CN209915899U - Soft all-in-one of exhaling - Google Patents

Abstract

The utility model discloses a soft all-in-one of exhaling, including salt chamber, resin cavity, first solenoid valve, second solenoid valve and main inlet channel, salt chamber and resin cavity are linked together with main inlet channel respectively, and first solenoid valve sets up on main inlet channel, and first solenoid valve is used for controlling the rivers of main inlet channel to get into salt chamber or resin cavity; the salt cavity is connected with a salt cavity drainage channel which is communicated with the resin cavity; the salt cavity is connected with a drainage channel, and the second electromagnetic valve is arranged on the drainage channel. The electromagnetic valve is added on the soft-calling integrated machine to control the brine in the salt cavity to be discharged, when the salt cavity is short of salt, the electromagnetic valve can be started to empty the brine in the salt cavity, so that the brine is prevented from overflowing from a salt adding port when the salt is added, and the damage to the machine caused by corrosion of an inner container, a filter screen and the like is avoided; meanwhile, only one electromagnetic valve and a drainage channel need to be added in the whole soft-breathing all-in-one machine, the structure is simple and compact, the operation is convenient, the occupied size is small, the internal space of the dish washing machine is saved, and the utilization rate of the internal space is greatly improved.

Description

Soft all-in-one of exhaling

Technical Field

The utility model relates to a dish washer technical field especially relates to a soft all-in-one of exhaling.

Background

The dishwasher is a household appliance for washing tableware, common functions comprise washing, drying, disinfection, storage, water softening and the like, the dishwasher achieves the aim of softening water quality by adsorbing calcium and magnesium ions in water by using resin in a water softener in the working process, and the adsorption capacity of the resin is deteriorated along with the increase of the content of the calcium and magnesium ions, so that the resin needs to be regenerated by using saline water, and the resin recovers the adsorption capacity of the resin on the calcium and magnesium ions. Therefore, the dishwasher requires addition of salt to the water softener after a certain period of use.

In the prior art, when salt is added into a water softener, salt water often overflows from a salt adding port and flows onto an inner container, and the overflowing salt water can corrode the inner container, a filter screen, a motor and the like to cause damage to the water softener.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a soft all-in-one of exhaling has simple structure's characteristics.

To achieve the purpose, the utility model adopts the following technical proposal:

a soft breath integrated machine is characterized by comprising a salt cavity, a resin cavity, a first electromagnetic valve, a second electromagnetic valve and a main water inlet channel, wherein the salt cavity and the resin cavity are respectively communicated with the main water inlet channel; the salt cavity is connected with a salt cavity drainage channel which is communicated with the resin cavity;

the salt cavity is connected with a drainage channel, and the second electromagnetic valve is arranged on the drainage channel.

When the water-saving device works normally, the first electromagnetic valve controls water flow of the main water inlet channel to enter the resin cavity, and the water flow enters the resin cavity through the first electromagnetic valve and is softened and then flows out; when resin regeneration is carried out, the first electromagnetic valve controls water flow of the main water inlet channel to enter the salt cavity, salt water in the salt cavity flows into the resin cavity through the salt cavity drainage channel, and the softened resin flows out of the soft-breathing integrated machine; when the soft-breathing all-in-one machine is lack of salt and salt needs to be added, the second electromagnetic valve opens the drainage channel, water in the salt cavity is discharged through the drainage channel, and then salt is added. The second electromagnetic valve and the drainage channel are added to control the outflow of water in the salt cavity, so that the problem that salt is added into the salt cavity directly when the salt cavity is lack of salt and the water in the salt cavity overflows is solved, the whole structure is simple and compact, the operation is convenient, and the occupied volume is small.

Further, a water outlet is formed in the drainage channel, a second plug is arranged on the second electromagnetic valve, and the second plug corresponds to the water outlet;

the soft breathing all-in-one machine also comprises a main water outlet communicated with the resin cavity, and the water outlet of the drainage channel is communicated with the main water outlet.

And a second electromagnetic valve on the drainage channel opens or closes the water outlet through a second plug. When the salt cavity is short of salt, the second electromagnetic valve opens the water outlet, and the brine in the salt cavity flows into the water outlet through the drainage channel and is discharged out of the soft-calling all-in-one machine; when the salt cavity normally works, the second electromagnetic valve closes the water outlet, and the salt water in the salt cavity cannot flow out through the drainage channel. The water outlet is communicated with the main water outlet of the soft breathing all-in-one machine, so that the work of the soft breathing all-in-one machine cannot be influenced when the drainage channel drains water.

Furthermore, the soft breathing all-in-one machine comprises a respirator and a water softener which are connected, the salt cavity, the resin cavity, the salt cavity water discharge channel and the water discharge channel are all positioned in the respirator, and the main water inlet channel and the main water outlet are positioned in the water softener;

the water softener is provided with a drainage through hole communicated with the respirator, the drainage channel is communicated with the main water outlet through the drainage through hole, and the drainage through hole is adjacent to the water outlet.

The salt cavity, the resin cavity, the salt cavity drainage channel and the drainage channel are all positioned in the respirator, and the main water inlet channel and the main water outlet are positioned in the water softener; the water softener is provided with a drainage through hole to communicate the drainage water channel with a main water outlet on the respirator, when the salt cavity is short of salt, the second electromagnetic valve opens the water outlet, saline water in the salt cavity flows into the water outlet through the drainage water channel and is discharged out of the soft breathing all-in-one machine through the drainage through hole and the main water outlet, and the soft breathing all-in-one machine is simple and compact in overall structure, convenient to operate and small in occupied size.

Further, the salt cavity is connected with a salt cavity water inlet channel, the salt cavity water inlet channel is communicated with the main water inlet channel, and a salt cavity water inlet hole communicated with the salt cavity water inlet channel is formed in the bottom surface of the salt cavity;

the salt cavity is provided with a discharge hole communicated with the discharge water channel, and the discharge hole is positioned at the lower part of the right side of the salt cavity.

One end of the salt cavity water inlet channel is connected with the main water inlet channel, and the other end of the salt cavity water inlet channel is connected with the salt cavity through the salt cavity water inlet hole in the bottom surface of the salt cavity. When the soft all-in-one of exhaling carries out resin regeneration, the rivers entering salt chamber inlet channel of main inlet channel, get into the salt chamber through the salt chamber inlet opening of salt chamber bottom surface again, and salt water in the salt chamber gets into the resin cavity through salt chamber drain, regenerates the resin in the resin cavity. The discharge hole is arranged on the right side of the salt cavity, the salt cavity water inlet is arranged on the bottom surface of the salt cavity, the discharge hole and the salt cavity water inlet are not interfered with each other, the salt cavity water inlet is guaranteed to have a large enough length, solid salt in the salt cavity is increased to be in contact with water flow, the solid salt in the salt cavity is uniformly dissolved, the concentration of salt water is improved, and therefore the salt water flowing into the resin cavity can achieve the maximum regeneration effect on the resin.

Salt chamber inlet opening and earial drainage department all are provided with the fretwork board, and the fretwork board can play the effect that reduces velocity of water, improves the concentration of salt solution, avoids rivers too big, and the solid salt in the salt chamber can be washed out.

Further, be provided with the lack of salt tablet in the salt chamber, lack of salt tablet sets up the lower part in the salt chamber, and lack of salt tablet is used for lacking salt signal transmission to second solenoid valve.

The salt deficiency induction plate is used for judging whether the soft-breathing all-in-one machine is salt deficiency or not by sensing the concentration of salt water in the salt cavity; when the concentration of the saline water in the salt cavity is lower than the limit value, the salt deficiency sensing plate can output a salt deficiency signal and transmits the salt deficiency signal to the second electromagnetic valve through signal transmission, the second electromagnetic valve is communicated with the drainage channel and the water outlet, and the saline water in the salt cavity enters the water outlet through the drainage channel and is discharged out of the soft-calling all-in-one machine. The concentration of salt water in the salt cavity can be monitored in real time by the salt shortage induction plate, the user is reminded of adding salt in time when salt shortage is detected, the concentration of salt water can be improved, and therefore the salt water flowing to the resin cavity can achieve the maximum regeneration effect of resin.

Furthermore, the first electromagnetic valve and the second electromagnetic valve are both arranged on the left side of the salt cavity and are positioned below the resin cavity; the first electromagnetic valve and the second electromagnetic valve are arranged adjacently, and the first electromagnetic valve is positioned above the second electromagnetic valve;

the salt cavity water draining channel is positioned between the salt cavity and the resin cavity and is used for communicating the salt cavity with the resin cavity; the salt cavity is provided with a salt cavity drain hole communicated with the salt cavity drain passage, and the salt cavity drain hole is positioned at the upper part of the left side of the salt cavity;

the drainage channel is positioned below the salt cavity.

The left side of the salt cavity is sequentially provided with a resin cavity, a first electromagnetic valve and a second electromagnetic valve, a salt cavity drainage channel is arranged between the cavities, and the salt cavity drainage channel is communicated with the salt cavity and the resin cavity; the salt chamber below still sets up the earial drainage way, and the overall structure overall arrangement of soft all-in-one of exhaling is compact, and is small, saves dish washer inner space, improves inner space utilization greatly.

A salt cavity drain hole is formed in the upper portion of the left side of the salt cavity, and when resin regeneration is carried out, salt water in the salt cavity enters a salt cavity drain passage through the salt cavity drain hole and then flows to the resin cavity. The salt chamber drain hole department is provided with the fretwork board, and the fretwork board can play the effect that reduces velocity of water flow, improves the concentration of salt solution, avoids rivers too big, and the solid salt in the salt chamber can be washed out.

Furthermore, a salt adding port is arranged at the upper part of the salt cavity.

When the salt content in the salt cavity is not enough, the user can add salt to the salt cavity through the salt adding port, and the operation is simple and convenient. The salt adding opening is provided with the cover, so that the salt adding opening can be sealed, and the salt water in the salt cavity is prevented from flowing into the soft-breathing all-in-one machine to cause damage to the machine. The cover arranged at the salting hole can be of a rotary type or a flip type.

Furthermore, a salt cavity water inlet through hole communicated with the respirator is formed in the water softener, and a salt cavity water inlet channel is communicated with the main water inlet channel through the salt cavity water inlet through hole; the salt cavity water inlet through hole is adjacent to the first electromagnetic valve; the first electromagnetic valve is provided with a first plug, the first plug corresponds to the position of the salt cavity water inlet through hole, and the first plug is used for opening or closing the salt cavity water inlet through hole;

and a resin cavity water inlet through hole is formed above the salt cavity water inlet through hole, and the resin cavity is communicated with a salt cavity water drainage channel through the resin cavity water inlet through hole.

Be provided with the salt chamber through-hole of intaking that is linked together with the respirator on the water softener, when carrying out resin regeneration, salt chamber through-hole of intaking is opened to the first end cap of first solenoid valve, and water in the main intake passage enters into the salt chamber intake passage through salt chamber through-hole of intaking, gets into in the salt chamber through salt chamber water inlet in salt chamber bottom surface, and salt water in the salt chamber gets into salt chamber water drainage channel through the salt chamber wash port on salt chamber left side upper portion, gets into in the resin chamber through the resin chamber inlet opening and softens. The respirator and the water softener are connected into a whole through the through hole, the whole structure is simple and compact, the operation is convenient, and the occupied size is small.

The utility model has the advantages that: the electromagnetic valve is added on the soft-calling integrated machine to control the brine in the salt cavity to be discharged, when the salt cavity is short of salt, the electromagnetic valve can be started to empty the brine in the salt cavity, so that the brine is prevented from overflowing from a salt adding port when the salt is added, and the damage to the machine caused by corrosion of an inner container, a filter screen, a motor and the like is avoided; meanwhile, only one electromagnetic valve and a drainage channel need to be added in the whole soft-breathing all-in-one machine, the structure is simple and compact, the operation is convenient, the occupied size is small, the internal space of the dish washing machine is saved, and the utilization rate of the internal space is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of a soft call all-in-one machine according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a side of the main water inlet channel of the soft pager of FIG. 1;

fig. 3 is a schematic structural view of the integrated soft breathing apparatus shown in fig. 1.

The salt cavity water inlet device comprises a salt cavity 1, a resin cavity 2, a first electromagnetic valve 3, a second electromagnetic valve 4, a salt cavity water draining channel 5, a water draining channel 6, a water outlet 7, a water draining through hole 8, a salt cavity water inlet channel 9, a salt cavity water inlet hole 10, a water draining hole 11, a salt deficiency induction plate 12, a salt cavity water draining hole 13, a salt adding port 14, a salt cavity water inlet through hole 15, a resin cavity water inlet through hole 16, a main water inlet channel 20 and a main water outlet 21.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and the detailed description.

As shown in fig. 1-3, the utility model relates to a soft all-in-one of exhaling, which is characterized in that, including salt chamber 1, resin chamber 2, first solenoid valve 3, second solenoid valve 4 and main water inlet channel 20, salt chamber 1 and resin chamber 2 are respectively communicated with main water inlet channel 20, first solenoid valve 3 is arranged on main water inlet channel 20, first solenoid valve 3 is used for controlling the water flow of main water inlet channel 20 to enter into salt chamber 1 or resin chamber 2; the salt cavity 1 is connected with a salt cavity water drainage channel 5, and the salt cavity water drainage channel 5 is communicated with the resin cavity 2;

the salt cavity 1 is connected with a drainage channel 6, and the second electromagnetic valve 4 is arranged on the drainage channel 6.

When the water-saving device works normally, the first electromagnetic valve 3 controls the water flow of the main water inlet channel 20 to enter the resin cavity 2, and the water flow enters the resin cavity 2 through the first electromagnetic valve 3 to be softened and then flows out; when resin regeneration is carried out, the first electromagnetic valve 3 controls water flow of the main water inlet channel 20 to enter the salt cavity 1, salt water in the salt cavity 1 flows into the resin cavity 2 through the salt cavity water drainage channel 5, and the softened resin flows out of the soft-calling all-in-one machine; when the soft breathing all-in-one machine is lack of salt and salt needs to be added, the second electromagnetic valve 4 opens the drainage channel 6, water in the salt cavity 1 is discharged through the drainage channel 6, and then salt is added. Increase the outflow of second solenoid valve 4 and blowdown flow way 6 come control salt chamber 1 internal water, when solving salt chamber 1 and lack the salt, directly add salt toward salt chamber 1, the problem that salt chamber 1 internal water spills over, overall structure is simple compact, convenient operation occupies smallly.

Further, a water outlet 7 is arranged on the drainage channel 6, and a second plug is arranged on the second electromagnetic valve and corresponds to the water outlet 7 in position;

the soft breathing all-in-one machine also comprises a main water outlet 21 communicated with the resin cavity, and the water outlet of the drainage channel is communicated with the main water outlet 21.

And a second electromagnetic valve 4 on the drainage channel opens or closes a water outlet 7 through a second plug. When the salt cavity 1 is short of salt, the second electromagnetic valve 4 opens the water outlet 7, and the brine in the salt cavity 1 enters the water outlet 7 through the drainage channel 6 and is discharged out of the soft-breathing integrated machine; when the salt cavity 1 works normally, the second electromagnetic valve 4 closes the water outlet 7, and the salt water in the salt cavity 1 cannot flow out through the drainage channel 6. The water outlet 7 is communicated with the total water outlet 21 of the soft breathing all-in-one machine, so that the work of the soft breathing all-in-one machine cannot be influenced when the drainage channel 6 drains water.

Further, the soft breathing all-in-one machine comprises a respirator and a water softener which are connected, the salt cavity 1, the resin cavity 2, the salt cavity water drain passage 5 and the drainage water passage 6 are all positioned in the respirator, and the main water inlet passage 20 and the main water outlet 21 are positioned in the water softener;

the water softener is provided with a drainage through hole 8 communicated with the respirator, the drainage water channel 6 is communicated with the main water outlet 21 through the drainage through hole 8, and the drainage through hole 8 is adjacent to the water outlet 7.

The salt cavity 1, the resin cavity 2, the salt cavity water drain passage 5 and the drainage passage 6 are all positioned in the respirator, and the main water inlet passage 20 and the main water outlet 21 are positioned in the water softener; the water softener is provided with a drainage through hole 8 to communicate a drainage water channel 6 with a total water outlet 21 on the respirator, when the salt cavity 1 is short of salt, the second electromagnetic valve 4 opens the water outlet 7, the brine in the salt cavity 1 flows into the water outlet 7 through the drainage water channel 6, and the brine flows through the drainage through hole 8 and is discharged out of the total water outlet 21 to form the soft breathing all-in-one machine, so that the soft breathing all-in-one machine is simple and compact in integral structure, convenient to operate and small in occupied size.

Further, the salt cavity is connected with a salt cavity water inlet channel 9, the salt cavity water inlet channel 9 is communicated with the main water inlet channel 20, and the bottom surface of the salt cavity is provided with a salt cavity water inlet hole 10 communicated with the salt cavity water inlet channel 9;

the salt cavity 1 is provided with a discharge hole 11 communicated with the discharge water channel 6, and the discharge hole 11 is positioned at the lower part of the right side of the salt cavity 1.

One end of the salt cavity water inlet channel 9 is connected with the main water inlet channel 20, and the other end of the salt cavity water inlet channel is connected with the salt cavity 1 through the salt cavity water inlet hole 10 on the bottom surface of the salt cavity. When the soft all-in-one of exhaling carries out resin regeneration, the rivers of main inlet channel 20 get into salt chamber inlet channel 9, get into salt chamber 1 through the salt chamber inlet opening 10 of salt chamber 1 bottom surface again, and salt water in the salt chamber 1 gets into resin cavity 2 through salt chamber drain 5 in, regenerates the resin in the resin cavity 2. Set up discharge orifice 11 on 1 right side in salt chamber, salt chamber inlet opening 10 sets up in the salt chamber bottom surface, and discharge orifice 11 and salt chamber inlet opening 10 mutual noninterference guarantee that salt chamber inlet opening 10 has enough big length, and the contact of the solid salt in the increase salt chamber and rivers makes the solid salt in salt chamber 1 dissolve uniformly, improves the concentration of salt solution to make the salt solution that flows to in the resin chamber 2 can realize the biggest regeneration effect to the resin.

Salt chamber inlet opening 10 and discharge opening 11 department all are provided with the fretwork board, and the fretwork board can play the effect that reduces velocity of water, improves the concentration of salt solution, avoids rivers too big, and the solid salt in the salt chamber 1 can be washed out.

Further, be provided with lack salt tablet 12 in the salt chamber 1, lack salt tablet 12 sets up the lower part in salt chamber 1, and lack salt tablet 12 is used for sending lack salt signal to second solenoid valve 4.

The salt deficiency induction plate 12 is used for judging whether the soft-breathing all-in-one machine is salt-deficient or not by sensing the concentration of salt water in the salt cavity 1; when the concentration of the salt water in the salt cavity 1 is lower than the limit value, the salt deficiency sensing plate 12 can output a salt deficiency signal and transmit the salt deficiency signal to the second electromagnetic valve 4 through signal transmission, the second electromagnetic valve 4 is communicated with the drainage channel 6 and the water outlet 7, and the salt water in the salt cavity 1 flows into the water outlet 7 through the drainage channel 6 and is discharged out of the soft-breathing all-in-one machine. The concentration of salt water in the salt cavity 1 can be monitored in real time by setting the salt shortage induction plate 12, the user is reminded in time to add salt when the salt is short, the concentration of the salt water can be improved, and therefore the salt water flowing to the resin cavity 2 can achieve the maximum regeneration effect of the resin.

Further, the first electromagnetic valve 3 and the second electromagnetic valve 4 are both arranged on the left side of the salt cavity 1 and are positioned below the resin cavity 2; the first electromagnetic valve 3 and the second electromagnetic valve 4 are arranged adjacently, and the first electromagnetic valve 3 is positioned above the second electromagnetic valve 4;

the salt cavity water draining channel 5 is positioned between the salt cavity 1 and the resin cavity 2 and is used for communicating the salt cavity 1 and the resin cavity 2; the salt cavity 1 is provided with a salt cavity drain hole 13 communicated with the salt cavity drain passage 5, and the salt cavity drain hole 13 is positioned at the upper part of the left side of the salt cavity 1;

the drainage channel 6 is located below the salt cavity 1.

A resin cavity 2, a first electromagnetic valve 3 and a second electromagnetic valve 4 are sequentially arranged on the left side of the salt cavity 1, a salt cavity drainage channel 5 is arranged between the cavities, and the salt cavity drainage channel 5 is communicated with the salt cavity 1 and the resin cavity 2; the salt cavity 1 below still sets up the earial drainage way 6, and the overall structure overall arrangement of soft all-in-one of exhaling is compact, and is small, saves dish washer inner space, improves inner space utilization greatly.

A salt cavity drain hole 13 is arranged at the upper part of the left side of the salt cavity 1, and when resin regeneration is carried out, salt water in the salt cavity 1 enters the salt cavity drain passage 5 through the salt cavity drain hole 13 and then flows to the resin cavity 2. Salt chamber wash port 13 department is provided with the fretwork board, and the fretwork board can play the effect that reduces water velocity, improves the concentration of salt solution, avoids rivers too big, and the solid salt in the salt chamber 1 can be washed out.

Further, the upper part of the salt cavity 1 is provided with a salt adding port 14.

When the salt content in the salt cavity 1 is insufficient, the user can add salt to the salt cavity 1 through the salt adding port 14, and the operation is simple and convenient. A cover is arranged at the salt adding opening 14, so that the salt adding opening 14 can be closed, and the salt water in the salt cavity 1 is prevented from flowing into the soft-breathing all-in-one machine to cause damage to the machine. The cover provided at the salting port 14 may be of a swivel type or a flip type.

Further, the water softener is provided with a salt cavity water inlet through hole 15 communicated with the respirator, and the salt cavity water inlet channel 9 is communicated with the main water inlet channel 20 through the salt cavity water inlet through hole 15; the salt cavity water inlet through hole 15 is adjacent to the first electromagnetic valve 3; the first electromagnetic valve 3 is provided with a first plug, the first plug corresponds to the position of the salt cavity water inlet through hole 15, and the first plug is used for opening or closing the salt cavity water inlet through hole 15;

and a resin cavity water inlet through hole 16 is arranged above the salt cavity water inlet through hole 15, and the resin cavity 2 is communicated with the salt cavity water drainage channel 5 through the resin cavity water inlet through hole 16.

The water softener is provided with a salt cavity water inlet through hole 15 communicated with the respirator, when resin regeneration is carried out, the salt cavity water inlet through hole 15 is opened by a first plug of the first electromagnetic valve 3, water in the main water inlet channel 20 enters the salt cavity water inlet channel 9 through the salt cavity water inlet through hole 15, the water enters the salt cavity 1 through a salt cavity water inlet 10 in the bottom surface of the salt cavity 1, and salt water in the salt cavity 1 enters the salt cavity water drainage channel 5 through a salt cavity water outlet 13 in the upper portion of the left side of the salt cavity 1 and enters the resin cavity 2 through a resin cavity water inlet 16 to be softened. The respirator and the water softener are connected into a whole through the through hole, the whole structure is simple and compact, the operation is convenient, and the occupied size is small.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (8)

1. A soft breath integrated machine is characterized by comprising a salt cavity, a resin cavity, a first electromagnetic valve, a second electromagnetic valve and a main water inlet channel, wherein the salt cavity and the resin cavity are respectively communicated with the main water inlet channel; the salt cavity is connected with a salt cavity drainage channel, and the salt cavity drainage channel is communicated with the resin cavity;

the salt cavity is connected with a drainage channel, and the second electromagnetic valve is arranged on the drainage channel.

2. The soft all-in-one of claim 1, wherein a water outlet is arranged on the drainage channel, the second electromagnetic valve is provided with a second plug, and the second plug corresponds to the water outlet;

the soft breathing all-in-one machine further comprises a main water outlet communicated with the resin cavity, and the water outlet of the drainage channel is communicated with the main water outlet.

3. The integrated soft breathing machine according to claim 2, which comprises a respirator and a water softener which are connected, wherein the salt cavity, the resin cavity, the salt cavity drainage channel and the drainage channel are all positioned in the respirator, and the main water inlet channel and the main water outlet are positioned in the water softener;

the water softener is provided with a drainage through hole communicated with the respirator, the drainage water channel is communicated with the main water outlet through the drainage through hole, and the drainage through hole is adjacent to the water outlet.

4. The soft all-in-one of claim 3, wherein the salt cavity is connected with a salt cavity water inlet channel, the salt cavity water inlet channel is communicated with the main water inlet channel, and a salt cavity water inlet hole communicated with the salt cavity water inlet channel is formed in the bottom surface of the salt cavity;

the salt cavity is provided with a discharge hole communicated with the discharge water channel, and the discharge hole is positioned at the lower part of the right side of the salt cavity.

5. The soft all-in-one of exhaling of claim 1, wherein be provided with the lack of salt tablet in the salt chamber, the lack of salt tablet sets up the lower part in the salt chamber, the lack of salt tablet is used for sending the lack of salt signal to second solenoid valve.

6. The soft all-in-one of calling out of claim 1, characterized in that, the first solenoid valve and the second solenoid valve are both arranged at the left side of the salt cavity and below the resin cavity; the first electromagnetic valve and the second electromagnetic valve are arranged adjacently, and the first electromagnetic valve is positioned above the second electromagnetic valve;

the salt cavity water draining channel is positioned between the salt cavity and the resin cavity and is used for communicating the salt cavity with the resin cavity; the salt cavity is provided with a salt cavity drain hole communicated with the salt cavity drain passage, and the salt cavity drain hole is positioned at the upper part of the left side of the salt cavity;

the drainage channel is positioned below the salt cavity.

7. The soft all-in-one of exhaling of claim 1, wherein salt adding port is provided on the upper portion of salt chamber.

8. The soft breathing all-in-one machine according to claim 4, wherein the water softener is provided with a salt cavity water inlet through hole communicated with the respirator, and the salt cavity water inlet channel is communicated with the main water inlet channel through the salt cavity water inlet through hole; the salt cavity water inlet through hole is adjacent to the first electromagnetic valve; the first electromagnetic valve is provided with a first plug, the first plug corresponds to the position of the salt cavity water inlet through hole, and the first plug is used for opening or closing the salt cavity water inlet through hole;

and a resin cavity water inlet through hole is formed above the salt cavity water inlet through hole, and the resin cavity is communicated with a salt cavity drainage channel through the resin cavity water inlet through hole.

Images