CN206232986U - Washing machine and control device thereof - Google Patents

Abstract

The utility model discloses a washing machine's controlling means and washing machine, the device includes: a one-way valve and a booster pump; the one-way valve is arranged on a main water inlet pipeline of the washing machine in a matched mode and used for enabling water on the water supply side of the washing machine to be injected into the washing machine in a one-way mode through the main water inlet pipeline so as to realize conventional water injection of the washing machine in a preset conventional mode; the booster pump, the adaptation sets up on the bypass inlet pipe way of main inlet channel for right the water in the bypass inlet channel carries out the pressure boost, and inject under the contrary protection of check valve washing machine, in order to realize washing machine pressure boost moisturizing under the emergency mode of predetermineeing. The utility model discloses a scheme can overcome and use among the prior art inconveniently, the reliability is low and user experience defect such as poor, realizes convenient to use, the reliability is high and user experience good beneficial effect.

Description

Washing machine and control device thereof

Technical Field

The utility model belongs to the technical field of washing machine, concretely relates to washing machine's controlling means and washing machine especially relate to an emergency water supply device and washing machine that has the device that reply water supply pressure is not enough.

Background

A washing machine can wash laundry using mechanical action generated by electric energy using water as a main washing liquid. The unit, which may be a set of machines, such as a compressor unit, a refrigeration unit, a generator unit, etc., is generally a set of system composed of a prime mover driving the compressor and an auxiliary machine. After tap water with certain water pressure is received in an existing washing machine set (namely, a washing machine), the washing machine set is powered on and started, and then the washing machine can be opened according to a set program to inject water and finish washing. However, when the water pressure of the inlet water is low, normal washing cannot be performed.

In the prior art, the defects of inconvenient use, low reliability, poor user experience and the like exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to above-mentioned defect, provide a washing machine's controlling means and washing machine to unable normal laundry leads to using inconvenient problem when the water pressure of intaking is lower among the solution prior art, reach the effect that promotes the convenience of use.

The utility model provides a washing machine's controlling means, include: a one-way valve and a booster pump; the one-way valve is arranged on a main water inlet pipeline of the washing machine in a matched mode and used for enabling water on the water supply side of the washing machine to be injected into the washing machine in a one-way mode through the main water inlet pipeline so as to realize conventional water injection of the washing machine in a preset conventional mode; the booster pump, the adaptation sets up on the bypass inlet pipe way of main inlet channel for right the water in the bypass inlet channel carries out the pressure boost, and inject under the contrary protection of check valve washing machine, in order to realize washing machine pressure boost moisturizing under the emergency mode of predetermineeing.

Optionally, the method further comprises: a sensing mechanism and a controller; the sensing mechanism is arranged on the water supply side in a matching mode and used for detecting the water supply pressure of the water supply side when the washing machine is started; the controller is respectively matched with the one-way valve, the booster pump and the sensing mechanism and is used for determining whether the detected water supply pressure reaches a preset normal value; and when the water supply pressure reaches the normal value, determining that the operation mode of the washing machine is the conventional mode, and opening the one-way valve and closing the booster pump; or when the water supply pressure does not reach the normal value, determining that the operation mode of the washing machine is the emergency mode, starting the one-way valve and starting the booster pump.

Optionally, the method further comprises: an alarm; the alarm is used for giving an alarm in at least one form of sound, light and voice under the control of the controller; the sensing mechanism is also used for detecting the water supply pressure again in the current water injection process in the normal mode and/or the emergency mode; the controller is further used for determining whether the supply water pressure detected again reaches the normal value; and when the water supply water pressure does not reach the normal value, determining whether the current water injection process is in failure; when the current water filling process is determined to be in fault, controlling the alarm to give an alarm, and/or controlling the washing machine to reset, and/or keeping the booster pump on in the emergency mode or starting the booster pump in the conventional mode; or when the water injection pressure reaches the normal value, turning off the booster pump in the emergency mode, or keeping the booster pump off in the normal mode.

Optionally, the controller determines whether the current water injection process is faulty, specifically: the sensing mechanism is also used for detecting the current water injection level and/or the current water injection frequency when the washing machine is started and the first continuous water injection reaches a preset time; the controller is further used for determining whether the current water injection water level is lower than a preset water level and/or whether the current water injection frequency is lower than a preset frequency; and determining the fault of the current water injection process when the current water injection water level is lower than the preset water level and/or the current water injection frequency is lower than the preset frequency.

Optionally, the controller is further configured to, in the emergency mode, keep the booster pump on, or in the current water filling process of starting the booster pump in the normal mode, and/or, in the current water filling process after controlling the washing machine to reset, determine again whether the current water filling process is faulty, and cycle accordingly; and when the frequency of continuously determining the faults in the current water injection process reaches the preset frequency, stopping the washing machine.

Optionally, the bypass water inlet pipeline is also matched with preset standby water; the controller is also used for starting the standby water when the water supply water pressure does not reach the normal value or the water supply side has no water.

Optionally, the method further comprises: a communication module; the communication module is adaptive to the controller and is used for communication between the controller and a preset client; and/or, the controller, comprising: at least one of MCU, singlechip, PLC controller, DSP treater.

With the above device phase-match, the utility model discloses another aspect provides a washing machine, include: the control device of the washing machine is described above.

Optionally, the method further comprises: the control device is arranged between the water supply side and the water inlet side of the washing machine body in a matched mode; the washing machine body includes: a water inlet valve, a water guide pipe and a washing box; the water inlet end of the water inlet valve is matched with the control device; the water outlet end of the water inlet valve is communicated to the washing box and/or the water outlet of the washing machine body through the water guide pipe.

Optionally, the fill valve, comprising: a first solenoid valve and a second solenoid valve; when the control device comprises a controller, the first electromagnetic valve and the second electromagnetic valve are respectively matched with the controller and are respectively used for controlling a main washing process and a pre-washing process preset by the washing machine body; and/or, the aqueduct comprises: a first water guide pipe, a second water guide pipe and a third water guide pipe; when the water inlet valve comprises the first electromagnetic valve and the first electromagnetic valve is used for controlling the prewashing process, the first water guide pipe is arranged between the first electromagnetic valve and the water outlet in a matched mode, and the second water guide pipe is arranged between the first electromagnetic valve and the first port of the washing box in a matched mode; when the water inlet valve further comprises the second electromagnetic valve and the second electromagnetic valve is used for controlling the main washing process, the third water guide pipe is fittingly arranged between the second electromagnetic valve and the second port of the washing box.

Optionally, the water guide pipe further comprises: pressing a balance pipe; and the pressure balance pipe is arranged between the washing box and the washing space of the washing machine body in a matching way.

The utility model discloses a scheme, realize through system design booster water pump that water pressure of intaking crosses normally supplying water such as when low or having no water pressure (combine to use promptly and be equipped with water), can deal with pipeline pressure loss great, perhaps supply water company and salvage unusually, unit pipeline joint accessory maintenance handles, and the condition such as domestic water is in short supply appears having no water pressure, low water pressure or the unstable condition moisturizing of water pressure, and it is good to use the convenience.

Furthermore, the scheme of the utility model, through filling the washing water and rinsing the detergent fast, compared with the former water injection mode, can obviously shorten the washing water injection time in the cylinder, win time and water resources for avoiding the awkwardness of stopping washing halfway, greatly improve the utilization efficiency; to a certain extent, the detergent can be ensured to be washed cleanly, and the risk of detergent residue is reduced.

Further, the utility model discloses a scheme, through system design booster water pump realize that water pressure of intaking crosses low or normal water supplies such as when not having water pressure (combine the emergency water supply) to fill the washing water fast and rinse the detergent, can realize doing washing moisturizing pressure restriction, improve unit range of application, reinforcing function practicality.

Therefore, the utility model discloses a scheme is through setting up booster water pump to realize urgent moisturizing when water supply pressure is not enough, solve among the prior art unable normal laundry when intake water pressure is lower and lead to using inconvenient problem, thereby, overcome and use inconvenient among the prior art, the reliability is low and user experience is poor defect, realize convenient to use, reliability height and user experience good beneficial effect.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a control device of a washing machine according to the present invention;

fig. 2 is a schematic structural diagram of another embodiment of a control device of a washing machine according to the present invention;

fig. 3 is a schematic structural diagram (an example of a top view of the system) of a system pipeline water inlet pressurization manner according to an embodiment of the present invention;

fig. 4 is a schematic control process flow diagram of an embodiment of the washing machine of the present invention.

With reference to the accompanying drawings, the embodiments of the present invention have the following reference numerals:

1-washing machine body; 10-a water inlet valve; 101-first solenoid valve (prewash valve a); 102-second solenoid valve (main wash valve B); 11-a water conduit; 111-a first aqueduct; 112-a second water conduit; 113-a third conduit; 114-pressing a balance pipe; 12-a water outlet; 13-a washing box; 131-a first port; 132-a second port; 2-a control device; 20-a controller; 21-one way Valve (VD); 22-booster pump (SP); 23-a main water inlet line; 24-a bypass water inlet line; 25-a sensing mechanism; 26-an alarm; 27-a communication module; 28-Standby Water.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

According to an embodiment of the present invention, a control device for a washing machine is provided, as shown in fig. 1, which is a schematic flow diagram of an embodiment of the method of the present invention. The control apparatus of the washing machine may include: a check valve 21 and a booster pump 22.

In one example, the check valve 21, adapted to be disposed on the main water inlet pipe 23 of the washing machine, may be used to enable water on the water supply side of the washing machine to be injected into the washing machine in a single direction through the main water inlet pipe 23, so as to realize normal water injection of the washing machine in a preset normal mode.

The normal mode may be a mode in which the water supply pressure on the water supply side of the washing machine satisfies a preset normal value to enable the water inlet side of the washing machine to normally supply water, and further enable the washing machine to normally operate without other auxiliary processes (e.g., pressurization and water replenishment) on the water inlet side.

For example: under the conventional mode, if system water pressure is normal this moment, the unit can keep intaking smoothly, and system pressure is higher the more fast that water injection is faster in the bucket, and the washing box washes cleanly more. If the water pressure of the system is low or no water pressure exists, most units cannot normally inject water and enter a related protection shutdown state (such as water injection overtime, abnormal system pressure and other reasons).

For example: when no emergency condition exists, the unit can be selected to operate according to a normal program, the booster water pump is not started, and water flow enters the unit for water supplement through a one-way check valve (such as a one-way stop valve VD) along a pipeline.

In one example, the booster pump 22, adapted to be disposed on the bypass water inlet line 24 of the main water inlet line 23, may be configured to boost the water in the bypass water inlet line 24, and inject the water into the washing machine under the check protection of the check valve 21, so as to implement the boosting and water replenishing of the washing machine in the preset emergency mode. For example: a one-way valve 21, i.e. a one-way check valve or a one-way check valve. The non-return protection can be the reverse stop function of the one-way valve.

The emergency mode may be a mode in which the water supply pressure on the water supply side of the washing machine does not satisfy a preset normal value (for example, the water supply pressure on the water supply side is lower than the normal value, and the water supply side is not water), so that the water inlet side of the washing machine cannot normally supply water, and further, other auxiliary processing (for example, pressurization water replenishing) needs to be performed on the water inlet side of the washing machine, so that the washing machine normally operates.

For example: the washing machine can work in a normal mode and can also work in an emergency mode.

For example: the emergency mode may be: the pipeline pressure loss is large, or the conditions of no water pressure, low water pressure or unstable water pressure occur under the conditions of abnormal rush repair of water supply companies, maintenance and treatment of unit pipeline joint accessories, shortage of domestic water and the like.

For example: the washing machine starts an emergency washing function mode, the function of a booster pump at the water inlet side is started, the booster pump works in cooperation with a water inlet electromagnetic valve, after any water inlet valve acts, the booster pump is correspondingly started to operate, water supply is guided and quickly boosted at the moment, and the water supply flows into a washing tank (such as a washing box 60) and a water containing barrel (such as a water containing barrel of a washing machine body 70) along pipelines, so that the booster quick water supply washing is realized.

Alternatively, the booster pump 22 may be disposed on a bypass inlet pipe 24 of the main inlet pipe 23 having a part of the pipe of the check valve 21, such that the part of the pipe where the booster pump 22 is disposed is connected in parallel with the bypass inlet pipe 24.

From this, through the feed side at washing machine and intake between the side adaptation set up check valve and booster pump, can deal with emergency mode to carry out the pressure boost moisturizing under emergency mode, not only can realize washing machine's normal operating, can also realize the restriction of laundry moisturizing pressure, improve unit range of application, reinforcing function practicality, user experience is good, the reliability is high.

In an alternative embodiment, referring to the example shown in fig. 2, the method may further include: a sensing mechanism 25 and a controller 20.

Alternatively, the sensing mechanism 25 may include: pressure sensors, water level sensors, frequency sensors, etc.

Optionally, the controller 20 may include: at least one of MCU, singlechip, PLC controller, DSP treater.

Therefore, the washing machine can be controlled more flexibly and used more conveniently through the sensing mechanisms and the controllers in various forms.

In an alternative example, the sensing mechanism 25 is adapted to be disposed at the water supply side, and may be configured to detect a water supply pressure at the water supply side when the washing machine is turned on.

In an alternative example, the controller 20, adapted to the check valve 21, the booster pump 22 and the sensing mechanism 25, respectively, may be configured to determine whether the detected water supply pressure reaches a preset normal value; and, when the water pressure of said water supply reaches the said normal value, confirm the operation mode of the said washing machine is the said conventional mode, open the said check valve 21, close the said booster pump 22; or when the water supply pressure does not reach the normal value, determining that the operation mode of the washing machine is the emergency mode, opening the check valve 21 and opening the booster pump 22.

For example: when the pressure of the domestic water supply system is abnormal, the unit selects an emergency washing mode, and washing water mainly flows through a water injection pump (namely a booster water pump) and is pressurized into a barrel for washing.

For example: when the domestic water supply water pressure is normal, the unit operates according to a normal set program, the washing water mainly flows into the unit through the one-way stop valve, and the water injection pump (namely the booster pump) does not work at the moment.

From this, through carry out the pressure boost moisturizing when water supply water pressure is less than the normal value, can reduce the water injection time, and then to a certain extent, can guarantee that the detergent washes cleanly, reduces the detergent and remains the risk.

Optionally, the controller 20 determines whether the current water filling process is faulty, specifically: and determining whether the current water filling process is failed or not by combining the sensing mechanism 25.

In an alternative embodiment, the sensing mechanism 25 may be further configured to detect a current water filling level and/or a current water filling frequency when the washing machine is powered on and the first continuous water filling reaches a preset duration.

In an optional specific example, the controller 20 may be further configured to determine whether the current water filling level is lower than a preset level and/or whether the current water filling frequency is lower than a preset frequency; and determining the fault of the current water injection process when the current water injection water level is lower than the preset water level and/or the current water injection frequency is lower than the preset frequency.

For example: in the program operation state, if the water injection speed is less than 0.1khz/2min or the water level of the whole machine does not reach the program set water level for 5 minutes in the water injection process, the program should automatically start a water injection pressure pump (such as a booster water pump SP) to operate.

From this, through reaching to detect the water injection condition when predetermineeing the time limit at the start water injection, can in time handle according to the testing result, water injection mode in the past can obviously shorten a section of thick bamboo and wash water injection time, for avoiding the awkwardness of half way termination laundry win time and water resource, greatly improves the utilization efficiency.

In an alternative embodiment, the method may further include: an alarm 26.

In an alternative example, the alarm 26 may be used to alarm at least one of sound and light and voice under the control of the controller 20.

In an alternative example, the sensing means 25 may be further configured to detect the water supply pressure again during the current water filling in the normal mode and/or the emergency mode.

In an optional example, the controller 20 may be further configured to determine whether the supply water pressure detected again reaches the normal value; and when the water supply water pressure does not reach the normal value, determining whether the current water injection process is in failure; and when the current water filling process is determined to be in fault, controlling the alarm 26 to alarm, and/or controlling the washing machine to reset, and/or keeping the booster pump 22 on in the emergency mode or starting the booster pump 22 in the normal mode; or when the water filling pressure reaches the normal value, turning off the booster pump 22 in the emergency mode, or keeping the booster pump 22 off in the normal mode.

For example: the water injection overtime or hydraulic pressure abnormal fault handling program can comprise: and resetting. Wherein, the reset mode can include: when the fault occurs, the start/pause key is pressed, and after the power supply is restarted or turned off, the machine is restarted to recover to normal.

For example: if the fault is found again after starting, the water injection overtime fault processing program is continuously entered, the process is circulated until the fault is removed, then the start/pause key is pressed to restart or the power supply is turned off, the machine is restarted to recover to normal, and the machine can not normally run after starting.

Therefore, fault detection is carried out in the water injection process, and timely maintenance is carried out during fault, so that the operation reliability of the washing machine and the use convenience of a user can be improved, and the washing machine is good in humanization.

In an alternative embodiment, the controller 20 may be further configured to keep the booster pump 22 on in the emergency mode, or to start the current water filling process of the booster pump 22 in the normal mode, and/or to determine whether the current water filling process is faulty again in the current water filling process after controlling the washing machine to reset, and to cycle accordingly; and when the frequency of continuously determining the faults in the current water injection process reaches the preset frequency, stopping the washing machine.

For example: and if similar faults reappear again, entering a water injection overtime or water pressure abnormal fault processing program. For example: the complete machine is completely stopped after the machine set is continuously protected for 3 times.

Therefore, the washing machine can be stopped when the failure times reach a set value through the cyclic detection after the failure processing, the safety of the washing machine can be protected, the humanization is good, and the energy-saving effect is good.

In an alternative embodiment, the bypass inlet 24 is also adapted to a predetermined standby water 28.

In an alternative example, the controller 20 may be further configured to activate the standby water 28 when the water supply pressure does not reach the normal value or the water supply side is empty.

For example: and a standby water inlet pipeline can be arranged to be matched with the standby water 28 and the washing machine body 1, and a standby water switch is arranged on the standby water inlet pipeline. The spare water pipe is connected to the washing machine, and the spare water switch is adapted to the controller 20.

From this, realize through system design booster pump that water pressure of intaking is crossed normal water supplies such as low or when having no water pressure (combine urgent with reserve water) to fill fast and annotate the washing water and rinse the detergent, it is better to use the convenience, and user experience is better.

In an alternative embodiment, the method may further include: a communication module 27.

In an optional example, the communication module 27, adapted to the controller 20, may be configured to perform communication between the controller 20 and a preset client.

Therefore, the washing machine can be conveniently remotely operated by a user through communication between the washing machine and the client, and is good in reliability and better in use convenience.

Through a large amount of experimental verifications, adopt the technical scheme of this embodiment, realize through system design booster pump that the water pressure of intaking is low or combine normal water supplies such as emergency reserve water when having no water pressure, can deal with pipeline pressure loss great, perhaps water supply company is salvageed unusually, unit pipeline joint accessory maintenance handles, and domestic water is in short supply the condition such as, the moisturizing of no water pressure, low water pressure or the unstable condition of water pressure appears, and the convenience of use is good.

According to the utility model discloses an embodiment still provides a washing machine corresponding to washing machine's controlling means. The washing machine may include: the control device 2 of the washing machine described above.

Therefore, by adopting the control device 2, the washing machine can realize normal water supply such as the condition that the water inlet pressure is too low or no water pressure (combined with emergency standby water) through the booster water pump, and can quickly fill washing water and wash detergent, so that the user experience is good.

In an alternative embodiment, the method may further include: the washing machine comprises a washing machine body 1, and a control device 2 is arranged between the water supply side and the water inlet side of the washing machine body 1 in an adaptive mode. Wherein, the washing machine body 1 may include: a water inlet valve 10, a water guide pipe 11 and a washing box 13.

In an alternative example, the water inlet end of the water inlet valve 10 is adapted to the control device 2. The water outlet end of the water inlet valve 10 is communicated to the washing box 13 and/or the water outlet 12 of the washing machine body 1 through the water guide pipe 11.

Alternatively, the inlet valve 10 may comprise: a first solenoid valve 101 and a second solenoid valve 102.

In an alternative embodiment, when the control device 2 may include a controller 20, the first solenoid valve 101 and the second solenoid valve 102 are respectively adapted to the controller 20 and can be respectively used for controlling a main washing process and a pre-washing process preset in the washing machine body 1.

For example: most washing machines adopt an electromagnetic valve to control a water injection passage, the machine set is started, the electromagnetic valve is opened according to a water inlet program, and a water passage is communicated and injects water into a water barrel.

For example: as shown in the example of FIG. 3, the washing machine can control the cold water inlet valves at two ends through common solenoid valves (for example, a pre-washing valve A and a main washing valve B) respectively for washing water injection, and adopts water level control water injection. The pre-washing water is supplied by a pre-washing valve A, the main washing water is supplied by a main washing valve B, and the softening water is supplied by a softening valve (the pre-washing valve A and the main washing valve B).

Alternatively, the water guide duct 11 may include: a first water introduction duct 111, a second water introduction duct 112, and a third water introduction duct 113.

In an alternative embodiment, when the inlet valve 10 may include the first solenoid valve 101 and the first solenoid valve 101 may be used to control the pre-washing process, the first water conduit 111 is disposed between the first solenoid valve 101 and the water outlet 12, and the second water conduit 112 is disposed between the first solenoid valve 101 and the first port 131 of the washing box 13.

In an alternative embodiment, when the inlet valve 10 may further include the second solenoid valve 102 and the second solenoid valve 102 may be used to control the main washing process, the third water conduit 113 is fittingly disposed between the second solenoid valve 102 and the second port 132 of the washing box 13.

Optionally, the water guiding pipe 11 may further include: the pressure equalizing pipe 114 is pressed.

In an alternative embodiment, the pressure balance tube 114 is adapted to be disposed between the washing box 13 and the washing space of the washing machine body 1.

For example: the washing machine can work in a normal mode and can also work in an emergency mode.

In an alternative embodiment, the control process of the washing machine in the normal mode may include:

the water supply control method has the advantages that when no emergency condition exists, the unit can operate according to a normal program, the booster water pump is not started, and water flow enters the unit for water supply through the one-way check valve (for example, the one-way stop valve VD) along a pipeline.

In the running state of the program, if the water is continuously injected for 5 minutes into the whole machine and the set water level of the program is not reached or the water injection rate is less than 0.1khz/2min in the water injection process, the program automatically starts a water injection pressure pump (such as a pressure water pump SP) to run.

More optionally, if a similar fault is repeated again, a water injection timeout or hydraulic pressure abnormality fault handling procedure is entered. For example: the complete machine is completely stopped after the machine set is continuously protected for 3 times.

More optionally, the water filling timeout or water pressure abnormality fault handling program may include: and resetting.

For example: the reset mode may include: when the fault occurs, the start/pause key is pressed, and after the power supply is restarted or turned off, the machine is restarted to recover to normal.

For example: if the fault is found again after starting, the water injection overtime fault processing program is continuously entered, the process is circulated until the fault is removed, then the start/pause key is pressed to restart or the power supply is turned off, the machine is restarted to recover to normal, and the machine can not normally run after starting.

The above parameters are not limited to the above examples, and may be set according to the user's needs.

Alternatively, the washing machine may operate in an emergency mode.

In an alternative embodiment, referring to the example shown in fig. 4, the control process of the washing machine in the emergency mode may include:

the booster water pump is started to operate correspondingly after any one water inlet valve (such as the electromagnetic valve A, the electromagnetic valve B and the like) acts, water supply is drained and quickly boosted at the moment, and the water supply flows into a washing tank (such as a washing box 60) and a water containing barrel (such as a water containing barrel of a washing machine body 70) along a pipeline, so that the booster quick water supply washing is realized.

That is, when the pressure of the domestic water supply system is abnormal, the unit selects the emergency washing mode, and the washing water mainly flows through the water injection pump (i.e., the booster water pump) and is pressurized into the tub for washing.

Wherein in the emergency mode the one-way valve is not closed.

A water injection pump (booster water pump) does not work at the moment.

Therefore, the washing machine has better functions and more humanized operation through the matching arrangement of the water inlet valve, the water guide pipe, the washing box, the pressure balancing pipe and the like.

Since the processing and functions of the washing machine of the present embodiment substantially correspond to the embodiments, principles and examples of the method shown in fig. 1 to 2, the description of the present embodiment is not detailed, and reference may be made to the related description of the foregoing embodiments, which is not repeated herein.

Through a large amount of tests verification, adopt the technical scheme of the utility model, fill the washing water and rinse the detergent through filling fast, water injection mode in the past can obviously shorten a section of thick bamboo interior washing water injection time, gains time and water resource for avoiding the awkwardness of half way termination laundry, greatly improves the utilization efficiency. To a certain extent, the detergent can be ensured to be washed cleanly, and the risk of detergent residue is reduced.

According to the utility model discloses an embodiment still provides the control process who corresponds washing machine. The control process of the washing machine may include:

in the above, when the washing machine may include the check valve 21, water on the water supply side of the washing machine is unidirectionally injected into the washing machine through the main water inlet pipeline 23 by the check valve 21, so that conventional water injection of the washing machine in a preset conventional mode is realized.

For example: under the conventional mode, if system water pressure is normal this moment, the unit can keep intaking smoothly, and system pressure is higher the more fast that water injection is faster in the bucket, and the washing box washes cleanly more. If the water pressure of the system is low or no water pressure exists, most units cannot normally inject water and enter a related protection shutdown state (such as water injection overtime, abnormal system pressure and other reasons).

For example: when no emergency condition exists, the unit can be selected to operate according to a normal program, the booster water pump is not started, and water flow enters the unit for water supplement through a one-way check valve (such as a one-way stop valve VD) along a pipeline.

When the washing machine can further comprise a booster pump 22, the water in the bypass water inlet pipeline 24 is boosted through the one-way valve 21 and the booster pump 22, and the water is injected into the washing machine under the reverse-stopping protection of the one-way valve 21, so that the boosting and water supplementing of the washing machine under the preset emergency mode are realized.

For example: the washing machine can work in a normal mode and can also work in an emergency mode.

For example: the emergency mode may be: the pipeline pressure loss is large, or the conditions of no water pressure, low water pressure or unstable water pressure occur under the conditions of abnormal rush repair of water supply companies, maintenance and treatment of unit pipeline joint accessories, shortage of domestic water and the like.

For example: the washing machine starts an emergency washing function mode, the function of a booster pump at the water inlet side is started, the booster pump works in cooperation with a water inlet electromagnetic valve, after any water inlet valve acts, the booster pump is correspondingly started to operate, water supply is guided and quickly boosted at the moment, and the water supply flows into a washing tank (such as a washing box 60) and a water containing barrel (such as a water containing barrel of a washing machine body 70) along pipelines, so that the booster quick water supply washing is realized.

From this, through the feed side at washing machine and intake between the side adaptation set up check valve and booster pump, can deal with emergency mode to carry out the pressure boost moisturizing under emergency mode, not only can realize washing machine's normal operating, can also realize the restriction of laundry moisturizing pressure, improve unit range of application, reinforcing function practicality, user experience is good, the reliability is high.

In an alternative embodiment, the method may further include: a step of automatically selecting an operation mode of the washing machine. Wherein the step of automatically selecting the operation mode of the washing machine comprises:

when the washing machine may further include a controller 20 and a sensing mechanism 25, the sensing mechanism 25 detects a water supply pressure of the water supply side at the time of starting the washing machine.

And step 12, determining whether the detected water supply pressure reaches a preset normal value through the controller 20. And the number of the first and second groups,

optionally, the determining whether the current water filling process fails in step 12 may include:

and 121, detecting the current water filling level and/or the current water filling frequency when the washing machine is started and the first continuous water filling reaches a preset time through the sensing mechanism 25.

Step 122, determining, by the controller 20, whether the current water filling level is lower than a preset level and/or whether the current water filling frequency is lower than a preset frequency. And the number of the first and second groups,

and step 123, determining that the current water injection process is in fault when the current water injection water level is lower than the preset water level and/or the current water injection frequency is lower than the preset frequency.

For example: in the program operation state, if the water injection speed is less than 0.1khz/2min or the water level of the whole machine does not reach the program set water level for 5 minutes in the water injection process, the program should automatically start a water injection pressure pump (such as a booster water pump SP) to operate.

From this, through reaching to detect the water injection condition when predetermineeing the time limit at the start water injection, can in time handle according to the testing result, water injection mode in the past can obviously shorten a section of thick bamboo and wash water injection time, for avoiding the awkwardness of half way termination laundry win time and water resource, greatly improves the utilization efficiency.

And step 13, when the water supply pressure reaches the normal value, determining that the operation mode of the washing machine is the normal mode, and opening the one-way valve 21 and closing the booster pump 22.

Or step 14, when the water supply pressure does not reach the normal value, determining that the operation mode of the washing machine is the emergency mode, opening the one-way valve 21 and opening the booster pump 22.

For example: when the pressure of the domestic water supply system is abnormal, the unit selects an emergency washing mode, and washing water mainly flows through a water injection pump (namely a booster water pump) and is pressurized into a barrel for washing.

For example: when the domestic water supply water pressure is normal, the unit operates according to a normal set program, the washing water mainly flows into the unit through the one-way stop valve, and the water injection pump (namely the booster pump) does not work at the moment.

From this, through carry out the pressure boost moisturizing when water supply water pressure is less than the normal value, can reduce the water injection time, and then to a certain extent, can guarantee that the detergent washes cleanly, reduces the detergent and remains the risk.

In an alternative embodiment, the method may further include:

and step 21, detecting the water supply pressure again through the sensing mechanism 25 in the current water injection process in the normal mode and/or the emergency mode.

And step 22, determining whether the re-detected water supply pressure reaches the normal value through the controller 20. And the number of the first and second groups,

and step 23, when the water supply water pressure does not reach the normal value, determining whether the current water injection process is in failure. And, when it is determined that the current water filling process is faulty, controlling the alarm 26 to alarm when the washing machine may include the alarm 26, and/or controlling the washing machine to reset, and/or keeping the booster pump 22 on in the emergency mode or turning on the booster pump 22 in the normal mode.

Or step 24, turning off the booster pump 22 in the emergency mode when the water filling pressure reaches the normal value, or keeping the booster pump 22 off in the normal mode.

For example: the water injection overtime or hydraulic pressure abnormal fault handling program can comprise: and resetting. Wherein, the reset mode can include: when the fault occurs, the start/pause key is pressed, and after the power supply is restarted or turned off, the machine is restarted to recover to normal.

For example: if the fault is found again after starting, the water injection overtime fault processing program is continuously entered, the process is circulated until the fault is removed, then the start/pause key is pressed to restart or the power supply is turned off, the machine is restarted to recover to normal, and the machine can not normally run after starting.

Therefore, fault detection is carried out in the water injection process, and timely maintenance is carried out during fault, so that the operation reliability of the washing machine and the use convenience of a user can be improved, and the washing machine is good in humanization.

In an alternative embodiment, the method may further include:

and step 31, through the controller 20, in the current water filling process of keeping the booster pump 22 on in the emergency mode or starting the booster pump 22 in the normal mode, and/or in the current water filling process after controlling the washing machine to reset, determining whether the current water filling process is failed again, and circulating accordingly. And the number of the first and second groups,

and step 32, when the frequency of the faults in the current water injection process is continuously determined to reach the preset frequency, stopping the washing machine.

For example: and if similar faults reappear again, entering a water injection overtime or water pressure abnormal fault processing program. For example: the complete machine is completely stopped after the machine set is continuously protected for 3 times.

Therefore, the washing machine can be stopped when the failure times reach a set value through the cyclic detection after the failure processing, the safety of the washing machine can be protected, the humanization is good, and the energy-saving effect is good.

In an alternative embodiment, the method may further include: when the standby water 28 is previously set for the washing machine, the standby water 28 is activated when the water supply pressure does not reach the normal value or the water supply side is empty by the controller 20.

From this, realize through system design booster pump that water pressure of intaking is crossed normal water supplies such as low or when having no water pressure (combine urgent with reserve water) to fill fast and annotate the washing water and rinse the detergent, it is better to use the convenience, and user experience is better.

In an alternative embodiment, the method may further include: when the washing machine may include the communication module 27, communication between the washing machine and a preset client is performed through the controller 20.

Therefore, the washing machine can be conveniently remotely operated by a user through communication between the washing machine and the client, and is good in reliability and better in use convenience.

Since the processes and functions implemented by the method of the present embodiment substantially correspond to the embodiments, principles and examples of the washing machine shown in fig. 3 to 4, the description of the present embodiment is not detailed, and reference may be made to the related descriptions in the foregoing embodiments, which are not repeated herein.

Through a large amount of experimental verifications, adopt the technical scheme of the utility model, realize through system design booster pump that water pressure of intaking crosses low or normal water supplies such as when not having water pressure (combine urgent water that is equipped with) to fill the washing water fast and rinse the detergent, can realize the washing moisturizing pressure restriction, improve unit range of application, reinforcing function practicality.

In summary, it is readily understood by those skilled in the art that the advantageous modes described above can be freely combined and superimposed without conflict.

The above description is only an example of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (11)

1. A control apparatus of a washing machine, characterized by comprising: a check valve (21) and a booster pump (22); wherein,

the one-way valve (21) is arranged on a main water inlet pipeline (23) of the washing machine in a matching mode and is used for enabling water on the water supply side of the washing machine to be injected into the washing machine in a one-way mode through the main water inlet pipeline (23) so as to realize conventional water injection of the washing machine in a preset conventional mode;

booster pump (22), the adaptation sets up on bypass inlet channel (24) of main inlet channel (23), be used for right water in bypass inlet channel (24) carries out the pressure boost, and pour into under the contrary protection of check valve (21) washing machine, in order to realize washing machine pressure boost moisturizing under the emergency mode of predetermineeing.

2. The apparatus of claim 1, further comprising: a sensing mechanism (25) and a controller (20); wherein,

the sensing mechanism (25) is arranged at the water supply side in a matching mode and used for detecting the water supply pressure of the water supply side when the washing machine is started;

the controller (20) is respectively matched with the one-way valve (21), the booster pump (22) and the sensing mechanism (25) and is used for determining whether the detected water supply pressure reaches a preset normal value or not; and the number of the first and second groups,

when the water supply pressure reaches the normal value, determining that the operation mode of the washing machine is the normal mode, and opening the one-way valve (21) and closing the booster pump (22);

or when the water supply pressure does not reach the normal value, determining that the operation mode of the washing machine is the emergency mode, opening the one-way valve (21) and opening the booster pump (22).

3. The apparatus of claim 2, further comprising: an alarm (26);

the alarm (26) is used for giving an alarm in at least one form of sound, light and voice under the control of the controller (20);

the sensing mechanism (25) is also used for detecting the water supply pressure again in the current water filling process in the normal mode and/or the emergency mode;

the controller (20) for determining whether the supply water pressure detected again reaches the normal value; and the number of the first and second groups,

when the water supply water pressure does not reach the normal value, determining whether the current water injection process is in failure; and, when it is determined that the current water filling process is faulty, controlling the alarm (26) to alarm, and/or controlling the washing machine to reset, and/or keeping the booster pump (22) on in the emergency mode, or turning on the booster pump (22) in the normal mode;

or when the water filling pressure reaches the normal value, turning off the booster pump (22) in the emergency mode, or keeping the booster pump (22) off in the normal mode.

4. The apparatus according to claim 3, wherein the controller (20) determines whether the current water filling process is faulty, in particular:

the sensing mechanism (25) is also used for detecting the current water injection level and/or the current water injection frequency when the washing machine is started and the water is continuously injected for the first time to reach the preset time;

the controller (20) is further configured to determine whether the current water filling level is lower than a preset level and/or whether the current water filling frequency is less than a preset frequency; and the number of the first and second groups,

and when the current water injection water level is lower than the preset water level and/or the current water injection frequency is lower than the preset frequency, determining that the current water injection process is in fault.

5. The apparatus according to claim 3 or 4,

the controller (20) is further used for keeping the booster pump (22) on in the emergency mode, or in the current water filling process of starting the booster pump (22) in the normal mode, and/or in the current water filling process after controlling the washing machine to reset, determining whether the current water filling process is failed again, and circulating the process; and the number of the first and second groups,

and when the frequency of the faults in the current water injection process is continuously determined to reach the preset frequency, stopping the washing machine.

6. The device according to any of the claims 2 to 4, characterized in that the bypass water inlet line (24) is also adapted to a predetermined standby water (28);

the controller (20) is also used for starting the standby water (28) when the water supply water pressure does not reach the normal value or the water supply side is not water.

7. The apparatus of any of claims 2-4, further comprising: a communication module (27);

the communication module (27) is adaptive to the controller (20) and is used for communication between the controller (20) and a preset client;

and/or the presence of a gas in the gas,

the controller (20) comprises: at least one of MCU, singlechip, PLC controller, DSP treater.

8. A washing machine, characterized by comprising: control device (2) of a washing machine according to any of claims 1-7.

9. The washing machine as claimed in claim 8, further comprising: the washing machine comprises a washing machine body (1), and a control device (2) which is arranged between a water supply side and a water inlet side of the washing machine body (1) in a matched mode;

the washing machine body (1) comprises: a water inlet valve (10), a water guide pipe (11) and a washing box (13); wherein,

the water inlet end of the water inlet valve (10) is matched with the control device (2); the water outlet end of the water inlet valve (10) is communicated to the washing box (13) and/or the water outlet (12) of the washing machine body (1) through the water guide pipe (11).

10. Laundry washing machine according to claim 9, characterized in that said inlet valve (10) comprises: a first solenoid valve (101) and a second solenoid valve (102);

when the control device (2) comprises a controller (20), the first electromagnetic valve (101) and the second electromagnetic valve (102) are respectively matched with the controller (20) and are respectively used for controlling a main washing process and a pre-washing process preset by the washing machine body (1);

and/or the presence of a gas in the gas,

the water guide duct (11) includes: a first water guide pipe (111), a second water guide pipe (112), and a third water guide pipe (113);

when the water inlet valve (10) comprises the first solenoid valve (101) and the first solenoid valve (101) is used for controlling the pre-washing process, the first water conduit (111) is fittingly arranged between the first solenoid valve (101) and the water outlet (12), and the second water conduit (112) is fittingly arranged between the first solenoid valve (101) and a first port (131) of the washing box (13);

when the water inlet valve (10) further includes the second solenoid valve (102), and the second solenoid valve (102) is used to control the main wash process, the third water conduit (113) is fittingly disposed between the second solenoid valve (102) and the second port (132) of the wash box (13).

11. The washing machine according to claim 9 or 10, wherein the water guide duct (11) further comprises: a pressure equalizing pipe (114);

the pressure balance pipe (114) is arranged between the washing box (13) and the washing space of the washing machine body (1) in a matching mode.