CN210367076U - Continuous soft water supply integrated machine - Google Patents

Abstract

The utility model discloses a continuous soft water supply integrated machine, which comprises a double-layer valve, an auxiliary tank connecting component, a main resin tank, an auxiliary resin tank, an ejector, a two-position four-way valve, an upper piston, a lower piston and a piston driving mechanism; the double-deck valve of main resin tank installation, vice jar adapting unit of vice resin tank installation, the double-deck valve passes through two-position cross valve and connects vice jar adapting unit, the double-deck valve contains upper and lower two-layer cavity, install the piston in the upper and lower two-layer cavity respectively, lower piston, remove and cooperate two-position cross valve realization double-deck valve through piston actuating mechanism drive piston, the inside rivers passageway of vice jar adapting unit switches, realize main resin tank, vice resin tank's alternative work, current single jar of unable continuous water supply has been solved to this soft water all-in-one, many jars of soft water processing system structure is complicated, area too big shortcoming.

Description

Continuous soft water supply integrated machine

Technical Field

The utility model relates to a soft water processing system, especially a continuous supply soft water all-in-one.

Background

At present, the integrated water softener in the market mainly supplies water for a single tank, the size of the integrated water softener is small, the integrated water softener is popular, and when the resin in the exchange tank fails, the water hardness reaches an upper limit value and then the resin in the resin tank is regenerated to produce soft water again.

The existing integrated water softener has the following defects: due to the single-tank water supply, the device cannot continuously supply softened water at the moment. For places such as sales, hotels and business places requiring 24-hour uninterrupted water supply, the single-tank integrated water softener on the market at present cannot meet the requirement of users on uninterrupted water softening. If the soft water system of multi-tank exchange is adopted, the multi-tank system is complex in mechanism, troublesome in control operation, high in price and large in size, and the site is limited and cannot meet the requirement.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a supply soft water all-in-one in succession to solve the unable continuous water supply of current single jar, the shortcoming that many jars of soft water processing system structure is complicated, area is too big.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the continuous soft water supply integrated machine comprises a double-layer valve, an auxiliary tank connecting part, a main resin tank, an auxiliary resin tank, an ejector, a two-position four-way valve, an upper piston, a lower piston and a piston driving mechanism;

softened resin is filled in the main resin tank and the auxiliary resin tank, central pipes are arranged at the tank openings of the main resin tank and the auxiliary resin tank, and the lower ends of the central pipes are inserted into the bottoms of the softened resin;

the double-layer valve is fixed at the tank opening of the main resin tank, the double-layer valve comprises an upper layer cavity and a lower layer cavity, the side wall of the upper layer cavity is sequentially provided with a salt absorption port and a drain outlet from left to right, the salt absorption port is communicated with the salt tank, the bottom of the upper layer cavity between the salt absorption port and the drain outlet is sequentially provided with a first water passing port, a second water passing port and a third water passing port from left to right, the top of the lower layer cavity is sequentially provided with a fourth water passing port, a fifth water passing port and a sixth water passing port from left to right, the fourth water passing port is connected with the first water passing port, the fifth water passing port is connected with the second water passing port, the sixth water passing port is connected with the third water passing port, the seventh water passing port and the eighth water passing port are sequentially arranged at the bottom of the lower layer cavity from left to right, the seventh water passing port is arranged between the fourth water passing port and the fifth water passing port, the eighth water passing port is arranged between, The water inlet, the water outlet I and the water outlet of the auxiliary tank are positioned between the water passing port IV and the water passing port VII, the water inlet and the water outlet of the auxiliary tank are positioned between the water passing port VII and the water passing port V, the water inlet is positioned under the water passing port V, the water inlet and the water outlet I of the auxiliary tank are connected with a first port of the two-position four-way valve, the water inlet and the water outlet II of the auxiliary tank are connected with a second port of the two-position four-way valve, the water passing port VII is connected with the upper end of a central pipe of the main resin tank, and;

the ejector is arranged in the double-layer valve, the double-layer valve is also provided with an internal flow channel I and an internal flow channel II, a saline water inlet of the ejector is communicated with the leftmost end of the upper-layer cavity, a water flow inlet of the ejector is communicated with a water passing port V through the internal flow channel I, the internal flow channel I is provided with a control valve, and an outlet of the ejector is communicated with a water passing port IV through the internal flow channel II;

the auxiliary tank connecting part is fixed at a tank opening of the auxiliary resin tank, the auxiliary tank connecting part comprises a first water inlet and outlet flow passage and a second water inlet and outlet flow passage, one end of the first water inlet and outlet flow passage is connected with the upper end of a central pipe of the auxiliary resin tank, the other end of the first water inlet and outlet flow passage is connected with a third port of the two-position four-way valve, one end of the second water inlet and outlet flow passage is connected with the tank opening of the auxiliary resin tank, and the other end of the second water inlet and outlet flow;

the upper cavity is provided with an upper sealing gasket, an upper piston is sleeved in the upper sealing gasket, the upper piston comprises a cylinder I, a cylinder II and a connecting rod I which are sequentially arranged from left to right, the circumference of the cylinder I is provided with a groove I, the circumference of the cylinder II is sequentially provided with a groove II and a groove III from left to right, the cylinder II is internally provided with a central flow passage I, the central flow passage I axially penetrates through the cylinder II, the lower cavity is provided with a lower sealing gasket, the lower piston is sleeved in the lower sealing gasket, the lower piston comprises a cylinder III and a connecting rod II which are sequentially arranged from left to right, the circumference of the cylinder III is sequentially provided with a groove IV, a groove V, a groove VI and a groove VII, the cylinder II is provided with a central flow passage II and a central flow passage III, one end of the central flow passage II is communicated with the left end face of the cylinder II, the other end of the central flow passage II is communicated with the groove V, the second connecting rod is provided with a radial flow passage;

and the right ends of the upper layer cavity and the lower layer cavity are provided with piston driving mechanisms, the piston driving mechanisms are connected with the connecting rod I and the connecting rod II, and the upper piston and the lower piston are driven to move left and right through the piston driving mechanisms.

Furthermore, the upper layer of sealing gasket is fixed with the inner wall of the upper layer cavity through the upper layer of support.

Furthermore, the lower sealing gasket is fixed with the inner wall of the lower cavity through the lower support.

Furthermore, the first column body, the second column body and the first connecting rod are connected through threads.

Furthermore, the third column body and the second connecting rod are connected through threads.

Further, the piston driving mechanism adopts a linear cylinder or a motor.

Furthermore, the piston driving mechanism and the two-position four-way valve are respectively connected with the control module.

Furthermore, the control module is in wireless connection with the remote controller through the wireless receiving module.

Has the advantages that: the utility model adopts a main resin tank and an auxiliary resin tank, the main resin tank is provided with a double-layer valve, the auxiliary resin tank is provided with an auxiliary tank connecting part, the double-layer valve is connected with the auxiliary tank connecting part through a two-position four-way valve, the double-layer valve comprises an upper layer cavity and a lower layer cavity, pistons are respectively arranged in the upper layer cavity and the lower layer cavity, the water flow channels inside the connecting parts of the double-layer valve and the auxiliary tank are switched by the movement of the piston matched with the two-position four-way valve, so that the alternative work of the main resin tank and the auxiliary resin tank is realized, can meet the supply requirement of continuous soft water in families and commercial places, and compared with the conventional integrated water softener, only by adding the auxiliary resin tank to match the double-layer valve and the auxiliary tank connecting part, the requirement of continuous water supply is realized under the condition that the volume of the all-in-one machine is not increased, the market blank of the all-in-one machine for continuously supplying soft water is filled, the assembly and use cost of the system can be reduced, and the economic benefit is remarkable.

Drawings

FIG. 1 is a schematic view of the continuous soft water supply integrated machine of the present invention;

FIG. 2 is a schematic diagram of a double layer valve structure;

FIG. 3 is a schematic view of a sub-tank connection member;

FIG. 4 is a schematic view of the upper piston structure;

FIG. 5 is a schematic view of the lower piston structure;

FIG. 6 is an assembly view of the double-layered valve, the upper piston, the lower piston, and the piston driving mechanism;

FIG. 7 is a water flow diagram of the main resin tank during operation and the auxiliary resin tank during water injection;

FIG. 8 is a water flow diagram showing the operation of the main resin tank and the closing of the auxiliary resin tank;

FIG. 9 is a water flow diagram when the main resin tank works and the auxiliary resin tank absorbs salt;

FIG. 10 is a water flow diagram of the main resin tank during operation and the auxiliary resin tank during backwashing;

FIG. 11 is a water flow diagram of the main resin tank during operation and the auxiliary resin tank during quick washing;

FIG. 12 is a water flow diagram of the operation of the auxiliary resin tank and the water injection of the main resin tank;

FIG. 13 is a water flow diagram showing the operation of the sub resin tank and the closing of the main resin tank;

FIG. 14 is a water flow diagram when the auxiliary resin tank works and the main resin tank absorbs salt;

FIG. 15 is a water flow diagram of the operation of the secondary resin tank and the backwashing of the primary resin tank;

FIG. 16 is a water flow diagram showing the operation of the sub-resin tank and the quick washing of the main resin tank.

In the figure: 1-a double layer valve; 1-1-upper cavity; 1-2-lower cavity; 1-3-salt absorption port; 1-4-a first water outlet; 1-5-water passing hole II; 1-6-water gap III; 1-7-a sewage draining outlet; 1-8-water passing port IV; 1-9-water passing port five; 1-10-water outlet six; 1-11-water gap seventh; 1-12-water outlet eighth; 1-13-a first water inlet and outlet of the auxiliary tank; 1-14-water outlet; 1-15-water inlet and outlet II of the auxiliary tank; 1-16-water inlet; 2-an auxiliary tank connection member; 2-1-a first water inlet and outlet flow passage; 2-2-water inlet and outlet flow channel II; 3-main resin tank; 4-secondary resin tank; 5-an ejector; 6-softening the resin; 7-a central tube; 8-upper layer sealing gasket; 9-upper piston; 9-1-column one; 9-2-column two; 9-3-connecting rod one; 9-4-groove one; 9-5-groove two; 9-6-groove III; 9-7-center flow channel I; 10-lower layer sealing gasket; 11-lower piston; 11-1-column three; 11-2-connecting rod two; 11-3-groove four; 11-4-groove five; 11-5-groove six; 11-6-groove seven; 11-7 central flow channel II; 11-8-center runner III; 11-9-radial flow path; 12-piston drive mechanism.

The specific implementation mode is as follows:

the present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1, the utility model discloses a continuous soft water supply all-in-one machine, including double-deck valve 1, vice jar adapting unit 2, main resin tank 3, vice resin tank 4, ejector 5, two-position cross valve (not shown in the figure), go up piston 9, lower piston 11, piston actuating mechanism 12.

The main resin tank 3 and the auxiliary resin tank 4 are filled with softened resin 6, the tank openings of the main resin tank 3 and the auxiliary resin tank 4 are provided with central pipes 7, and the lower ends of the central pipes 7 are inserted into the bottoms of the softened resin 6.

As shown in figures 1 and 2, a double-layer valve 1 is fixed at a tank opening of a main resin tank 3, the double-layer valve 1 comprises an upper-layer cavity 1-1 and a lower-layer cavity 1-2, a salt absorption opening 1-3 and a sewage discharge opening 1-7 are sequentially arranged on the side wall of the upper-layer cavity 1-1 from left to right, the salt absorption opening 1-3 is communicated with a salt tank, and a water passing opening 1-4, a water passing opening two 1-5 and a water passing opening three 1-6 are sequentially arranged at the bottom of the upper-layer cavity 1-1 between the salt absorption opening 1-3 and the sewage discharge opening 1-7 from left to right. The top of the lower cavity 1-2 is sequentially provided with a water outlet four 1-8, a water outlet five 1-9 and a water outlet six 1-10 from left to right, the water outlet four 1-8 is connected with a water outlet one 1-4, the water outlet five 1-9 is connected with a water outlet two 1-5, the water outlet six 1-10 is connected with a water outlet three 1-6, the bottom of the lower cavity 1-2 is sequentially provided with a water outlet seven 1-11 and a water outlet eight 1-12 from left to right, the water outlet seven 1-11 is positioned between the water outlet four 1-8 and the water outlet five 1-9, the water outlet eight 1-12 is positioned between the water outlet five 1-9 and the water outlet six 1-10, the side wall of the lower cavity 1-2 is sequentially provided with an auxiliary tank water inlet one 1-13, a water outlet 1-14, a water outlet 1-9, The auxiliary tank water inlet and outlet two 1-15 and the water inlet 1-16, the auxiliary tank water inlet and outlet one 1-13 and the water outlet 1-14 are positioned between the water passing port four 1-8 and the water passing port seven 1-11, the auxiliary tank water inlet and outlet two 1-15 are positioned between the water passing port seven 1-11 and the water passing port five 1-9, the water inlet 1-16 is positioned under the water passing port five 1-9, the auxiliary tank water inlet and outlet one 1-13 is connected with a first port of the two-position four-way valve, the auxiliary tank water inlet and outlet two 1-15 is connected with a second port of the two-position four-way valve, the water passing port seven 1-11 is connected with the upper end of the central tube 7 of the main resin tank 3, and the water passing port eight 1-12 is connected with the tank port.

The ejector 5 is arranged in the double-layer valve 1, the double-layer valve 1 is further provided with an internal flow channel I and an internal flow channel II (not shown in the figure), a saline water inlet of the ejector 5 is communicated with the leftmost end of the upper-layer cavity 1-1, a water flow inlet of the ejector 5 is communicated with the water passing port five 1-9 through the internal flow channel I, the internal flow channel I is provided with a control valve, and an outlet of the ejector 5 is communicated with the water passing port four 1-8 through the internal flow channel II.

As shown in fig. 1 and 3, the auxiliary tank connecting part 2 is fixed at the tank opening of the auxiliary resin tank 4, the auxiliary tank connecting part 2 comprises a first water inlet and outlet flow passage 2-1 and a second water inlet and outlet flow passage 2-2, one end of the first water inlet and outlet flow passage 2-1 is connected with the upper end of the central pipe of the auxiliary resin tank 4, the other end of the first water inlet and outlet flow passage 2-1 is connected with the third port of the two-position four-way valve, one end of the second water inlet and outlet flow passage 2-2 is connected with the tank opening of the auxiliary resin tank 4, and the other end of the second water inlet and outlet flow passage.

As shown in fig. 4 to 6, the upper chamber 1-1 is provided with an upper gasket 8, and the upper gasket 8 is fixed to the inner wall of the upper chamber 1-1 via an upper bracket. The upper piston 9 is sleeved in the upper-layer sealing gasket 8, the upper piston 9 comprises a first cylinder 9-1, a second cylinder 9-2 and a first connecting rod 9-3 which are sequentially arranged from left to right, and the first cylinder 9-1, the second cylinder 9-2 and the first connecting rod 9-3 are connected through threads. The first column body 9-1 is circumferentially provided with a first groove 9-4, the second column body 9-2 is circumferentially provided with a second groove 9-5 and a third groove 9-6 from left to right in sequence, the second column body 9-2 is internally provided with a first central flow passage 9-7, and the first central flow passage 9-7 axially penetrates through the second column body 9-2. The lower-layer cavity 1-2 is provided with a lower-layer sealing gasket 10, and the lower-layer sealing gasket 10 is fixed with the inner wall of the lower-layer cavity 1-2 through a lower-layer support. The lower piston 11 is sleeved in the lower sealing gasket 10, the lower piston 11 comprises a cylinder III 11-1 and a connecting rod II 11-2 which are sequentially arranged from left to right, and the cylinder III 11-1 and the connecting rod II 11-2 are connected through threads. The circumference of the cylinder III 11-1 is sequentially provided with a groove IV 11-3, a groove V11-4, a groove VI 11-5 and a groove VII 11-6 from left to right, the cylinder II 9-2 is provided with a central flow channel II 11-7 and a central flow channel III 11-8, one end of the central flow channel II 11-7 is communicated with the left end face of the cylinder II 9-2, the other end of the central flow channel II 11-7 is communicated with the groove V11-4, one end of the central flow channel III 11-8 is communicated with the groove VI 11-5, and the other end of the central flow channel III 11-8 is communicated with the right end face of the cylinder II 9-2. The second connecting rod 11-2 is provided with a radial runner 11-9.

The right ends of the upper layer cavity 1-1 and the lower layer cavity 1-2 are provided with a piston driving mechanism 12, and the piston driving mechanism 12 adopts a linear cylinder or a motor. The piston driving mechanism is connected with the first connecting rod 9-3 and the second connecting rod 11-2, and the upper piston 9 and the lower piston 11 are driven to move left and right by the piston driving mechanism 12.

Preferably, the piston driving mechanism and the two-position four-way valve are respectively connected with the control module. The control module is in wireless connection with the remote controller through the wireless receiving module.

The working process of the continuous soft water supply all-in-one machine comprises the following steps:

main resin tank working and auxiliary resin tank water injection

The upper piston 9 and the lower piston 11 are driven by the piston driving mechanism 12 to move to the positions shown in figure 7, the first port and the fourth port of the two-position four-way valve are communicated, the second port and the third port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

The first part of raw water enters the main resin tank 3 through the grooves seven 11-6 and the water passing ports eight 1-12 for softening, the softened water enters the lower-layer cavity 1-2 through the central pipe 7 and the water passing ports seven 1-11, and then is discharged through the grooves four 11-3 and the water outlet 11-4 for customers to use.

The second part of raw water enters an upper cavity 1-1 through a water passing port five 1-9 and a water passing port two 1-5, then flows back to the right end of a lower piston 11 of a lower cavity 1-2 through a groove two 9-5, a water passing port three 1-6 and a water passing port six 1-10, then enters an auxiliary resin tank 4 for softening through a central flow passage three 11-8, a groove six 11-5, an auxiliary tank water inlet/outlet two 1-15, a two-position four-way valve and a water inlet/outlet flow passage two 2-2, the softened water enters a lower cavity 1-2 through a central pipe 7, a water inlet/outlet flow passage one 2-1, a two-position four-way valve and an auxiliary tank water inlet/outlet one 1-13, then enters a salt tank through a water passing port four 1-8, a water passing port one 1-4, a groove one 9-4 and a salt absorption, and (5) injecting water into the salt tank.

Operation of main resin tank and closing of auxiliary resin tank

The upper piston 9 is driven by the piston driving mechanism 12 to move from the position shown in fig. 7 to the position shown in fig. 8, the position of the lower piston 11 is unchanged, the first port and the third port of the two-position four-way valve are communicated, the second port and the fourth port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

At this time, the first part of raw water is softened by the main resin tank 3 and is supplied to customers.

The second part of raw water enters an upper cavity 1-1 through a water passing port five 1-9 and a water passing port two 1-5, then enters an auxiliary resin tank 4 through a water passing port one 1-4, a water passing port four 1-8, an auxiliary tank water inlet and outlet port one 1-13, a two-position four-way valve and a water inlet and outlet flow passage one 2-1, then enters a lower cavity 1-2 through a water inlet and outlet flow passage two 2-2, a two-position four-way valve and an auxiliary tank water inlet and outlet port two 1-15, then enters an upper cavity 1-1 through a groove six 11-5, a central flow passage three 11-8, a water passing port six 1-10 and a water passing port three 1-6, the water flow is blocked by upper-layer sealing gaskets on two sides of the water passing port three 1-6, continuous water flow cannot be formed inside the auxiliary resin tank 4, and.

Main resin tank working and auxiliary resin tank salt absorption

The upper piston 9 is driven by the piston driving mechanism 12 to move from the position shown in fig. 8 to the position shown in fig. 9, the position of the lower piston 11 is unchanged, the first port and the third port of the two-position four-way valve are communicated, the second port and the fourth port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

At this time, the first part of raw water is softened by the main resin tank 3 and is supplied to customers.

The second part of raw water enters the upper cavity 1-1 through the fifth water outlet 1-9 and the second water outlet 1-5, the water flow is blocked by upper sealing gaskets at two sides of the second water outlet 1-5, at the moment, a control valve of an internal flow channel is opened, the raw water enters a water flow inlet of the ejector through the first internal flow channel, the saline in the salt box is sucked into the upper cavity 1-1 through a salt suction port 1-3 by the siphoning action of the ejector, then enters a saline inlet of the ejector 5 through the first groove 9-4 and the left end of the upper cavity 1-1, the saline and the raw water are mixed into a regeneration solution, the regeneration solution enters the auxiliary resin tank 4 through an outlet of the ejector 5, the second internal flow channel, the fourth water outlet 1-8, the first water inlet and outlet 1-13 of the auxiliary tank, the two-position four-way valve and the first water inlet and outlet flow channel 2-1, and regenerates the failed softened resin 6 in, the waste water generated during regeneration enters the lower-layer cavity 1-2 through the water inlet and outlet flow channel II 2-2, the two-position four-way valve and the auxiliary tank water inlet and outlet opening II 1-15, then enters the upper-layer cavity 1-1 through the groove VI 11-5, the central flow channel III 11-8, the water passing opening VI 1-10 and the water passing opening III 1-6, and then is discharged through the groove III 9-6 and the sewage outlet 1-7.

Working of main resin tank and backwashing of auxiliary resin tank

The upper piston 9 is driven by the piston driving mechanism 12 to move from the position shown in figure 9 to the position shown in figure 10, the position of the lower piston 11 is unchanged, the first port and the third port of the two-position four-way valve are communicated, the second port and the fourth port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

At this time, the first part of raw water is softened by the main resin tank 3 and is supplied to customers.

The second part of raw water enters the upper cavity 1-1 through the fifth water outlet 1-9 and the second water outlet 1-5, then enters the bottom of the softened resin 6 through the second groove 9-5, the first water outlet 1-4, the fourth water outlet 1-8, the first water inlet and outlet 1-13 of the auxiliary tank, the two-position four-way valve, the first water inlet and outlet flow passage 2-1 and the central pipe 7, the water flow passes through the softened resin 6 from bottom to top to remove impurities trapped in the softened resin 6, the waste water generated during washing enters the lower cavity 1-2 through the second water inlet and outlet flow passage 2-2, the two-position four-way valve and the second water inlet and outlet 1-15 of the auxiliary tank, then enters the upper cavity 1-1 through the sixth groove 11-5, the third central flow passage 11-8, the sixth water outlet 1-10 and the third water outlet 1-6, and then enters the upper cavity 1-, And discharging from a sewage outlet 1-7.

Working of main resin tank and quick washing of auxiliary resin tank

The upper piston 9 is driven by the piston driving mechanism 12 to move from the position shown in fig. 10 to the position shown in fig. 11, the position of the lower piston 11 is unchanged, the first port and the fourth port of the two-position four-way valve are communicated, the second port and the third port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

At this time, the first part of raw water is softened by the main resin tank 3 and is supplied to customers.

The second part of raw water enters the upper cavity 1-1 through the fifth water inlet 1-9 and the second water outlet 1-5, then enters the lower cavity 1-2 through the second groove 9-5, the third water inlet 1-6 and the sixth water outlet 1-10, then enters the auxiliary resin tank 4 through the third central runner 11-8, the sixth groove 11-5, the second auxiliary tank water inlet and outlet 1-15, the two-position four-way valve and the second water inlet and outlet 2-2, the water flow passes through the softened resin 6 from top to bottom to compact the softened resin 6 to prepare for subsequent softened water, then enters the lower cavity 1-2 through the first water inlet and outlet 2-1, the two-position four-way valve and the first auxiliary tank water inlet 1-13, then enters the upper cavity 1-1 through the fourth water inlet and outlet 1-8 and the first water outlet 1-4, and then enters the upper cavity 1-1 through the first central runner 9-7, And discharging the sewage from the groove III 9-6 and the sewage outlet 1-7.

Auxiliary resin tank working and main resin tank water injection

When the softened resin 6 of the main resin tank 3 fails, the upper piston 9 and the lower piston 11 are driven by the piston driving mechanism 12 to move to the positions shown in fig. 12, the first port and the third port of the two-position four-way valve are communicated, the second port and the fourth port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

The first part of raw water enters the auxiliary resin tank 4 for softening through the groove seven 11-6, the auxiliary tank water inlet and outlet two 1-15, the two-position four-way valve and the water inlet and outlet flow passage two, the softened water enters the lower-layer cavity 1-2 through the central pipe 7, the water inlet and outlet flow passage one 2-1, the two-position four-way valve and the auxiliary tank water inlet and outlet one 1-13, and then is discharged through the groove four 11-3 and the water outlet 11-4 for customers to use.

The second part of raw water enters an upper cavity 1-1 through a water passing port five 1-9 and a water passing port two 1-5, then enters a lower cavity 1-2 through a groove two 9-5, a water passing port three 1-6 and a water passing port six 1-10, then enters a main resin tank 3 through a radial flow channel 11-9 and a water passing port eight 1-12 for softening, the softened water enters a lower cavity 1-2 through a central pipe 7 and a water passing port seven 1-11, then enters an upper cavity 1-1 through a groove five 11-4, a central flow channel two 11-7, a water passing port four 1-8 and a water passing port one 1-4, and then enters a salt tank through a groove one 9-4 and a salt absorbing port 1-3 to inject water into the salt tank.

Operation of the secondary resin tank and closure of the primary resin tank

The upper piston 9 is driven by the piston driving mechanism 12 to move from the position shown in figure 12 to the position shown in figure 13, the position of the lower piston 11 is unchanged, the first port and the third port of the two-position four-way valve are communicated, the second port and the fourth port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

At this time, the first part of raw water is softened by the sub-resin tank 4 and is supplied to customers.

The second part of raw water enters an upper cavity 1-1 through a water passing port five 1-9 and a water passing port two 1-5, then enters a main resin tank 3 through a water passing port one 1-4, a water passing port four 1-8, a central flow channel two 11-7, a groove five 11-4, a water passing port seven 1-11 and a central pipe 7, then enters a lower cavity 1-2 through a water passing port eight 1-12, and then enters an upper cavity 1-1 through a radial flow channel 11-9, a water passing port six 1-10 and a water passing port three 1-6, the water flow is blocked by upper sealing gaskets on two sides of the water passing port three 1-6, continuous water flow cannot be formed inside the main resin tank 3, and the main resin tank 3 does not work.

Auxiliary resin tank working and main resin tank salt absorption

The upper piston 9 is driven by the piston driving mechanism 12 to move from the position shown in fig. 13 to the position shown in fig. 14, the position of the lower piston 11 is unchanged, the first port and the third port of the two-position four-way valve are communicated, the second port and the fourth port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

At this time, the first part of raw water is softened by the sub-resin tank 4 and is supplied to customers.

The second part of raw water enters the upper cavity 1-1 through the fifth water outlet 1-9 and the second water outlet 1-5, the water flow is blocked by upper sealing gaskets at two sides of the third water outlet 1-6, at the moment, a control valve of an internal flow channel is opened, the raw water enters a water flow inlet of the ejector through the first internal flow channel, the saline in the salt box is sucked into the upper cavity 1-1 through a salt suction port 1-3 under the siphoning action of the ejector, then enters a saline inlet of the ejector 5 through the first groove 9-4 and the left end of the upper cavity 1-1, the saline and the raw water are mixed into a regeneration solution, the regeneration solution enters the main resin tank 3 through an outlet of the ejector 5, the second internal flow channel, the fourth water outlet 1-8, the second central flow channel 11-7, the fifth groove 11-4, the seventh water outlet 1-11 and the central pipe 7, and regenerates the failed softened resin 6 in the main resin tank 3, the waste water generated during regeneration enters the lower-layer cavity 1-2 through the water passing port eight 1-12, enters the upper-layer cavity 1-1 through the radial flow channel 11-9, the water passing port six 1-10 and the water passing port three 1-6, and is discharged through the groove three 9-6 and the sewage discharge port 1-7.

Working of auxiliary resin tank and backwashing of main resin tank

The upper piston 9 is driven by the piston driving mechanism 12 to move from the position shown in fig. 14 to the position shown in fig. 15, the position of the lower piston 11 is unchanged, the first port and the third port of the two-position four-way valve are communicated, the second port and the fourth port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

At this time, the first part of raw water is softened by the sub-resin tank 4 and is supplied to customers.

The second part of raw water enters the upper cavity 1-1 through the water inlet five 1-9 and the water outlet two 1-5, then enters the lower cavity 1-2 through the groove two 9-5, the water outlet one 1-4 and the water outlet four 1-8, then enters the bottom of the softened resin 6 of the main resin tank 3 through the central flow channel two 11-7, the groove five 11-4, the water inlet seven 1-11 and the central pipe 7, the water flow passes through the softened resin 6 from bottom to top to remove impurities trapped in the softened resin 6, the waste water generated during flushing enters the lower cavity 1-2 through the water inlet eight 1-12, then enters the upper cavity 1-1 through the radial flow channel 11-9 and the water outlet six 1-10, and then is discharged through the groove three 9-6 and the sewage discharge outlet 1-7.

Auxiliary resin tank working and main resin tank quick washing

The upper piston 9 is driven by the piston driving mechanism 12 to move from the position shown in fig. 15 to the position shown in fig. 16, the position of the lower piston 11 is unchanged, the first port and the third port of the two-position four-way valve are communicated, the second port and the fourth port are communicated, and raw water enters the lower-layer cavity 1-2 through the 1-16-water inlet and then is divided into two parts.

At this time, the first part of raw water is softened by the sub-resin tank 4 and is supplied to customers.

The second part of raw water enters the upper cavity 1-1 through the water inlet five 1-9 and the water outlet two 1-5, then enters the lower cavity 1-2 through the groove two 9-5, the water inlet three 1-6 and the water outlet six 1-10, then enters the main resin tank 3 through the radial runner 11-9 and the water outlet eight 1-12, the water flow passes through the softened resin 6 from top to bottom, the softened resin 6 is compacted to prepare for subsequent softened water, then the water flow enters the lower-layer cavity 1-2 through the central pipe 7 and the water outlets seven 1-11, enters the upper-layer cavity 1-1 through the grooves five 11-4, the central flow channel two 11-7, the water outlets four 1-8 and the water outlets one 1-4, and is discharged through the central flow channel one 9-7, the grooves three 9-6 and the sewage outlets 1-7.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. Continuous supply soft water all-in-one, its characterized in that: the device comprises a double-layer valve (1), an auxiliary tank connecting part (2), a main resin tank (3), an auxiliary resin tank (4), an ejector (5), a two-position four-way valve, an upper piston (9), a lower piston (11) and a piston driving mechanism (12);

softened resin (6) is filled in the main resin tank (3) and the auxiliary resin tank (4), central pipes (7) are arranged at tank openings of the main resin tank (3) and the auxiliary resin tank (4), and the lower ends of the central pipes (7) are inserted into the bottoms of the softened resin (6);

the double-layer valve (1) is fixed at a tank opening of a main resin tank (3), the double-layer valve (1) comprises an upper-layer cavity (1-1) and a lower-layer cavity (1-2), the side wall of the upper-layer cavity (1-1) is sequentially provided with a salt absorption port (1-3) and a sewage discharge port (1-7) from left to right, the salt absorption port (1-3) is communicated with a salt tank, the bottom of the upper-layer cavity (1-1) between the salt absorption port (1-3) and the sewage discharge port (1-7) is sequentially provided with a first water passing port (1-4), a second water passing port (1-5) and a third water passing port (1-6) from left to right, the top of the lower-layer cavity (1-2) is sequentially provided with a fourth water passing port (1-8), a fifth water passing port (1-9) and a sixth water passing port (1-10), the fourth water passing port (1-8) is communicated with the, a water passing port V (1-9) is communicated with a water passing port II (1-5), a water passing port VI (1-10) is connected with a water passing port III (1-6), a water passing port VII (1-11) and a water passing port VIII (1-12) are sequentially arranged at the bottom of the lower cavity (1-2) from left to right, the water passing port VII (1-11) is positioned between the water passing port IV (1-8) and the water passing port V (1-9), the water passing port VIII (1-12) is positioned between the water passing port V (1-9) and the water passing port VI (1-10), an auxiliary tank water inlet/outlet I (1-13), a water outlet (1-14), an auxiliary tank water inlet/outlet II (1-15), a water inlet (1-16) and an auxiliary tank water inlet/outlet I (1-13) are sequentially arranged on the side wall of the lower cavity (1-2) from left, The water outlet (1-14) is positioned between the water passing port four (1-8) and the water passing port seven (1-11), the secondary tank water inlet and outlet two (1-15) is positioned between the water passing port seven (1-11) and the water passing port five (1-9), the water inlet (1-16) is positioned under the water passing port five (1-9), the secondary tank water inlet and outlet one (1-13) is connected with the first port of the two-position four-way valve, the secondary tank water inlet and outlet two (1-15) is connected with the second port of the two-position four-way valve, the water passing port seven (1-11) is connected with the upper end of the central tube (7) of the main resin tank (3), and the water passing port eight (1-12) is connected with the tank port of the main resin tank (3);

the ejector (5) is arranged in the double-layer valve (1), the double-layer valve (1) is also provided with an internal flow channel I and an internal flow channel II, a saline water inlet of the ejector (5) is communicated with the leftmost end of the upper-layer cavity (1-1), a water flow inlet of the ejector (5) is communicated with a water passing port V (1-9) through the internal flow channel I, the internal flow channel I is provided with a control valve, and an outlet of the ejector (5) is communicated with a water passing port IV (1-8) through the internal flow channel II;

the auxiliary tank connecting part (2) is fixed at a tank opening of the auxiliary resin tank (4), the auxiliary tank connecting part (2) comprises a water inlet and outlet flow passage I (2-1) and a water inlet and outlet flow passage II (2-2), one end of the water inlet and outlet flow passage I (2-1) is connected with the upper end of a central pipe of the auxiliary resin tank (4), the other end of the water inlet and outlet flow passage I (2-1) is connected with a third port of the two-position four-way valve, one end of the water inlet and outlet flow passage II (2-2) is connected with the tank opening of the auxiliary resin tank (4), and the other end of the water inlet and outlet flow passage II (2-2) is connected;

an upper layer sealing gasket (8) is arranged in an upper layer cavity (1-1), an upper piston (9) is sleeved in the upper layer sealing gasket (8), the upper piston (9) comprises a cylinder I (9-1), a cylinder II (9-2) and a connecting rod I (9-3) which are sequentially arranged from left to right, a groove I (9-4) is arranged on the circumference of the cylinder I (9-1), a groove II (9-5) and a groove III (9-6) are sequentially arranged on the circumference of the cylinder II (9-2) from left to right, a central flow channel I (9-7) is arranged in the cylinder II (9-2), the central flow channel I (9-7) axially penetrates through the cylinder II (9-2), a lower layer sealing gasket (10) is arranged in a lower layer cavity (1-2), a lower piston (11) is sleeved in the lower layer sealing gasket (10), and the lower piston (11) comprises a cylinder III (11-1) and a cylinder III (11-1, A groove IV (11-3), a groove V (11-4) and a groove VI (11-5) are sequentially arranged on the circumference of the column III (11-1) from left to right, a groove VII (11-6), a cylinder II (9-2) is provided with a central flow passage II (11-7) and a central flow passage III (11-8), one end of the central flow passage II (11-7) is communicated with the left end face of the cylinder II (9-2), the other end of the central flow passage II (11-7) is communicated with a groove V (11-4), one end of the central flow passage III (11-8) is communicated with a groove VI (11-5), the other end of the central flow passage III (11-8) is communicated with the right end face of the cylinder II (9-2), and a connecting rod II (11-2) is provided with a radial flow passage (11-9);

the right ends of the upper-layer cavity (1-1) and the lower-layer cavity (1-2) are provided with piston driving mechanisms, the piston driving mechanisms are connected with the connecting rods I (9-3) and the connecting rods II (11-2), and the upper piston (9) and the lower piston (11) are driven to move left and right through the piston driving mechanisms (12).

2. The integrated machine for continuously supplying soft water according to claim 1, wherein: the upper layer sealing gasket (8) is fixed with the inner wall of the upper layer cavity (1-1) through the upper layer bracket.

3. The integrated machine for continuously supplying soft water according to claim 1, wherein: the lower-layer sealing gasket (10) is fixed with the inner wall of the lower-layer cavity (1-2) through the lower-layer support.

4. The integrated machine for continuously supplying soft water according to claim 1, wherein: the first column body (9-1), the second column body (9-2) and the first connecting rod (9-3) are connected through threads.

5. The integrated machine for continuously supplying soft water according to claim 1, wherein: the column body III (11-1) and the connecting rod II (11-2) are connected through threads.

6. The integrated machine for continuously supplying soft water according to claim 1, wherein: the piston driving mechanism (12) adopts a linear cylinder or a motor.

7. The integrated machine for continuously supplying soft water according to claim 1, wherein: and the piston driving mechanism and the two-position four-way valve are respectively connected with the control module.

8. The integrated machine for continuously supplying soft water according to claim 7, wherein: the control module is in wireless connection with the remote controller through the wireless receiving module.

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