RU2057058C1 - Device for taking liquid from surface - Google Patents

Abstract

FIELD: liquid pumping. SUBSTANCE: device has intake pipe 4 mounted inside tank 7, float 1, plate 2 and cup 3 hermetically secured on plate 2, the latter being rigidly connected with float 1 forming clearance 5. Hole 6 to receive pipe 4 is made in bottom of cup 3. Pipe 4 is arranged vertically below liquid taking level. EFFECT: enlarged operating capabilities. 2 dwg

Description

 The invention relates to mechanical engineering, is intended for small-sized stations with a submersible pump and can be used in hydraulic tanks of pumping units of any kind of equipment, as well as for pumping liquid.

A device is known in which liquid is taken from its surface through a flexible hose [1]
A disadvantage of the known device is that the hoses cannot be used for suction in small-sized hydraulic tanks with submerged pumps and pumps installed under the cover of the hydraulic tank, due to the fact that they are wrinkled at small bending radii, and when the level of the working fluid in the tank changes - due to the stiffness of the hose, the float can be installed at an angle to the surface of the liquid, which can lead to air suction.

It is also known a device in which there is a float that eliminates the presence of a funnel during the final discharge of liquid [3]
A disadvantage of the known device is the lack of an intake pipe, which does not allow the intake of liquid from its surface, as the cleanest, which is necessary in the case of contaminated with mechanical impurities.

A device is also known comprising an intake pipe mounted inside the tank and a float [2]
However, the known device cannot be used in small tanks due to the bulkiness of the swivel intake pipe.

Closest to the technical nature of the claimed invention is a device for collecting fluid from its surface, including mounted inside the reservoir intake pipe, float and plate [4]
A disadvantage of the known device is its large dimensions, which makes it difficult and even impossible to place it inside a small tank, as well as additional pressure losses in the joints, which worsen the suction pump.

 The technical result of the claimed invention is to reduce the size of the suction pipe and reduce the pressure loss at the suction for submersible pumps.

 The specified technical result is achieved in that the device for collecting liquid from its surface, including a sampling pipe mounted inside the tank, a float and a plate, is equipped with a glass that is tightly mounted on the plate, which is rigidly connected to form a gap with the float, while an opening is made in the bottom of the glass to enter the intake pipe, and the latter is located vertically below the level of fluid intake.

 The use of a cup mounted on a plate connected to the float with an opening in its bottom allows the intake pipe to be inserted into the bottom of the cup and placed completely inside the liquid, which reduces the number of bends of the suction pipe and reduces its length for a hydraulic tank with a submersible pump and ensures minimal suction pressure loss for submersible pumps as well as pumps located under the hydraulic tank cover.

 In FIG. 1 shows a schematic diagram of a device; figure 2 is a variant of the device in section.

 A device for collecting liquid from its surface comprises a float 1, a plate 2, a glass 3, an intake pipe 4. The glass 3 is hermetically mounted on the plate 2. The plate 2 is rigidly connected to form a gap 5 with the float 1 mounted with the possibility of free vertical movement on the intake pipe 4. In the bottom of the cup 3, an opening 6 is made for the intake of the intake pipe 4, and the latter is located vertically below the level of liquid intake located in the tank 7. The outlet of the intake pipe 4 is connected to the pump 8 immersed in the liquid. Installing the pump inside the fluid increases pump life. The pump 8 is driven by an electric motor 9. The fluid enters the hydraulic system through a pipe 10.

 In this case, the glass 3 can be made cylindrical (Fig. 2) or conical (Fig. 1), telescopic (not shown) or stationary (Figs. 1 and 2).

 The device operates as follows.

 When you turn on the motor 9 in the suction cavity of the pump 8, the pressure drops sharply below atmospheric. A pressure difference is created at the ends of the suction pipe. The liquid through the gap 5 between the floats 1 and the plate 2 enters the intake pipe 4 and then into the suction cavity of the pump 8, and from the pump 8 through the pipe 10 into the hydraulic system. When the liquid level in the tank 7 changes, the float 1, together with the plate 2 rigidly connected to it and the cup 3, drops (when the fluid level drops) or rises (with a liquid level increase) relative to the inlet end of the intake pipe 4, interacting (sliding) with the bottom of the cup 3 with the outer surface of the vertical section of the intake pipe 4.

 In this case, the limiter of the stroke of the cup 3 together with the plate 2 and the float 1 is the float 1 itself, when it goes up against the tank cap 7, and when going down, when the minimum liquid level is reached, the tank 7 receives an electrical signal from a level sensor (not shown) located at a level above the lowest position of the float 1.

 Reliability of hydraulic systems by 80% depends on the quality of the working fluid. The use of the claimed invention dramatically improves the quality of the working fluid. The working fluid is supplied to the hydraulic system only from the upper layers of the tank, where it has less pollution, moisture and acids. The inventive device is compact and allows you to place it in small containers, which expands the scope of its use. In addition, the liquid in the tank (tank) is in a more relaxed state, since the liquid enters the suction pipe at a minimum speed due to the large area of the inlet gap. The calm state of the working fluid reduces foaming and air in the hydraulic system.

Claims (1)

 A device for collecting liquid from its surface, including a sampling pipe mounted inside the tank, a float and a plate, characterized in that it is provided with a glass that is tightly attached to the plate, which is rigidly connected to form a gap with the float, with a hole for entry in the bottom of the glass intake pipe, and the latter is located vertically below the level of fluid intake.

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