CN209808271U - Hard water softening device capable of controlling water quantity - Google Patents

Abstract

The utility model discloses a hard water softening device capable of controlling water quantity, which comprises a breathing component and a water softener, wherein the water softener is formed by splicing an upper shell, a middle shell and a lower shell, a resin softening cavity and a water inlet channel are arranged in the middle shell, the upper shell and the middle shell are spliced to form a water inlet tank and a water outlet tank, the upper shell, the middle shell and the lower shell are spliced to form a saline water cavity, the water inlet tank is connected with a water outlet of the breathing component, a first water outlet of the water inlet tank is connected with the water inlet channel, the water inlet channel is connected with the resin softening cavity, the resin softening cavity is connected with the water outlet tank, and a soft water outlet is arranged on the water outlet; the second water outlet of the water inlet tank is higher than the first water outlet, the second water outlet of the water inlet tank is connected with the brine cavity, the second water outlet is provided with a one-way valve, the brine cavity is positioned at one end of the resin softening cavity, a communicating hole is arranged between the brine cavity and the water inlet tank, and the water inlet channel is provided with an electromagnetic valve for controlling the communicating hole. The utility model can effectively control water flow and save energy.

Description

Hard water softening device capable of controlling water quantity

Technical Field

The utility model relates to a dish washer field, concretely relates to hard water softening installation of steerable water yield in the dish washer.

Background

In the present life, dish washer has received extensive application in the life, and the water softener and the respirator set of the dish washer that use at present are in the same place, though simple to operate, the shared proportion of demineralized water is few in the water that nevertheless flows from the soft water delivery port, and it is little to lead to the interior water yield of dish washer, and work efficiency is low, and another kind is water softener and respirator separation, and its installation is more nimble, and occupation space is moderate, but the demineralized water yield is too big at every turn, and is difficult to control, causes the wasting of resources.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a hard water softening device capable of controlling water quantity; the utility model can control the softened water quantity, and can meet the use requirements of dish washers with various discharge capacities;

the purpose of the utility model can be realized by the following technical scheme: a hard water softening device capable of controlling water quantity is characterized by comprising a breathing assembly and a water softener, wherein the water softener is formed by splicing an upper shell, a middle shell and a lower shell, a resin softening cavity and a water inlet channel are arranged in the middle shell, the upper shell and the middle shell are spliced to form a water inlet groove and a water outlet groove, the upper shell, the middle shell and the lower shell are spliced to form a saline water cavity, the water inlet groove is connected with a water outlet of the breathing assembly, a first water outlet of the water inlet groove is connected with the water inlet channel, the water inlet channel is connected with the resin softening cavity, the resin softening cavity is connected with the water outlet groove, and a soft water outlet is formed in the water outlet groove; the second water outlet of the water inlet tank is higher than the first water outlet, the second water outlet of the water inlet tank is connected with the brine cavity, the second water outlet is provided with a one-way valve, the brine cavity is positioned at one end of the resin softening cavity, a communicating hole is formed between the brine cavity and the water inlet tank, the water inlet channel is provided with an electromagnetic valve for controlling the communicating hole, and water flow can be controlled by arranging a first water outlet and a second water outlet in the water inlet tank in a waterway manner; the electromagnetic valve is used for controlling the opening or closing of the communication hole and opening or closing the water inlet channel at the same time, so that the saline water is controlled to enter the water inlet groove; the resin in the resin softening cavity absorbs calcium and magnesium ions in hard water, thereby achieving the effect of improving water quality.

Preferably, the breathing assembly comprises a shell, a water inlet, a flow calculation channel, a respirator, a flow limiting channel and a water outlet, wherein the water inlet, the flow calculation channel, the respirator, the flow limiting channel and the water outlet are all installed in the shell, the flow limiting channel is in a shape like a Chinese character '2', the water inlet is connected with one end of the respirator, the flow calculation channel is located in an inner cavity of the respirator, the other end of the respirator is connected with the water outlet through the flow limiting channel, and a flow limiting device in the breathing assembly can effectively control the amount of water entering the water softener.

Preferably, the shell is formed by hot plate welding, the volume of the shell can be greatly reduced by adopting the hot plate welding, and the sealing performance of the product is ensured while the space is saved.

Preferably, the upper end of the saline cavity is sealed through the end cover and the sealing cover, the saline cavity comprises an inlet chamber and a saline chamber, the inlet chamber is connected with the second water outlet, the inlet chamber is communicated with the saline chamber through the water inlet, the saline chamber is communicated with the water inlet groove through the communication hole, the end cover and the sealing ring can guarantee the air tightness of the saline cavity, and when needed, the end cover can be unscrewed to add edible salt into the saline cavity.

Preferably, the radial radius of the water inlet gradually increases along the direction of the brine chamber, so that when salt is added into the brine chamber, the salt can be more uniformly diffused, and the brine in the brine chamber can be fully dissolved.

Preferably, the upper end in resin softening chamber is equipped with and filters the piece, it is equipped with a plurality of filtration holes, a plurality of to filter the hole edge filter the even interval arrangement of circumference of piece, filter the piece and can prevent the resin loss in the resin softening chamber, guarantee the stability of resin composition, improve water softening efficiency.

Preferably, be equipped with the float subassembly of surveying the water level in the salt solution intracavity, be equipped with the sensor of surveying the float subassembly on the water softener, when the indoor salt solution of salt solution was full, the float subassembly rose under the effect of buoyancy, and the sensor detects the float subassembly and rises the back control respiratory component and stops the water injection.

Preferably, a sealing ring is arranged at the joint of the electromagnetic valve and the water softener, so that water is prevented from overflowing, and the electromagnetic valve is protected.

A method of operating a water softening unit with controlled water volume, comprising the steps of:

the water inlet of the breathing assembly is communicated with the domestic water, the domestic water enters the respirator through the water inlet, the water passing amount is calculated through the flow calculation channel in the respirator, the constant water amount is distributed through the flow limiting channel, and the distributed domestic water flows to the water inlet groove of the water softener through the water outlet to complete the flow limiting process;

when the domestic water enters the water softener, the electromagnetic valve closes the communicating hole, the one-way valve is closed, the domestic water flows out from the first water outlet and enters the resin softening cavity through the water inlet channel for softening treatment, when the resin softening cavity is filled with water, the electromagnetic valve closes the water inlet channel, the water outlet continues to inject water into the water inlet groove, the water in the water inlet groove flows into the water inlet chamber through the second water outlet and enters the brine chamber through the water inlet to dilute the brine in the brine chamber; soft water treated by the resin softening cavity enters the water outlet groove, and the soft water is supplied to the dish washing machine for use through a soft water outlet on the soft water groove to finish the soft water process;

when the saline water chamber is full of saline water, the floater component rises under the action of buoyancy, the sensor controls the breathing component to stop injecting water after detecting that the floater component rises, residual living water in the resin softening cavity is treated and is discharged through the water outlet groove, and at the moment, the adsorption capacity of the resin in the resin softening cavity is reduced after a large amount of living water is treated; the solenoid valve is opened and is linked to the through-hole, and the check valve is opened, and the salt solution of the indoor high water level of salt solution passes through the check valve and flows into the intake chamber, and the salt solution of salt solution room bottom passes through the intercommunicating pore and flows into the intake chamber, and inhalant canal is opened to the solenoid valve, and salt solution is being softened the chamber through first delivery port inflow resin, utilizes salt solution to carry out regeneration treatment to the resin, resumes the adsorption capacity of resin, accomplishes regeneration treatment process.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

1. the utility model can control the water flow in the water softener by arranging the water paths of the first water outlet and the second water outlet in the water inlet tank;

2. the flow limiting device is arranged in the breathing component of the utility model, which can effectively solve the problem of large water yield of the split water softener and save energy;

3. the utility model discloses the shell of respirator is formed by the hot plate welding, and the sealing performance of product is guaranteed in the time of can greatly reduced shell, saving space.

Drawings

FIG. 1 is a schematic diagram of a water softener of the present invention with controllable water volume;

FIG. 2 is a side view of a water softener of the present invention with a controlled amount of water;

FIG. 3 is an assembly view of a water softener of the present invention with controllable water volume;

fig. 4 is a schematic structural view of the upper case of the present invention;

FIG. 5 is a schematic structural view of the middle shell of the present invention;

fig. 6 is a schematic structural view of the lower casing of the present invention;

wherein, 1 is a breathing component, 11 is a shell, 12 is a water inlet, 13 is a flow calculation channel, 14 is a respirator, 15 is a flow limiting channel, 16 is a water outlet, 2 is a water softener, 21 is a water inlet channel, 22 is a water inlet tank, 23 is a saline water cavity, 24 is a resin softening cavity, 25 is a water outlet tank, 26 is a one-way valve, 27 is a soft water outlet, 28 is a water inlet chamber, 29 is a saline water chamber, 3 is an electromagnetic valve, 31 is a sealing cover, 32 is a sealing ring, 33 is an end cover, 34 is a water inlet, 35 is a filtering piece, 4 is a floater component, 5 is a sensor, 6 is an upper shell, 7 is a middle shell, and 8 is a lower shell.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

As shown in FIGS. 1 to 6, a water softening device capable of controlling water amount comprises a breathing assembly 1 and a water softener 2, the water softener is formed by splicing an upper shell 6, a middle shell 7 and a lower shell 8, a resin softening cavity 24 and a water inlet channel 21 are arranged in the middle shell, the upper shell 6 and the middle shell 7 are spliced to form a water inlet groove 22 and a water outlet groove 25, the upper shell 6, the middle shell 7 and the lower shell 8 are spliced to form a saline cavity, the water outlet 16 of the respiratory component 1 is connected with a water softener 2, the water softener 2 comprises a water inlet channel 21, a water inlet groove 22, a saline water cavity 23, a resin softening cavity 24 and a water outlet groove 25, the water inlet groove 22 is connected with the water outlet 16 of the respiratory component 1, the first water outlet of the water inlet groove 22 is connected with the water inlet channel 21, the water inlet channel 21 is connected with the resin softening cavity 24, the resin softening cavity 24 is connected with the water outlet groove 25, and the water outlet groove 25 is provided with a soft water outlet 27; the second water outlet of the water inlet tank 22 is higher than the first water outlet, the second water outlet of the water inlet tank 22 is connected with the saline water cavity 23, the second water outlet is provided with a one-way valve 26, the saline water cavity 23 is positioned at one end of the resin softening cavity 24, a communication hole is formed between the saline water cavity 23 and the water inlet tank 22, the water softener 2 is provided with an electromagnetic valve 3 for controlling the communication hole, and water paths of the first water outlet and the second water outlet in the water inlet tank 22 are arranged to control water flow; the electromagnetic valve 3 is used for controlling the opening or closing of the communication hole and simultaneously opening or closing the water inlet channel so as to control the saline water to enter the water inlet groove; the resin in the resin softening cavity 24 absorbs calcium and magnesium ions in hard water, thereby achieving the effect of improving water quality.

The breathing assembly 1 comprises a shell 11, a water inlet 12, a flow calculation channel 13, a respirator 14, a flow limiting channel 15 and a water outlet 16, wherein the water inlet 12, the flow calculation channel 13, the respirator 14, the flow limiting channel 15 and the water outlet 16 are all installed in the shell, the flow limiting channel 15 is in a 2 shape, the water inlet 12 is connected with one end of the respirator 14, the flow calculation channel 13 is located in an inner cavity of the respirator 14, the other end of the respirator 14 is connected with the water outlet 16 through the flow limiting channel 15, and a flow limiting device in the breathing assembly 1 can effectively control the amount of water entering the water softener 2.

The shell 11 is formed by hot plate welding, and the volume of the shell 11 can be greatly reduced by adopting the hot plate welding, so that the product quality is ensured while the space is saved.

The upper end of the saline cavity 23 is sealed by an end cover 33 and a sealing cover 31, the saline cavity 23 comprises an inlet chamber 28 and a saline chamber 29, the inlet chamber 28 is connected with the second water outlet, the inlet chamber 28 is communicated with the saline chamber 29 through a water inlet 34, the saline chamber 29 is communicated with the inlet groove 22 through a communication hole, the end cover 33 and the sealing cover 31 can ensure the air tightness of the saline cavity 23, and the end cover 33 can be unscrewed to add saline into the saline cavity 23 when needed.

The radius of the inlet 34 is gradually increased along the direction of the brine chamber, so that the brine can be more uniformly diffused when the brine is added into the brine chamber 29.

The upper end in resin softening chamber 24 is equipped with and filters piece 35, it is equipped with a plurality of filtration holes, a plurality of to filter on the piece 35 the filtration hole is followed filter 35's the even interval arrangement of circumference, filter 35 and can prevent that resin in the resin softening chamber 24 from losing, guarantee resin composition's stability, improve water softening efficiency.

The intracavity of salt solution is equipped with the float subassembly 4 of surveying the water level, be equipped with the sensor 5 of surveying float subassembly on the water softener, when the indoor salt solution of salt solution was full, float subassembly 4 rose under the effect of buoyancy, and sensor 5 detects the control breathing subassembly after float subassembly rose and stops the water injection.

And a sealing ring 32 is arranged at the joint of the electromagnetic valve 3 and the water softener 2, so that water is prevented from overflowing, and the electromagnetic valve 3 is protected.

The 25 ends of the water outlet grooves are provided with air vents, and the air vents can reduce the fluctuation range of air pressure and prevent water seal damage.

A method of operating a water softening unit with controlled water volume, comprising the steps of:

the water inlet 12 of the breathing assembly 1 is communicated with the domestic water, the domestic water enters the respirator 14 through the water inlet 12, the water flow is calculated through the flow calculation channel 13 in the respirator 14, the constant water flow is distributed through the flow limiting channel 13, and the distributed domestic water flows to the water inlet groove 22 of the water softener through the water outlet 16 to complete the flow limiting process;

when the domestic water enters the water softener 2, the electromagnetic valve 3 closes the communication hole, the one-way valve 26 is closed, the domestic water flows out from the first water outlet and enters the resin softening cavity 24 through the water inlet channel 21 to be softened, when the resin softening cavity 24 is filled with water, the electromagnetic valve 3 closes the water inlet channel 21, the water outlet 16 continues to inject water into the water inlet groove 22, the water in the water inlet groove 22 flows into the water inlet chamber 28 through the second water outlet and enters the brine chamber 29 through the water inlet 34 to dilute the brine in the brine chamber 29; the soft water treated by the resin softening cavity 24 enters the water outlet groove 25, and the soft water is supplied to the dish washing machine for use through the soft water outlet 27 on the soft water groove 25, so that the soft water process is completed;

when the saline water chamber 29 is full of saline water, the float assembly 4 rises under the action of buoyancy, the sensor 5 controls the breathing assembly 1 to stop water injection after detecting that the float assembly 4 rises, residual living water in the resin softening cavity 24 is treated and is discharged through the water outlet groove 25, and at the moment, the adsorption capacity of resin in the resin softening cavity 24 is reduced after a large amount of living water is treated; the solenoid valve 3 opens the through-connection hole, and check valve 26 opens, and the salt solution of high water level passes through check valve 26 and flows into the intake chamber in the salt water chamber 29, and the salt solution of salt water chamber 29 bottom passes through the intercommunicating pore and flows into the intake chamber, and inlet channel is opened to solenoid valve 3, and salt solution is flowing into resin through first delivery port and is softening chamber 24, utilizes salt solution to carry out regeneration treatment to the resin, resumes the adsorption capacity of resin, accomplishes regeneration treatment process.

The above-mentioned specific implementation is the preferred embodiment of the present invention, can not be right the utility model discloses the limit, any other does not deviate from the technical scheme of the utility model and the change or other equivalent replacement modes of doing all contain within the scope of protection of the utility model.

Claims (9)

1. A hard water softening device capable of controlling water quantity is characterized by comprising a breathing assembly and a water softener, wherein the water softener is formed by splicing an upper shell, a middle shell and a lower shell, a resin softening cavity and a water inlet channel are arranged in the middle shell, the upper shell and the middle shell are spliced to form a water inlet groove and a water outlet groove, the upper shell, the middle shell and the lower shell are spliced to form a saline water cavity, the water inlet groove is connected with a water outlet of the breathing assembly, a first water outlet of the water inlet groove is connected with the water inlet channel, the water inlet channel is connected with the resin softening cavity, the resin softening cavity is connected with the water outlet groove, and a soft water outlet is formed in the water outlet groove; the second delivery port of intake chamber is higher than first delivery port, the second delivery port of intake chamber with the salt solution chamber is connected, the second delivery port is equipped with the check valve, the salt solution chamber is located the one end in resin softening chamber, be equipped with the intercommunicating pore between salt solution chamber and the intake chamber, the solenoid valve of control intercommunicating pore is installed to the passageway of intaking.

2. The water softening device capable of controlling the water amount according to claim 1, wherein the breathing assembly comprises a shell, a water inlet, a flow calculation channel, a respirator, a flow limiting channel and a water outlet, the water inlet, the flow calculation channel, the respirator, the flow limiting channel and the water outlet are all installed in the shell, the flow limiting channel is in a shape like a Chinese character '2', the water inlet is connected with one end of the respirator, the flow calculation channel is located in an inner cavity of the respirator, and the other end of the respirator is connected with the water outlet through the flow limiting channel.

3. The apparatus of claim 2, wherein the housing is hot plate welded.

4. The apparatus of claim 1, wherein the upper end of the brine chamber is sealed by an end cap and a sealing cap, the brine chamber comprises an inlet chamber connected to the second outlet, the inlet chamber is connected to the brine chamber through an inlet, and the brine chamber is connected to the inlet tank through a communication hole.

5. The apparatus of claim 4, wherein the radial radius of the water inlet is gradually increased along the direction of the brine chamber.

6. A water softening apparatus according to claim 1, wherein the resin softening chamber is provided at an upper end thereof with a filter member having a plurality of filter holes arranged at regular intervals in a circumferential direction of the filter member.

7. The apparatus of claim 1, wherein a float assembly for detecting a water level is provided in the brine chamber, and a sensor for detecting the float assembly is provided on the water softener.

8. The apparatus of claim 1, wherein a sealing ring is provided at the connection of the solenoid valve and the water softener.

9. The apparatus of claim 1, wherein the outlet trough is provided with a vent at an upper end thereof.