CN110983715A - Stirring type layered cleaning energy-saving washing system - Google Patents

Abstract

The invention provides a stirring type layered cleaning energy-saving washing system, and belongs to the technical field of washing machines. The system comprises a stirring rod, a partition plate, a motor, a water level sensor, a suspender, a control panel, a side door, a water inlet, a water outlet, an inner barrel, an outer barrel, a shell and the like. The stirring rod is fixed at the center of the impeller at the bottom of the barrel, and the two circular partition plates are connected with the stirring rod through waterproof bearings to divide the washing machine into three layers; the inner barrel of the washing machine is provided with two layers of perforated barrel walls which are tightly attached, the coincidence degree of the holes of the barrel walls is adjusted through rotation, and the conversion from a closed washing barrel to a perforated dewatering barrel is completed. The shell of the washing machine is of a cylindrical structure, and a side-opening door opening mode is adopted. The system can clean clothes in different regions at the same time, achieves the purposes of saving water, saving energy and saving time, realizes high-efficiency healthy cleaning, and has good practical value and application prospect.

Description

Stirring type layered cleaning energy-saving washing system

Technical Field

The invention relates to the technical field of washing machines, in particular to an agitating type layered cleaning energy-saving washing system.

Background

The traditional washing machine mainly has three common modes of a drum type, a wave wheel type and a stirring type, and different types have respective advantages and disadvantages.

The drum type water consumption is small, but the cleaning time is long, the power consumption is large, and the cleaning rate is general; the impeller type water consumption is almost twice of that of a drum type, and clothes are easy to wind, but the power consumption is low, the cleaning time is short, and the cleaning rate is high; the stirring type washing machine has the characteristics of no winding, electricity saving, high cleaning rate, high wear rate, high noise and heavy weight. The specific comparison is as follows:

sorting by elapsed time: a drum type impeller type and a stirring type;

sorting according to power consumption: a drum type impeller type and a stirring type;

sequencing according to water consumption: impeller type stirring type drum type;

sorting according to the cleaning ratio: impeller type stirring type drum type;

sequencing according to water consumption: impeller type stirring type drum type;

sequencing according to winding degree: impeller type stirring type drum type;

sorting according to the wear rate: drum type < stirring type < impeller type;

the main structure of the existing washing machine is a shell, an outer barrel and an inner barrel which are arranged in the shell, and a device for controlling the inner barrel to rotate, wherein, a rotatable device of the inner barrel is arranged in the outer barrel. In order to realize the dehydration function of clothes, the wall of the inner barrel is uniformly distributed with dehydration holes, so that when clothes are washed, washing water can flow to an interlayer between the inner barrel and the outer barrel from the dehydration holes, the dehydration device is very ingenious, but the washing water cannot be fully utilized, thereby causing the waste of water resources; in addition, washing water enters an interlayer between the barrels, and a large amount of bacteria are bred between the barrels in the past, so that the health of a user is harmed.

In order to solve the problem that water between the drums cannot be utilized, washing machines with nonporous inner drums are emerged in the market. The principle is that the inner barrel is made into a hole-free inverted frustum structure, and waste water in the barrel can upwards climb to a water outlet arranged at the upper end along the wall of the inner barrel to be discharged under the action of centrifugal force during dehydration. This requires a higher rotation speed for dehydration, and in addition, the load of the washing machine is increased when the laundry in the tub is in a large amount, which requires a higher motor, resulting in higher energy consumption.

When a user uses the washing machine at ordinary times, the following similar problems are often encountered:

① the dyeing condition can occur when the dark color clothes and the light color clothes are washed simultaneously, and the separate washing is time-consuming, energy-consuming and water-consuming;

② underwear is unhygienic when washed with coats, socks, pants, etc.

The present invention has been made in view of the above problems.

Disclosure of Invention

The invention aims to solve the technical problem of providing an energy-saving stirring type layered cleaning washing system, which can achieve the purposes of layered washing, energy saving and water saving.

The system comprises a control panel, a stirring rod, a water inlet channel, a suspender, an air storage chamber, a floating clutch, a motor, a balancing block, a wave wheel base, an inner barrel, a water level sensor, a water drainage channel, a balancing ring, an electromagnetic valve, a side door and a separation plate, wherein the control panel is arranged on a shell of the washing system, the side of the shell of the washing system is provided with the side door, the stirring rod is inserted into the center of the inner barrel, the bottom of the inner barrel is the wave wheel base, the water inlet channel, the water level sensor and the electromagnetic valve are arranged on the stirring rod, the suspender is arranged between the outer part of the inner barrel and the shell of the washing system, the balancing ring is arranged above the suspender, the air storage chamber is arranged in the wave wheel base.

The stirring rod is of a double-layer nested structure and consists of two coaxial cylinders, a water level sensor is arranged on the inner layer, a water inlet is arranged on the outer layer, and the water inlet is connected with a water inlet channel.

The fan is installed to the stirring rod top, and the stirring rod skin sets up the mouth of blowing, and the mouth of blowing is connected the fan. Wherein, the air blowing port and the water inlet can be the same port.

Circular partition plates are inserted between the stirring rod and the inner barrel, the inner barrel is layered, and each layer is provided with a water inlet.

Generally, two circular partition plates are inserted between a stirring rod and an inner barrel to divide the inner barrel into three layers of chambers so as to be suitable for washing different types of clothes; each layer all sets up level sensor and water inlet, and stirring rod top sets up three solenoid valve, and the solenoid valve cooperates with level sensor, controls the inflow of each layer respectively. The two partition plates are connected with the stirring rod through waterproof bearings and are arranged in the barrel in parallel, and the washing barrel is divided into an upper closed washing cavity, a middle closed washing cavity and a lower closed washing cavity.

The inner barrel is two layers of closely attached barrel walls with holes, and the conversion from the closed cleaning barrel to the dehydration barrel with holes is completed by rotating and adjusting the coincidence degree of the holes of the barrel walls.

The air storage chamber is filled with air, and buoyancy can be generated under the condition that the inner barrel is filled with water.

After washing, the fan is rotated to form forced convection, so that air enters the inner barrel from the air blowing port to air-dry clothes.

The technical scheme of the invention has the following beneficial effects:

compared with a porous inner barrel, the system saves more water and saves more energy. Meanwhile, the layered structure is adopted on the basis of the stirring type washing machine, and the stirring rod adopts a double-layer nested structure, so that the washing machine has the following technical effects:

(1) compared with the inner and outer barrel structures of the traditional washing machine, the inner barrel is closed during washing, no water exists between the inner barrel and the outer barrel, the water consumption is effectively reduced, and the water resource is saved.

(2) Compared with a hole-free inner barrel, holes of double-layer wall surfaces of the inner barrel are aligned during dehydration, and a blowing structure in the stirring rod blows air from inside to outside to form forced convection, so that the dehydration time is shortened, the load of the washing machine is reduced, and the washing machine is more energy-saving.

(3) Two division boards are fixed on the stirring rod, so that the shaking of the stirring rod along with the washing barrel during dewatering is effectively reduced, the problem of high noise of the traditional stirring type washing machine is effectively solved, and the stability of the washing machine is improved.

(4) The washing machine is layered, the requirement that different clothes need to be washed separately in daily life is met, and the purposes of shortening washing time and saving energy are achieved.

Drawings

FIG. 1 is a schematic structural diagram of an agitation type layered cleaning energy-saving washing system of the present invention;

FIG. 2 is a schematic view of the inner tub structure of the agitation type layered cleaning energy-saving washing system of the present invention;

FIG. 3 is a schematic half-sectional view of the stirring type layered cleaning energy-saving washing system according to the present invention;

FIG. 4 is a schematic diagram of the internal structure of a stirring rod of the stirring type layered cleaning energy-saving washing system of the present invention;

fig. 5 is a schematic diagram of the internal structure of a water inlet electromagnetic valve of the stirring type layered cleaning energy-saving washing system.

Wherein: 1-a control panel; 2-a water inlet channel; 3-a suspender; 4-air storage chamber; 5-a floating clutch; 6-an electric motor; 7-a balance weight; 8-a wave wheel base; 9-a stirring rod; 10-inner barrel; 11-a water level sensor; 12-a drainage channel; 13-a balancing ring; 14-a solenoid valve; 15-side door; 16-partition plate.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

The invention provides a stirring type layered cleaning energy-saving washing system.

As shown in figure 1, the system comprises a control panel 1, a stirring rod 9, a water inlet channel 2, a suspender 3, an air storage chamber 4, a floating clutch 5, a motor 6, a balancing block 7, a wave wheel base 8, an inner barrel 10, a water level sensor 11, a water discharge channel 12, a balancing ring 13, an electromagnetic valve 14, a side door 15 and a partition plate 16, wherein the control panel 1 is arranged on a shell of the washing system, the side surface of the shell of the washing system is provided with the side door 15, the stirring rod 9 is inserted into the center of the inner barrel 10, the bottom of the inner barrel 10 is a wave wheel base 8, the water inlet channel 2, the water level sensor 11 and the electromagnetic valve 14 are arranged on the stirring rod 9, the suspender 3 is arranged between the outer part of the inner barrel 10 and the shell of the washing system, the balancing ring 13 is arranged above the suspender 3, the air storage chamber 4 is arranged in the wave wheel base 8, the outer part of the inner barrel 10 is connected with a drainage channel 12.

As shown in fig. 1, the control interface 1 mainly controls the floating clutch 5, the motor 6, the pulsator base 8, the water level sensor 11, and the like. The advantages of the stirring type washing machine and the impeller type washing machine are combined, and the stirring rod 9 is mainly adopted when clothes are washed.

When the air storage chamber 4 is filled with water, the inner barrel 10 floats upwards due to buoyancy brought by the air storage chamber 4 (the size of the air chamber is variable, the inner part is similar to a balloon), the connection between the floating type clutch 5 and the inner barrel 10 is disconnected, at the moment, only the stirring rod 9 can be driven by the motor 6, after the water discharging is finished after the washing, the inner barrel wall descends due to gravity, the floating type clutch 5 is connected, the stirring rod and the inner barrel are controlled to rotate at the same time, and then the dehydration process is finished. The whole process is controlled by self-control of inflation and buoyancy, so that the friction between the shaft and the gear is reduced, and the service life of the washing machine is prolonged.

As shown in fig. 2, the inner tub 10 is formed of two closely attached walls having holes, and the walls can be rotated to adjust the overlapping degree of the holes, thereby completing the conversion from the washing tub to the dehydrating tub.

As shown in fig. 3, the door of the washing machine is opened from the side, and laundry is put in and taken out in a side-door manner, and the side door 15 has a packing and a latch structure.

In practical application, the control application method of the system is as follows:

the first step is a water inlet process: the side door 15 is opened, clothes are put into each chamber, and the side door 15 is closed, and water starts to enter each chamber. As shown in fig. 4, for the inner structure of the stirring rod 9, when water is fed, the three water feeding chambers correspond to the three cleaning chambers respectively, and are connected with the water feeding solenoid valves and the water level sensors in a one-to-one correspondence manner, water is fed simultaneously, the amount of the clothes placed in the different cleaning chambers is different, and the water feeding solenoid valves connected with the respective water level sensors are used for controlling the water feeding amount respectively.

The electromagnetic valve is a water inlet electromagnetic valve which can automatically feed water and close water inlet when the washing machine works under the control of a program controller. The structure of the valve is shown in figure 5 and mainly comprises an electromagnet, a valve body, a rubber valve and the like. The working principle of the water inlet electromagnetic valve is as follows: firstly, when a user turns on a power button to start the washing machine, a program controller detects that an instruction is given to electrify an inlet electromagnetic valve, after the inlet electromagnetic valve is electrified, the electromagnetic force overcomes the elasticity of an iron core spring and the pressure of water, the iron core is sucked up, a pressure reducing hole is opened, the water in the cavity flows into the washing machine through the pressure reducing hole, the pressure in the cavity is reduced, and the water pressure in a water inlet cavity is still high; under the action of pressure difference, the rubber valve is opened at the moment, and the washing machine starts to feed water; when the water level in the washing barrel reaches the set water level, the program controller can disconnect the water inlet valve circuit, and the pressure reducing hole is blocked, so that the pressure in the water inlet cavity is equal to the pressure in the cavity; the rubber valve is closed under the pressure action of the water pressure, the spring and the iron core, and the water inlet is stopped.

The second step is a washing process and a rinsing process: the inner layer of the inner barrel 10 is controlled by the control interface 1 to revolve for 3-5 degrees, and the conversion from the washing barrel to the dewatering barrel is completed. When washing, the inner barrel is closed, and no water exists between the barrels to finish washing; after washing, the inner barrel is converted into a dewatering barrel through rotation, and dirty water leaks out through the small holes; during rinsing, the inner barrel rotates to form a closed barrel, and water inlet rinsing is completed.

In order to reduce vibration noise during the operation of the washing machine, a vibration damping member is provided. As shown in fig. 1, the vibration reduction component comprises a hanging rod 3 and a hanging rod seat, wherein the upper end of the hanging rod is provided with a hanging rod hanging head and is connected with a hanging angle fixed at the upper end of the box body through the hanging rod hanging head, the lower end of the hanging rod is connected with the hanging rod seat, a spring is arranged in the hanging rod seat, and the spring in the hanging rod seat is compressed under the gravity action of the mounting plate and the washing barrel and plays a vibration reduction function when the washing barrel vibrates; in addition, because the laminated plate is inserted into the stirring rod in parallel, the laminated plate plays a stabilizing role when the stirring rod works, and the vibration reduction effect can also be achieved.

The third step is a dehydration process: when the washing machine starts to dewater, the floating clutch 5 is connected, and the motor controls the inner barrel 10 to start rotating; in addition, the fan starts to work, and wind is blown to the clothes from each air inlet to accelerate the dehydration process. After the dehydration is finished, the control interface 1 controls the floating clutch 5 to brake at a fixed position, so that the door of the inner barrel 10 is aligned with the side door of the box body, and the clothes can be taken out conveniently.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (8)

1. The utility model provides an energy-conserving laundry system is washd in stirring formula layering which characterized in that: comprises a control panel (1), a stirring rod (9), a water inlet channel (2), a suspender (3), a gas storage chamber (4), a floating clutch (5), a motor (6), a balancing block (7), a wave wheel base (8), an inner barrel (10), a water level sensor (11), a drainage channel (12), a balancing ring (13), an electromagnetic valve (14), a side door (15) and a division plate (16), wherein the control panel (1) is arranged on a shell of a washing system, the side surface of the shell of the washing system is provided with the side door (15), the stirring rod (9) is inserted into the center of the inner barrel (10), the bottom of the inner barrel (10) is the wave wheel base (8), the water inlet channel (2), the water level sensor (11) and the electromagnetic valve (14) are arranged on the stirring rod (9), the suspender (3) is arranged between the outer part of the inner barrel (10) and, an air storage chamber (4) is arranged in the impeller base (8), a floating type clutch (5), a motor (6), a driving stirring rod (9) and an inner barrel (10) are arranged at the bottom of the inner barrel (10), a balance block (7) is arranged at the lower part of the inner barrel (10), and a drainage channel (12) is connected with the outer part of the inner barrel (10).

2. The agitated layered cleaning energy efficient laundry system according to claim 1, wherein: the stirring rod (9) is of a double-layer nested structure, a water level sensor is arranged on the inner layer, a water inlet is arranged on the outer layer, and the water inlet is connected with the water inlet channel (2).

3. The agitated layered cleaning energy efficient laundry system according to claim 2, wherein: the fan is installed above the stirring rod (9), and the air blowing port is formed in the outer layer of the stirring rod (9) and connected with the fan.

4. The agitated layered cleaning energy efficient laundry system according to claim 1, wherein: a circular partition plate (16) is inserted between the stirring rod (9) and the inner barrel (10), the inner barrel (10) is layered, and each layer is provided with a water inlet.

5. The agitated layered cleaning energy efficient laundry system according to claim 4, wherein: two circular partition plates (16) are inserted between the stirring rod (9) and the inner barrel (10) to divide the inner barrel (10) into three layers, each layer is provided with a water level sensor (11) and a water inlet, three electromagnetic valves (14) are arranged above the stirring rod (9), and the electromagnetic valves (14) are matched with the water level sensors (11) to respectively control the water inflow of each layer.

6. The agitated layered cleaning energy efficient laundry system according to claim 1, wherein: the inner barrel (10) is formed by two layers of closely attached perforated barrel walls, and the superposition degree of the barrel wall holes is adjusted through rotation, so that the conversion from a closed cleaning barrel to a perforated dehydration barrel is completed.

7. The agitated layered cleaning energy efficient laundry system according to claim 1, wherein: the air storage chamber (4) is filled with air, and buoyancy can be generated under the condition that the inner barrel (10) is filled with water.

8. The agitated layered cleaning energy efficient laundry system according to claim 3, wherein: after washing, the fan is rotated to form forced convection, so that air enters the inner barrel (10) from the air blowing port to air-dry the clothes.

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