RU2682536C2 - Autonomical high pressure washing unit - Google Patents

Abstract

FIELD: physics.SUBSTANCE: invention relates to self-contained high-pressure washing machine. Proposed device comprises housing (1) accommodating motor (2), DC/AC converter (3), and high-pressure liquid pump (4). Suction fluid is supplied to high pressure pump (4) via inlet hose (5) connected to suction inlet (6). Part of the sucked-in fluid passes through the inlet line through the cooling jacket of electric motor (7), and its other part through inverter (8) cooling radiator. High pressure outlet hose (10) is connected to discharge outlet (9) for discharge of pressurized fluid. Inverter (3) is connected to vehicle battery by positive (11) and negative (12) connectors of supply wires. On front wall of housing (1) there are control and indication elements.EFFECT: technical result consists in providing autonomy and high efficiency of cleaning.11 cl, 5 dwg

Description

The invention relates to the class of various devices intended for cleaning products using jets of liquid under pressure and is proposed for use for cleaning surfaces from various vehicles equipped with a battery in the inaccessibility of a household power supply and central water supply.

Various devices for washing vehicles using the vehicle’s rechargeable battery as a power source are known in the art.

For example, from published application RU2264265C1, the “PORTABLE DEVICE FOR WASHING THE EXTERNAL SURFACE OF VEHICLES” is known. The disadvantage of this technical solution is to limit the volume of washing liquid, since a plastic bottle is used as a container. Also, this device has a low cleaning performance, due to the low pressure of the jet of washing liquid, since the drive electric motor is supplied from the cigarette lighter socket of the car, which, as a rule, has limited output.

Closest to the claimed technical solution is a high pressure washer, known from published application RU2422217C1. The disadvantages of this technical solution is the need to connect the washing machine to a household electrical outlet, that is, the impossibility of its operation by connecting directly to the vehicle’s battery.

The problem to which the present invention is directed, is to ensure autonomy in combination with high productivity of work on cleaning vehicle surfaces from contaminants using the vehicle’s own battery in conditions where the household electrical network and central water supply are unavailable.

Ensuring high productivity of work on cleaning the vehicle surfaces from contamination in the present invention is achieved due to the fact that the washer housing contains a voltage converter from direct to alternating current, hereinafter referred to as an inverter, for example 12-220 volts or 24-220 volts, which is selected according to the output power corresponding to the power consumption of the drive motor.

The presence of a built-in inverter makes it possible to use widely used AC collector motors as a drive motor and, due to this, provide the required torque for the high-pressure pump and obtain an output stream of high-pressure liquid, and, thus, ensure the independence of the device from the household power supply.

As a high-pressure pump, it is proposed to use a plunger pump widely used in engineering. As you know, before starting operation, the cavity of the plunger pump must be filled with water, since using the pump without water in the so-called “dry running” mode can lead to damage.

Since it is supposed to take liquid in the washing machine from open reservoirs (buckets, cans, barrels, etc.), a manual piston pump and a float level gauge are additionally built into the intake manifold to visually control the filling of the system liquid. There is also a special recess in the body of the washer to accommodate the hand pump grip in it when transporting the washer. The pump handle can rotate freely around its axis and is fixed in the recess with the help of L-shaped clamps. In addition, the built-in hand pump can be used after the washing machine is completed to remove residual liquid from the inlet line and the cavity of the high pressure pump, which increases the usability of the device and reduces the likelihood of corrosion of the metal components of the device.

Additionally, to protect the high-pressure pump from dry running, a float switch is installed in the intake manifold, which interrupts the electric circuit of the drive motor when the fluid level drops below the permissible level.

For the final discharge of the liquid remaining in the cavities of the intake manifold after the end of the washing machine, a drain valve is provided.

During the operation of the washing machine, the suction fluid entering the high-pressure pump is partially heated due to the fact that one part passes through the cooling jacket of the electric motor, and the other part through the inverter cooling radiator. This design feature allows you to effectively carry out cooling of the nodes of the washing machine that are heating during operation, and heating the liquid increases the efficiency of cleaning from contaminants.

The inlet hose for the suction fluid has screw guides inside, which accelerates the flow of fluid and improves the flow of water to the washer, and is also equipped with a hydrophobic coating inside to reduce hydraulic losses during fluid supply. The outlet hose for the outlet of the pressurized liquid has screw guides inside, due to which the flow of the output liquid is accelerated, and also has a hydrophobic coating inside to reduce hydraulic losses, which allows to reduce the pressure loss of the liquid inside the hose and increases the efficiency of cleaning from pollution.

The invention is illustrated by drawings, which depict:

Figure 1 is a diagram of an autonomous high pressure washer in section according to the invention;

Figure 2 is a top view of the location of the electric motor and cooling jacket with a local cut;

Figure 3 is a perspective view of the recess in the housing of the washing apparatus for securing the handle of the hand pump;

Figure 4 is a cross section of the inlet and outlet hose in perspective;

Figure 5 is a longitudinal section of the inlet and outlet hose in perspective.

The drawing schematically shows an autonomous high pressure washer comprising a housing (1), inside of which an inverter (3), an electric motor (2) are located, with a shaft of which a high pressure liquid pump (4) is connected. The suction fluid is supplied through the inlet hose (5), one end of which is connected to the suction inlet (6), the other end is placed in the tank with the liquid. A pressure outlet (9), to which a high pressure outlet hose (10) is connected, is used to output the liquid under pressure. For example, a spray gun or foam set, not shown in the drawing, may be attached to the free end of the outlet hose (10).

Figure 4 and figure 5 shows the inlet hose (5) and the outlet hose (10) in cross and longitudinal section, which are internally provided with screw guides (18) to accelerate the flow of fluid.

A manual piston pump (14) for the initial filling of the system with liquid, a float level gauge (13) for visually checking the filling of the system with liquid, as well as non-return valves (16) and (17) to prevent liquid draining during the preparation of the device for start-up, are built into the intake manifold.

A float switch (21) is also integrated in the intake manifold, interrupting the electric circuit of the electric motor (2) when the fluid level drops below the permissible level and a drain cock (15) for the final discharge of the fluid remaining in the cavities of the intake manifold after the end of the washing machine.

In the body of the washing apparatus (1), there is a special recess for placing the pump handle (19) in an inoperative state, which is fixed using clamps (20).

Around the outer surface of the motor housing (2) is located the cooling jacket (7), made in the form of a hollow cylindrical tank, which is connected to the suction line.

A cooling radiator (8), made in the form of a hollow tank, which is connected to the suction line, is docked with the inverter housing.

For connecting the power wires from the vehicle’s battery to the built-in inverter (3), the positive (11) and negative (12) connectors are used.

The controls and indications not shown in the drawing are located on the front wall of the housing (1).

The device operates as follows. Through the power connectors (11) and (12), wires are connected directly to the vehicle battery. An inlet hose (5) is attached to the suction inlet (6) at one end to supply the suction liquid, the other end of the hose is placed in a container with water, detergent solution or other cleaning fluid. A high-pressure outlet hose (10) is connected at one end to a pressure outlet (9) to discharge the liquid under pressure, the other end of the hose is connected to a spray nozzle or foam collector. The drain valve (15) closes. The handle (19) of the hand pump (14) performs several up and down movements until the system is filled with liquid, the level of which is visually controlled by the float level gauge (13).

The device is ready to go. The washing machine turns on and a stream of liquid under pressure is used to clean the surfaces of various products from contamination.

Claims (11)

1. A self-contained high pressure washer contains a housing (1), inside of which there is an electric motor (2), a DC-to-AC converter (inverter) (3), a high-pressure liquid pump (4), the suction fluid to which flows through the inlet hose ( 5), connected to the suction inlet (6), while part of the suction fluid passes through the intake manifold through the cooling jacket of the motor (7), and the other part through the inverter cooling radiator (8), pressure outlet (9), to which a high-pressure outlet hose (10) for outputting the liquid under pressure, positive (11) and negative (12) connectors for connecting the power wires from the vehicle’s battery to the inverter (3), and also contains controls and indicators that are located on the front wall of the housing (1). 2. A washing device according to claim 1, characterized in that a float level gauge (13) is built into the intake manifold for visual inspection of the filling of the system with liquid. 3. The washing apparatus according to claim 1, characterized in that a manual piston pump (14) is built into the intake manifold for initially filling the intake manifold and the high pressure pump with liquid. 4. The washing apparatus according to claim 1, characterized in that a drain valve (15) is built into the intake manifold for draining the remaining liquid after the device is finished. 5. The washing apparatus according to claim 1, characterized in that check valves (16) and (17) are built into the intake manifold to prevent fluid draining. 6. The washing apparatus according to claim 1, characterized in that a float switch (21) is integrated in the intake manifold to protect the high pressure pump (4) from operating in the “dry run” mode. 7. The washing apparatus according to claim 1, characterized in that the inlet hose for the suction fluid (5) inside is provided with screw guides (18) to accelerate the flow of fluid. 8. The washing apparatus according to claim 1, characterized in that the high-pressure outlet hose (10) for discharging the pressurized liquid inside is provided with screw guides (18) to accelerate the flow of liquid. 9. The washing apparatus according to claim 1, characterized in that the inlet hose for the suction liquid (5) has a hydrophobic coating inside. 10. The washing apparatus according to claim 1, characterized in that the high-pressure outlet hose (10) for discharging the liquid under pressure has a hydrophobic coating inside. 11. The washing apparatus according to claim 1, characterized in that the housing (1) has a special recess for securing the pump handle (19) with the help of clamps (20).

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