WO2011097864A1 - Steam station type electric iron - Google Patents

Abstract

A steam station type electric iron comprises a water tank assembly (10), a boiler assembly (5), and an electromagnetic water pump (9) for sucking water from the water tank assembly (10) to the boiler assembly (5). The boiler assembly (5) is communicated with a soleplate assembly (1) of the electric iron (2) by an electromagnetic valve assembly (4) and a steam duct (3). The steam station type electric iron is characterized in that a sensing apparatus (6) for measuring the water level in the boiler assembly (5) is provided in the latter. A signal output port of the sensing apparatus (6) is connected with a controlling board (8) by a wire and furthermore the coil of the electromagnetic water pump (9) is connected with the controlling board (8) by a wire. The steam is ensured to be more stable, and a temporary steam lacking phenomenon which appears after adding water to the boiler of other steam station type electric irons is avoided, and no-load operation of the boiler is avoided. The steam station type electric iron is reasonably designed, convenient and practical.

Description

Steam station electric iron Technical field

 The invention relates to a steam station electric iron, which belongs to the transformation technology of a steam station electric iron.

Background technique

The existing steam station electric iron mainly passes through an electromagnetic water pump, one end is connected to the water tank, and the other end is connected to the boiler assembly. The electromagnetic water pump uses the procedure set by the PCB board to make the water pump work intermittently to add water to the boiler, and the water is heated and evaporated in the boiler. Steam, steam is connected to the iron floor through a steam pipe to iron the clothes. Due to various factors, the amount of steam evaporated per unit time in the boiler assembly is unstable, and the method of adding water to the boiler assembly in this fixed program often causes the boiler assembly. The amount of water inside is suddenly too small, and the pressure generated by the steam in the boiler assembly is also very unstable, so that when the clothes are ironed, water droplets will be sprayed onto the clothes to damage the clothes, or the steam will temporarily stop affecting the ironing effect; even the boiler The pump has not been working without water, causing damage and danger to the appliance.

technical problem

The object of the present invention is to provide a method for ensuring a more stable steam in consideration of the above problems, and to avoid a short-time steam shortage phenomenon in other steam station electric irons after the boiler is added with water, and to avoid the steam station electric iron of the iron dry-burning boiler. The invention has reasonable design, convenience and practicality.

Technical solution

The steam station electric iron of the invention comprises a water tank assembly, a boiler assembly, an electromagnetic water pump for pumping water in the water tank assembly to the boiler assembly, and the boiler assembly is connected to the electric iron bottom plate assembly in the electric iron through the electromagnetic valve assembly and the steam tube. The boiler assembly is provided with a detecting device for detecting the water level in the boiler assembly, and the signal output end of the detecting device is connected to the control board through a wire, and the coil of the electromagnetic water pump is connected to the control board through the wire.

The detecting device is a probe, and the probe and the boiler assembly are separated by an insulating sealing ring. The probe is suspended in the container of the boiler assembly, and the metal surface of the boiler component is connected to the control board through the wire, and the probe is respectively associated with the boiler component. water, The metal surface of the boiler assembly and the control board form a circuit connection circuit.

The above control board is a PCB board assembly.

The above PCB board assembly is a single chip microcomputer.

Beneficial effect

The invention adopts a structure of a water level detecting device in a steam station composed of a water tank, a boiler, an electromagnetic water pump, a control board and an iron, and the electromagnetic water pump pumps water into the boiler. When the water level reaches the required water level in the boiler, the water level The detecting device transmits information to the control panel, and the control panel controls the electromagnetic water pump to stop pumping. In the process of using, when the amount of water in the boiler is reduced, the water level detecting device also transmits information to the control panel after sensing, thereby controlling the electromagnetic water pump to supply water to the boiler. . The water level detecting device is used to judge whether there is water shortage in the boiler, and the control panel controls to automatically add water when the water level in the boiler is reduced, and automatically stops adding water to the boiler when the water level in the boiler is lowered, thereby ensuring a constant water quantity in the boiler, thus ensuring steam. It is more stable, avoiding short-term steam shortage after the steaming of other steam station electric irons, avoiding the occurrence of dry-burning boilers. The invention is a steam station electric iron with ingenious design, excellent performance, convenient and practical.

DRAWINGS

Figure 1 is a schematic view of the structure of the present invention;

Figure 2 is a schematic view showing the structure of the water in the boiler assembly when the probe is turned on;

Figure 3 is a schematic view showing the structure of the water in the boiler assembly when the probe exits the probe;

Figure 4 is a control circuit diagram of the present invention;

Figure 5 is a schematic diagram showing the approximate waveform of the control panel controlling the electromagnetic water pump to be turned on and off.

BEST MODE FOR CARRYING OUT THE INVENTION

Example:

The schematic diagram of the present invention is shown in Figures 1, 2, 3 and 4, and the steam station electric iron of the present invention comprises a water tank assembly 10, a boiler assembly 5, and an electromagnetic water pump for pumping water from the water tank assembly 10 to the boiler assembly 5. 9. The boiler assembly 5 communicates with the electric iron plate base assembly 1 in the electric iron 2 through the solenoid valve assembly 4 and the steam pipe 3, wherein the boiler assembly 5 is provided with a detecting device 6 for detecting the water level in the boiler assembly 5, and the detecting device 6 The signal output is connected to the control board 8 via a wire, and the coil of the electromagnetic water pump 9 is connected to the control board 8 via a wire.

The detecting device 6 is a probe, and the probe is separated from the boiler assembly 5 by an insulating sealing ring 7. The probe is suspended in the container of the boiler assembly 5. The metal surface of the boiler assembly 5 is connected to the control board 8 through a wire, and the probe Separately with the water in the boiler assembly 5, The metal surface of the boiler assembly 5 and the control board 8 constitute a circuit connection circuit.

The above control board 8 is a PCB board assembly.

In this embodiment, the PCB board component is a single chip microcomputer.

The implementation principle of the present invention will be specifically described below by means of the drawings:

Step 1, as shown in Figure 2: the appliance is connected to the 230V power supply, the water level in the boiler assembly 5 is not in contact with the detecting device 6, the detecting device 6 is a probe, the probe, the boiler assembly 5, the control board 8 and the wires are connected. When the circuit is in the off state, the control board 8 detects this information and turns on the electromagnetic water pump 9, and the electromagnetic water pump 9 starts to work, pumping water from the water tank assembly 10 into the boiler assembly 5, and the water is heated and evaporated in the boiler assembly 5. In the case of steam, the pumping amount of the pump per unit time is greater than the amount of water evaporated into steam, and the water level in the boiler assembly 5 will rise slowly.

In step two, the water level of the boiler assembly 5 continues to rise. As shown in FIG. 3, when the water line of the boiler assembly 5 contacts the probe, the circuit connecting the probe with the boiler assembly 5, the control board 8 and the wires is connected by the medium (water). After the control board 8 detects this information, the power of the electromagnetic water pump 9 is turned off, and the electromagnetic water pump 9 stops the pumping operation.

Step 3, the water in the boiler assembly 5 is heated to be vaporized, and connected to the steam pipe assembly 3 through the solenoid valve assembly 4, and then connected to the electric iron plate assembly 1, and the steam is ejected from the holes in the electric iron plate assembly 1. The water level in the boiler assembly 5 is thus reduced as the water is continuously evaporated into steam. The water level in the boiler assembly 5 continues to decrease, and when the boiler assembly 5 is below the probe, the description of step one is repeated.

The water level of the boiler assembly 5 is detected by the probe and transmitted to the control board 8 by an electric signal. The control board 8 controls whether or not the electromagnetic water pump 9 is pumped by recognizing this signal, so that the IC control electromagnetic water pump 9 on the control board 8 is turned on. The waveform which is similar to the disconnection is shown by the waveform of Fig. 4. In Fig. 4, the straight line segment 11 indicates that the IC controls the electromagnetic water pump 9 to be turned on when the probe is above the water level line, and the straight line segment 12 indicates that the probe is below the water level line. At the time, the IC controls the state in which the electromagnetic water pump 9 is turned off.

The water level of the boiler assembly 5 is continuously circulated from step one to step three to ensure that the water level in the boiler assembly 5 is always varied within a small range. Thus, the amount of water in the boiler assembly 5 can be kept constant, producing a strong, stable, continuous steam, and the boiler assembly 5 does not have a dry burn. The steam is connected to a solenoid valve assembly 4 through a hose, and then connected to the ironplate base plate 1 through the steam hose assembly 3. Stable, continuous steam is sprayed from the bottom plate to achieve the desired ironing effect.

Embodiments of the invention

Claims (4)

1. A steam station electric iron includes a water tank assembly (10), a boiler assembly (5), an electromagnetic water pump (9) for pumping water from the water tank assembly (10) to the boiler assembly (5), and the boiler assembly (5) passes The solenoid valve assembly (4) and the steam pipe (3) are in communication with the electric iron floor assembly (1) in the electric iron (2), characterized in that the boiler assembly (5) is provided with a water level in the detection boiler assembly (5). The detecting device (6), the signal output end of the detecting device (6) is connected to the control board (8) through a wire, and the coil of the electromagnetic water pump (9) is connected to the control board (8) through a wire.
2. A steam station electric iron according to claim 1, wherein said detecting means (6) is a probe, and the probe and the boiler assembly (5) are separated by an insulating sealing ring (7), and the probe is suspended in the boiler. In the container of the component (5), the metal surface of the boiler component (5) is connected to the control board (8) through a wire, and the probe is respectively associated with water in the boiler assembly (5), The metal surface of the boiler assembly (5) and the control board (8) constitute a circuit connection circuit.
3. A steam station electric iron according to claim 1 or 2, wherein said control board (8) is a PCB board assembly.
4. A steam station electric iron according to claim 3, wherein said PCB board assembly is a single chip microcomputer.

Images