RU22710U1 - LIQUID HEATER FLOW METER - Google Patents

Description

LIQUID HEATER FLOW METER

The utility model relates to the field of instrumentation and can be used to measure and record the flow of coolant in consumer networks of heat supply and hot water supply.

Known single-string water meter (liquid coolant), containing a recorder and a housing having on the opposite sides of the inlet and outlet nozzles located on an axis passing through the axis of rotation of the impeller, located in a sealed enclosure (RU Patent No. 2146040, IPC G 01 F 1 / 06, pr 13.08.98).

A disadvantage of the known meter is its limited ability to measure only the volume of liquid without taking into account its heat content, i.e. temperature.

The closest technical solution to the claimed one is a liquid coolant flow meter containing an impeller mounted on an axis and a counting mechanism placed in an airtight housing and connected by means of a magnetic coupling with the possibility of interaction through the wall of the housing. The counter is also equipped with a divider (variator) placed in the housing from the inlet side and kinematically connected with the free end of the thermo-bimetallic spring, the opposite end of which is rigidly fixed to the partition of the housing, to which the impeller axis is rigidly connected. An adjusting mechanism (screw) is installed in the housing, which is connected to the partition by means of a plug (RU Patent No. 2135967, IPC G 01 K 17/14, G 01 F 1/08, publ. 08.27.99) - prototype.

This counter allows you to measure and record the flow rate of the coolant, taking into account its heat content, but it does not provide

stable measurement accuracy due to changes in the geometric dimensions of nodes and parts located in the internal cavity of the flowing part of the meter body, in particular the divider, due to

the appearance on their surfaces of strong mechanical deposits (most often, scale), formed during operation as a result of contact with hot coolant (hot water). Changing the geometrical dimensions of the divider can significantly affect the hydraulic characteristics of the fluid flow directed to the meter impeller, affect its rotation, distorting the measurement and recording results.

In addition, it is difficult to adjust the bimetallic spring in real mode, because this requires stopping the process and disassembling the meter case, which creates great inconvenience, for example, during periodic verification.

The objective of the utility model is to create a meter that can measure and record the flow of hot water from the consumer.

The technical result that will be achieved by using this utility model is to expand the technological capabilities of the meter.

The technical result is achieved by the fact that in the flow meter of the liquid coolant, including an impeller enclosed in a sealed housing, mounted on an axis and connected through a sealed partition with a counting mechanism, a variator and a heat-sensitive element, a pocket cavity is made in the body, in which there is a heat-sensitive element kinematically connected with a variator. The variator is made in the form of a gear mechanism.

The location in the housing of a pocket cavity with a thermosensitive element kinematically connected to the variator in the form of a transmission mechanism allows it to measure and record the flow rate of the coolant with high accuracy depending on its current heat content, i.e. temperature, giving the consumer a complete picture about the quality of the consumed coolant (product).

From the analysis of scientific, technical and patent literature, the claimed combination of design features has not been identified, which will allow

to conclude that the claimed technical solution meets the criterion of "novelty.

A utility model is illustrated in the drawing, where in FIG. shows a section of a General view of the counter.

The flow rate meter of the liquid coolant consists of a sealed housing 1, in which an impeller 3 with a magnetic coupling half 4 is installed on the axis 2, which interacts through a sealed partition 5 with a magnetic coupling half 6. The latter is kinematically connected through a variator 7 and a sliding coupling 8 with a counting mechanism 9. In the housing 1 there is a pocket cavity 10 located in the coolant flow (at the inlet or outlet of the impeller 3). In the pocket cavity 10, a thermosensitive element 11 is installed, kinematically connected to the variator 7 through an adjustment screw 12, a lever 13 and a leash 14. The free end of the lever 13 is connected to the partition 5 by a return spring 15. The variator 7 is a transmission mechanism and consists of a disk shaft 16, rigidly connected to the magnetic coupling half 6, and kinematically - with a friction roller 17, one end of the axis of which is equipped with a sliding coupling 8, and the other with a leash 14.

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The utility model is implemented as follows.

The flow of liquid coolant (liquid) enters the fitting of the sealed housing 1 and passing through the cavity of the impeller 3 mounted on the axis 2, it rotates with an angular velocity equivalent to the flow rate of the fluid (coolant) passing through the meter. The rotation of the impeller 3 is transmitted, through magnetic couplings 4 and 6, through an airtight baffle 5, to the disk shaft 16 of the variator 7 and then, through a friction roller 17 and a sliding sleeve 8, to a counting mechanism 9, which records the measurement of the volume of coolant passing through the meter. In turn, the heat-sensitive element 11 located in the thermowell 10 acts on the axis of the friction roller 17 through the adjusting screw 12, the lever 13, the spring 15 and the leash 14.

When the temperature of the coolant flow passing through the counter changes, the heat-sensitive element And acts on the variator 7, which leads to a change in the gear ratio of the rotational speeds of the impeller 3 and the counting mechanism 9. As a result, with the same coolant flow rate, a relative increase in its temperature leads to an overestimation meter readings, and its decrease - to reduce the latter, thereby reflecting a change in the heat content of the measured coolant flow.

This meter design is simple and reliable in operation and adjustment and has a measurement accuracy sufficient for practical use in existing heat supply and hot water supply systems of the municipal and industrial sectors.

Claims (1)

A liquid coolant flow meter including an impeller enclosed in a sealed housing mounted on an axis and connected through a sealed partition with a counting mechanism, a variator and a heat-sensitive element, characterized in that a pocket cavity is located in the housing, in which a heat-sensitive element is located kinematically connected to the variator, made in the form of a gear mechanism.