SU100592A1 - Water meter for measuring water flow through a rectangular water outlet with a submerged shield - Google Patents

Description

The invention relates to a water meter for measuring the flow of water through a rectangular water outlet with a submerged shield with small drops of water between the upper and lower pools.

The described water meter differs from analogous instruments of the same designation in that its mechanism, consisting of two logarithmic ele- ment patterns, a differential and a transmission system, provides an indication of the product of two variables — the shield opening and the differential value between the upper and lower ridges. channel.

FIG. 1 shows the outlets; pas figs. 2 is a water meter diagram according to the invention; in fig. 3 - diagram of the mechanism of the water quantity counter.

Water meter works on the principle of using the differential created by the shield water outlets of irrigation canals.

The water meter is designed for operation in water outlets with a submerged shield and a hole of rectangular cross section, which is closed by a shield equipped with a streamlined visor {Fig. one). With such a water outlet, the flow through the shield hole is defined by the formula:

Q .MaY,

Where;

LT is a constant coefficient, and is the magnitude of the shield opening (the distance from the bottom to the lower edge of the visor of Fig. 1),

Z - difference between the upstream and downstream.

The gauge of the water meter reacts to the change of two independent variables: head and open pin.

The sensitive, responsive e. Element is the bellows /. The movement of the bellows bottom with the help of lever 2, patterns 5, differential 4, gears 5 and 6 is transmitted to the arrow 7 of the pointing part of the device.

To transmit the change of the second variable — the opening of the shield — the gear transmission 8, the flexible roller 9, and the worm gear 10, whose wheel shaft acts on the lever //, which through the curve 12, the differential 4 and the gear transmission 5 and 6 transmit arrow 7. Logarithmic elements-templates 3 and 12 convert the direct dependences of the angles of rotation of the levers on the variables a to logarithmic, so that the summation of the angles performed by the differential 4 becomes equivalent; variable recallocation of variables a and I z, i.e., the heights of elevation up to 1-1 are the difference between the levels up to and noc: ie 1С11т; The production of these quantities corresponds to the value of 1YUDA in liters through the water supply.

In addition to the indicating part, there is a water quantity counter in the device. The total water flow rate 1K) of the time of the core 1 is determined with the help of an integrator with a falling lead driven periodically in a two-pin from the clock mechanism.

At the initial moment of the work cycle, the leash 13 (FIG. 3) occupies a certain position, fixed by the stop 14. Every 30 sec. the leash, by means of the sinker 15, engages with the five-wheel gear 16, connected with the axis of the 17th clock mechanism, and begins to lift. The lifting of the leash continues until it coincides with the mold 18, when it is rashed from the t-wheel 11 P0150DOK under the action of its own weight falls to the stop, occupies the original position.

When it moves upward, the leash with the help of the dog 19 is sumped with the su.mmiruyan, and the ratchet wheel 20 rotates it by an angle proportional to the flow rate and determined by the position of the arrow 21 of the pattern 18.

 periodic repetition works) integrator is the summation of the angles of rotation of the leash in time. The speed of the ratchet wheel 20 is transmitted to a counting mechanism 22, which indicates the amount of water flowing through.

Measuring mechanisms are mounted in the upper compartment of the instrument housing, covered with dust by a waterproof casing. In the lower hermetically sealed compartment, a bellows is changed to measure the pressure drop.

The device is installed in the well near the shield and connected to it with the help of a flexible cable; 1 9 and a gear 8, and also communicates with the upper and lower tails. The watch mechanism is equipped with a spring drive, ensuring non-interrupted two-week counter operation.

PRIOR TESTING ABOUT J) THETER AND N

A water meter for measuring the flow of water through a rectangular water outlet with a submerged shield, which is applied to two linear arithmic elements, the interaction of which through a gear system and differential differs from the arrow of the water meter to display 1; ti H1, ita and the difference in levels before and after the shield, which corresponds to the magnitude of the water consumption in the titles through the outlet.

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No. 100592

FIG. I