a central groove is installed inside each leaf of the lower stage, and Cored oil end surface of the lower-stage lodgment of each leaflet is provided for fixing the head of the shank, the electronic circuitry of the PCB is arranged to provide allowance for the influence of temperature on the circuit elements of the accuracy of measurement of the coolant temperature. 2. The device according to claim 1, characterized in that the housing can be made cylindrical. 3. The device according to claim 1, characterized in that the capsule on the pipeline can be fixed with an integral connection, for example, either by welding or soldering. 4. The device according to claim 1, characterized in that the capsule on the pipeline is fixed by clamping with clamps, while a gasket is installed between the capsule and the pipeline. 5. The device according to claim 1, characterized in that the detachable surface of each casement leaf is provided with latches made in the form of protrusions on one leaf, interacting with corresponding cavities on the other leaf. 6. The device according to claim 1, characterized in that the housing of the device is equipped with ventilation openings with curtains. 7. The device according to claim 1, characterized in that the upper stage of the housing is made larger than the lower. 8. The device according to claim 1, characterized in that the shank of the electronic module of the wireless temperature meter is made of a material with a high coefficient of thermal conductivity, such as copper or brass. 9. The device according to claim 1, characterized in that the housing is made of dielectric material. 10. A wireless temperature meter, comprising a housing and a printed circuit board located therein, a heat-sensitive element, characterized in that the housing is made in the form of a double-leaf step box closed from one end and a central hole on the other end, consisting of a series of upper and lower steps connected, sash connected along the longitudinal axis, inside each leaf of the lower stage there is a transverse partition with a central groove, and the inner surface of the end of each leaf of the lower stage of sleep wife with a lodgement for the fixing head of the shank of the electronic module of the wireless temperature meter, while the electronic module consists of a base fixed with one end to the fixing head of the shank, and the other end through the neck of the circuit board connected to the main substrate with the electronic circuit, and fixed on the upper end of the main substrate of the board the antenna, the electronic circuit of the printed circuit board is configured to take into account the influence of the temperature of the circuit elements on the accuracy of the temperature measurement Carrier. 11. The wireless temperature meter according to claim 10, characterized in that the housing can be made cylindrical. 12. The wireless temperature meter according to claim 10, characterized in that the detachable surfaces of each casement leaf are provided with latches made in the form of protrusions on one side, interacting with corresponding cavities on the other leaf. 13. The wireless temperature meter according to claim 10, characterized in that the housing is equipped with ventilation openings with curtains. 14. The wireless temperature meter according to claim 10, characterized in that the housing is made of dielectric material.

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