DE202011052086U1 - Water pump for electrical appliances - Google Patents

Abstract

Water pump for electrical devices, with a water tank (1), a piston-cylinder unit (2) and an AC synchronous motor (3); wherein the water tank (1) is designed to store water, an inlet pipe (41) connecting the water tank to an inlet side of the piston-cylinder unit (2); the piston-cylinder unit has a piston (21) received therein, the piston being driven by the AC synchronous motor, one outlet side of the piston-cylinder unit being connected to an outlet pipe (42) and the other end of the outlet pipe (42) being connected to a heating device (7) a steam generator is connected; the AC synchronous motor drives the reciprocating motion of the piston; wherein the water pump is driven by the alternating current and the alternating current synchronous motor, so that the water tank provides water due to the reciprocating motion of the piston driven by the AC synchronous motor, the water in the water tank flows through the inlet pipe (41) and enters the piston-cylinder unit (2), and to be pressurized, wherein the pressurized water through the ...

Description

The present invention relates to a water pump for electrical appliances, and more particularly relates to such with an AC synchronous motor, which is designed for household or industrial electrical appliances, such as a portable steam cleaner, a steam wiping mop, a steam wiping mop, with a Vacuum cleaner is coupled, or the like.

Domestic or industrial electrical appliances, such as steam cleaners, steam mops, co-operating with a vacuum cleaner, or the like, use one of the following three approaches to infuse water into a boiler of a steam generator.

The first approach is to rectify the AC supply current by means of a transformer and reduce and stabilize the voltage using other electronic components on the printed circuit board such that the required voltage and current are input to a DC motor around a pair of decelerating wheels to drive to drive a piston-cylinder unit. Thus, the water in the water tank is pumped into the heater of the steam generator to generate steam. The disadvantage of this pumping device is that the alternating current of the power supply must be converted into a direct current. Many electronic components are required to lower and stabilize the voltage and to rectify the current. This increases the cost and difficulty of assembly and this approach is not compact. Furthermore, because the conventional DC motor is operated at high speed, it must be tuned and decelerated with the aid of many and complicated gears to produce a suitable rotational drive force to drive the reciprocating motion of the piston.

The second approach is that the utility AC power directly drives a miniature AC electromagnetic pump. By the movement of the electromagnetic pump, the water in the water tank is pumped into the heater of the steam generator to generate steam. The electromagnetic pump is expensive and big. Limescale often clogs the inlet and outlet of the electromagnetic pump, which can cause the appliance to malfunction with steam.

The third approach is that the supply alternating current directly heats the heater of the steam generator. This device works like a pot to boil water, which is a slow process. This procedure can not output high temperature, high pressure steam.

Thus, based on many years of practical experience, the inventor of the present invention has adopted a solution to these problems.

The main object of the present invention is to provide a water pump for electrical appliances which can solve at least some of the aforementioned problems.

This object is achieved by a water pump according to claim 1. Further advantageous embodiments are the subject of the dependent claims.

The water pump includes a water tank, a piston-cylinder unit and an AC synchronous motor. The water tank is used to store water. An inlet pipe connects the water tank to an inlet side of the piston-cylinder unit. The piston-cylinder unit has a piston therein. The piston is driven by the AC synchronous motor. The piston-cylinder unit has an outlet side which is connected to an outlet pipe. The other end of the outlet pipe is connected to a heater of a steam generator. The AC synchronous motor drives the reciprocation of the piston. In this way, the water pump is driven by the AC and the AC synchronous motor. The water tank provides water due to the reciprocation of the piston driven by the AC synchronous motor. The water in the water tank flows through the inlet pipe and enters the piston-cylinder unit to be pressurized. The pressurized water flows through the outlet pipe and enters the heater of the steam generator to discharge high-temperature, high-pressure steam. The present invention differs from the prior art. Neither electronic components are needed, which convert an alternating current into a direct current, nor decelerating transmission. No limescale remains, which can lead to constipation. The AC synchronous motor is readily available on the market, is reliable, and provides a stable motor. The AC synchronous motor has a suitable speed to produce sufficient rotational drive force to directly drive the reciprocation of the piston. The AC synchronous motor can operate in a clockwise or counterclockwise direction become; The direction of rotation can therefore be changed as needed. When the steam experiences a back pressure, the AC synchronous motor will immediately change its direction of rotation and the connecting rod of the piston-cylinder unit will be rotated in the opposite direction but continue to run. This prevents jamming of the motor because the instantaneous rotational driving force is insufficient, and prevents accidents in the work because the current is greatly increased, resulting in a high temperature.

The 1 Figure 11 is an assembled view of a preferred embodiment of the present invention.

Embodiments according to the present invention will be described by way of example only with reference to the accompanying drawings.

Like in the 1 As shown, the water pump for electric appliances according to a preferred embodiment of the present invention includes a water tank 1 , a piston-cylinder unit 2 and an AC synchronous motor 3 on.

The water tank 1 is used to store water. An inlet pipe 41 connects the water tank 1 with an inlet side of the piston-cylinder unit 2 , A clock-wise blocking or non-return valve 5 is between the inlet pipe 41 and the inlet side of the piston-cylinder unit 2 intended.

The piston-cylinder unit 2 has a piston received therein 21 on. The piston 21 is powered by the AC synchronous motor 3 driven. The outlet side of the piston-cylinder unit 2 is with an outlet pipe 42 connected. An anti-clockwise locking or non-return valve 6 is between the outlet pipe 42 and the outlet side of the piston-cylinder unit 2 intended. The other end of the outlet tube 42 is with a heater 7 connected to a steam generator.

The AC synchronous motor 3 has an eccentric wheel 31 and a connecting rod 32 on (or a gear mechanism driven by the motor shaft). The connecting rod 32 is with the piston 21 the piston-cylinder unit 2 connected. The eccentric wheel 31 and the connecting rod 32 drive the reciprocation of the piston 21 at. The AC synchronous motor 3 has a decelerating transmission located therein.

The water pump according to the invention is driven by an alternating current and the AC synchronous motor. The water tank 1 due to the reciprocating motion of the piston 21 from the AC synchronous motor 3 powered, water is available. The water in the water tank 1 flows through the inlet pipe 41 and enters the piston-cylinder unit 2 to be pressurized. The pressurized water 3 flows through the outlet pipe 42 and enters the heater 7 of the steam generator to provide high temperature, high pressure steam for cleaning and sterilization.

The heater 7 is provided in the steam generator. The pressurized water can be directly from the heater 7 be heated to become a high temperature and high pressure steam. The steam comes from a steam outlet 71 at the other end of the heater 7 output.

The inlet pipe 41 and the outlet pipe 42 are silicone tubes. The inlet pipe 41 becomes the connection of the water tank 1 with the inlet side (the clockwise acting check valve) 5 ) of the piston-cylinder unit 2 used. The outlet pipe 42 is used to connect the outlet side (the counterclockwise valve 6 ) of the piston-cylinder unit 2 with the heater 7 used. The inlet pipe 41 and the outlet pipe 42 can be made of other materials, these are not limited to silicone material.

The clockwise acting valve 5 is used to prevent backflow of water in the piston-cylinder unit 2 towards the water tank 1 to prevent. The counterclockwise valve 6 is used to prevent backflow of water in the heater 7 back to the piston-cylinder unit 2 to prevent.

The subject invention with the AC synchronous motor and driven by an AC piston-cylinder unit deviates from the conventional DC motor. There is no need to use electronic components that convert an alternating current into a direct current, and not from decelerating transmissions. No limescale remains, which could lead to constipation. The AC synchronous motor can be operated clockwise or counterclockwise so that the direction of rotation can be changed as needed. When the steam experiences a back pressure, the direction of rotation of the AC synchronous motor may change instantly to prevent motor stall because the instantaneous rotational drive force is insufficient, and may also avoid industrial accidents because the current is greatly increased , which leads to a high temperature. According to the invention, costs are saved, the efficiency of electrical appliances is increased, greater stability is achieved and longer operating times are possible.

In summary, the present invention discloses a water pump for electrical appliances having a water tank, a piston-cylinder unit and an AC synchronous motor. The water tank is designed to store water. An inlet pipe connects the water tank to an inlet side of the piston-cylinder unit. The piston-cylinder unit has a piston received therein. The outlet side of the piston-cylinder unit is connected to an outlet pipe. The other end of the outlet pipe is connected to a heater of a steam generator. The AC synchronous motor drives the reciprocating motion of the piston. Due to the reciprocating motion of the piston driven by the AC synchronous motor, the water reservoir supplies water. The water in the water tank flows through the inlet pipe and enters the piston-cylinder unit to be pressurized. The pressurized water flows through the outlet tube and enters the heater of the steam generator to provide high temperature, high pressure steam for cleaning and sterilization purposes.

While specific embodiments in accordance with the present invention have been described in detail for purposes of illustration, numerous modifications and enhancements may be made without departing from the general spirit and scope of the present invention. Consequently, the present invention is not limited except for the appended claims.

Claims (7)

Water pump for electrical appliances, with a water tank ( 1 ), a piston-cylinder unit ( 2 ) and an AC synchronous motor ( 3 ); the water tank ( 1 ) is designed to store water, wherein an inlet pipe ( 41 ) the water tank with an inlet side of the piston-cylinder unit ( 2 ) connects; the piston-cylinder unit a piston received therein ( 21 ), wherein the piston is driven by the AC synchronous motor, an outlet side of the piston-cylinder unit with an outlet pipe ( 42 ) and the other end of the outlet tube ( 42 ) with a heating device ( 7 ) is connected to a steam generator; the AC synchronous motor drives the reciprocating motion of the piston; wherein the water pump is driven by the alternating current and the alternating current synchronous motor so that the water tank provides water due to the reciprocation of the piston driven by the alternating current synchronous motor, the water in the water tank the inlet pipe ( 41 ) flows through and into the piston-cylinder unit ( 2 ), and to be pressurized, the pressurized water passing through the outlet tube (16). 42 ) flows and into the heater ( 7 ) of the steam generator to produce a high-temperature, high-pressure steam. Water pump for electrical appliances according to claim 1, wherein a clockwise acting check valve or check valve ( 5 ) is provided between the inlet pipe and the inlet side of the piston-cylinder unit. Water pump for electrical appliances according to claim 1, wherein a counter-clockwise acting check valve ( 5 ) is provided between the outlet pipe and the outlet side of the piston-cylinder unit. Water pump for electrical appliances according to one of the preceding claims, wherein the AC synchronous motor is an eccentric wheel ( 31 ) and a connecting rod ( 32 ) and wherein the connecting rod with the piston ( 21 ) is connected to the piston-cylinder unit. Water pump for electrical appliances according to one of the preceding claims, wherein the heating device ( 7 ) is provided in the steam generator and at one end a steam outlet ( 71 ) having. Water pump for electrical appliances according to one of the preceding claims, wherein the inlet pipe ( 41 ) is a silicone tube. Water pump for electrical appliances according to one of the preceding claims, wherein the outlet pipe ( 42 ) is a silicone tube.

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