CN211847258U - Soft water mechanism soft water structure - Google Patents

Abstract

The utility model provides a soft water structure of water softener system belongs to water purification technical field. It has solved the current soft water mechanism soft water structure work unstability scheduling problem. This soft water structure of water softener system, including the shell body and connect the purification tank on the shell body, the shell body is inside to be offered and to be used for introducing the inhalant canal of purification tank inside with water and be used for the drainage channel who draws forth the water in the purification tank, is provided with piston assembly between inhalant canal and the purification tank, and piston assembly transversely sets up in the shell body, and piston assembly's expansion end orientation inhalant canal, and the receiving port that purifies the tank sets up in the lateral part of activity subassembly. The utility model has the advantages of stable operation.

Description

Soft water mechanism soft water structure

Technical Field

The utility model belongs to the technical field of the water purification, a soft water structure of water softener system is related to.

Background

The other technology is a physical water softening method different from a chemical ion exchange method, and is characterized in that calcium and magnesium ions in water are packed into crystals by high-energy polymeric spheres to be present in the water, so that the calcium and magnesium ions are not scaled in the water, and the main technology is a nanocrystalline technology. Compared with tap water, the soft water has very obvious taste and hand feeling, the water softener is one of the most core products in the field of comfortable home furnishing, and the water softener is originally a pure manual device which has low cost, but can be washed only by manual operation, so that the operation is inconvenient, and the structure which can run fully automatically is developed.

The water softener theory of operation is very simple, from the chemical reaction's the angle of speaking is with calcium ion and magnesium ion of sodium ion replacement aquatic, thereby reach the purpose of soft quality of water, what pack in the water softener jar of present is the resin, transparent yellow tiny particle, the water softener is just by this resin go to adsorb the calcium magnesium ion in aquatic, present water softener is when using, the water inlet can be directly be connected with the resin jar body, water can be broken and continuous to enter into the resin jar internally, can cause like this that the water that initially enters into the resin jar internally can't be directly discharged from the inside of the resin jar body after obtaining the purification, need wait to discharge when water pressure is enough big, because work is unstable, influence the efficiency of play water.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide a soft water structure of water softener system of job stabilization.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a soft water structure of water softener system, includes the shell body and connects the purifying tank on the shell body, shell body inside offer and be used for introducing the inhalant canal of purifying tank inside with water and be used for the drainage channel who draws forth the water in the purifying tank, a serial communication port, inhalant canal and purifying tank between be provided with piston assembly, piston assembly transversely set up in the shell body, and piston assembly's expansion end orientation inhalant canal, the receiving port that purifies the jar sets up in the lateral part of activity subassembly.

In foretell soft water mechanism soft water structure, piston assembly including fix the piston seat on the shell body and set up the sealing piston in the piston seat, sealing contact between sealing piston's bottom portion and the piston seat, and be formed with the atmospheric pressure cavity between sealing piston and the piston seat, piston assembly is under being in unoperated state, and sealing piston's side surface supports and leans on the opening part at the purifying tank, does not communicate between inhalant canal and the purifying tank.

In foretell soft water mechanism soft water structure, sealing piston include the piston rod and set up on the piston rod along the water-sealing ring subassembly of piston rod axial distribution, the tail end of piston rod is provided with the seal structure that is used for forming the atmospheric pressure cavity with the piston seat.

In the above soft water structure of the soft water machine, the sealing structure comprises an upper sealing plate and a lower sealing plate, the diameter of the upper sealing plate is larger than that of the lower sealing plate, and a base sealing member in sealing contact with the inner wall of the piston seat is arranged between the upper sealing plate and the lower sealing plate.

In foretell soft water mechanism soft water structure, the bottom portion of piston rod have to the sunken die cavity of inboard, be provided with on the lateral wall of die cavity along circumference evenly distributed's deflector, every the deflector on be equipped with the lead angle.

In foretell soft water mechanism soft water structure, the water seal ring subassembly including set up be used for on the piston rod with piston seat seal contact's first water seal ring, second water seal ring and third water seal ring, first water seal ring set up in the head end portion of piston rod, second water seal ring and third water seal ring set gradually from first water seal ring one side towards tail end one side of piston rod, first water seal ring, second water seal ring and third water seal ring on all be provided with the water seal sealing washer.

In the above soft water structure of the soft water machine, the top end portion of the first water sealing ring is provided with the water guide, the water guide is arranged at the center of the first water sealing ring, and the water guide is in a cross-shaped cone shape.

In the soft water structure of foretell soft water mechanism, the piston seat include the base and with third water seal ring matched with third water seal platform and with second water seal ring matched with second water seal platform, third water seal platform lug connection in base, second water seal platform and third water seal platform between be connected with support piece.

In the above soft water structure of the soft water machine, the purification tank includes an outer tank body communicated with the water inlet channel and a water outlet pipe communicated with the water discharge channel, a lower end of the water outlet pipe extends to a bottom end of the outer tank body, and after the water enters the outer tank body from the water inlet channel and is purified, the water is introduced from a bottom end portion of the water outlet pipe and then is discharged from the water discharge channel.

In the above-mentioned soft water structure of soft water mechanism, the outlet pipe spare in be provided with the toper board that slows down the liquid velocity of flow, the small-bore one side of toper board is towards the bottom of outlet pipe spare.

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses a piston assembly transversely sets up in the shell body, and piston assembly's expansion end towards inhalant canal, and the receiving port of purifying tank sets up in the lateral part of movable assembly, and when water pressure in the inhalant canal reached piston assembly's critical pressure, piston assembly can remove the receiving port of opening the purifying tank for inside rivers can last entering into the purifying tank, keep hydraulic stability, and then guarantee the stability of work, improve water efficiency.

2. The utility model discloses a water seal ring subassembly includes first water seal ring, second water seal ring and third water seal ring, seals the stability of motion in order to improve piston assembly work through a plurality of water seal rings, prevents that water from entering into piston assembly's inside.

3. The utility model discloses a be equipped with the base sealing member between upper seal plate and the lower seal plate, and the diameter of upper seal plate is greater than the diameter of lower seal plate, owing to receive the quick impact of rivers, the piston rod base sealing member can exert reaction force to the upper seal plate when removing, and the diameter of upper seal plate is greater than the diameter of lower seal plate and makes the base sealing member when can smooth gliding, can further promote base sealing member connection stability.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is an overall cross-sectional view of the present invention.

Fig. 2 is a schematic view of the installation structure of the middle piston assembly of the present invention.

Fig. 3 is a schematic view of the overall structure of the piston assembly of the present invention.

Fig. 4 is a schematic view of a partial structure of the piston assembly of the present invention.

In the figure, 1, an outer shell; 2. a purification tank; 3. a water inlet channel; 4. a drainage channel; 5. A piston assembly; 6. a piston seat; 7. a sealing piston; 8. an air pressure chamber; 9. a piston rod; 10. a water seal ring assembly; 11. a sealing structure; 12. an upper sealing plate; 13. a lower sealing plate; 14. a base seal; 15. a cavity; 16. a guide plate; 17. guiding an angle; 18. a first water sealing ring; 19. a second water sealing ring; 20. a third water sealing ring; 21. a water guide; 22. A base; 23. a third water sealing platform; 24. a second water sealing table; 25. a support member; 26. an outer tank body; 27. a water outlet pipe; 28. a tapered plate; 29. and (5) sealing a water sealing ring.

Detailed Description

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

As shown in fig. 1, a soft water structure of water softener system, including shell body 1 and connect the purification tank 2 on shell body 1, shell body 1 is inside to be offered and to be used for introducing water into the inside inhalant canal 3 of purification tank 2 and be used for the drainage channel 4 of drawing water body in the purification tank 2, be provided with piston assembly 5 between inhalant canal 3 and the purification tank 2, piston assembly 5 transversely sets up in shell body 1, and piston assembly 5's expansion end is towards inhalant canal 3, the receiving port of purification tank 2 sets up in the lateral part of movable assembly.

In this embodiment, piston assembly 5 transversely sets up in shell body 1, and piston assembly 5's expansion end is towards inhalant canal 3, the receiving port of purifying tank 2 sets up in the lateral part of movable assembly, when water pressure in inhalant canal 3 reached piston assembly 5's critical pressure, piston assembly 5 can remove the receiving port of opening purifying tank 2, make rivers can last enter into inside purifying tank 2, keep hydraulic stability, and then guarantee job stability, improve water outlet efficiency

Piston assembly 5 is including fixing piston seat 6 on shell body 1 and setting up sealing piston 7 in piston seat 6, and sealing piston 7 can remove in piston seat 6, and sealing contact is formed with atmospheric pressure cavity 8 between sealing piston 7's bottom and the piston seat 6, is filled with gas in the atmospheric pressure cavity 8, and piston assembly 5 is under the unoperated state, and sealing piston 7's side surface supports and leans on the opening part of purifying tank 2, does not communicate between intake passage 3 and the purifying tank 2.

The sealing piston 7 comprises a piston rod 9, in order to improve the air tightness of the sealing piston 7, a water sealing ring assembly 10 is arranged on the piston rod 9, and a sealing structure 11 for forming an air pressure chamber 8 with the piston seat 6 is arranged at the tail end of the piston rod 9.

The sealing structure 11 comprises an upper sealing plate 12 and a lower sealing plate 13, the diameter of the upper sealing plate 12 is larger than that of the lower sealing plate 13, and a base sealing member 14 which is in sealing contact with the inner wall of the piston seat 6 is arranged between the upper sealing plate 12 and the lower sealing plate 13. The diameter of upper seal plate 12 is greater than the diameter of lower seal plate 13, because receive the quick impact of rivers, piston rod 9 base sealing member 14 can exert reaction force to upper seal plate 12 when moving, and the diameter of upper seal plate 12 is greater than the diameter of lower seal plate 13 and makes base sealing member 14 when can smooth slip, can further promote base sealing member 14 connection stability.

The bottom end of the piston rod 9 is provided with a cavity 15 which is concave towards the inner side, guide plates 16 which are evenly distributed along the circumferential direction are arranged on the side wall of the cavity 15, and each guide plate 16 is provided with a guide angle 17. During the resetting movement of the piston rod 9, the gas can be concentrated in the cavity 15 by the guide plate 16, so that the piston rod 9 can be reset with a faster response.

In this embodiment, as shown in fig. 2 and 3, the water sealing ring assembly 10 includes a first water sealing ring 18, a second water sealing ring 19 and a third water sealing ring 20 that are disposed on the piston rod 9 and are used for being in sealing contact with the piston seat 6, the first water sealing ring 18 is disposed at a head end portion of the piston rod 9, the second water sealing ring 19 and the third water sealing ring 20 are sequentially disposed from one side of the first water sealing ring 18 toward one side of a tail end of the piston rod 9, the first water sealing ring 18, the second water sealing ring 19 and the third water sealing ring 20 are all provided with a water sealing ring 29, the piston seat 6 includes a base 22, a third water sealing platform 23 matched with the third water sealing ring 20 and a second water sealing platform 24 matched with the second water sealing ring 19, the third water sealing platform 23 is directly connected to the base 22, and a support 25 is connected between the second water sealing platform 24 and the third water sealing platform 23.

The sealing movement is performed through a plurality of water sealing rings to improve the working stability of the piston assembly 5 and prevent water from entering the interior of the piston assembly 5.

Preferably, the water guide 21 is provided at the tip end of the first water seal ring 18, and the water guide 21 is provided at the center of the first water seal ring 18 and has a cross-tapered shape. When water flow acts on the first water sealing ring 18, the water flow can be dispersed on the surface of the first water sealing ring 18 through the water guide member 21, so that the stress is more uniform.

In this embodiment, the purification tank 2 includes an outer tank 26 communicated with the water inlet channel 3 and a water outlet pipe 27 communicated with the water discharge channel 4, the lower end of the water outlet pipe 27 extends to the bottom end of the outer tank 26, and after water enters the outer tank 26 from the water inlet channel 3 for purification, the water is introduced from the bottom end of the water outlet pipe 27 and then is discharged from the water discharge channel 4.

Be provided with the tapered plate 28 that slows down the liquid velocity of flow in the play water pipe 27, tapered plate small-bore one side is towards the bottom of play water pipe 27, and inside heavy-calibre one side towards the water softener, rivers were when upward movement, and the rivers rate is earlier through small-bore department, can reduce the velocity of flow of rivers, keeps rivers can stably flow into inside the water softener.

The utility model discloses a theory of operation does: be provided with piston assembly 5 between inhalant canal 3 and the purification jar 2, piston assembly 5 transversely sets up in shell body 1, when piston assembly 5 was under initial condition, first water sealing ring 18 can support and lean on between inhalant canal 3 and the purification jar 2, make inhalant canal 3 and purification jar 2 be in non-conducting state, after rivers continuously entered into inhalant canal 3, water pressure can constantly rise, when water pressure is greater than the atmospheric pressure of piston assembly 5 internal gas pressure chamber 8, piston rod 9 can move to the inboard, the side end face of first water sealing ring 18 can break away from the inner wall of shell body 1 this moment, second water sealing ring 19 can support and lean on second water sealing platform 24, third water sealing ring 20 is located third water sealing platform 23 and third water sealing platform 23 internal surface sealing contact, when there is not rivers to assault first water sealing ring 18, piston rod 9 can reset by oneself.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although terms such as the outer shell 1, the purification tank 2, the water inlet channel 3, the water discharge channel 4, the piston assembly 5, the piston seat 6, the sealing piston 7, the air pressure chamber 8, the piston rod 9, the water sealing ring assembly 10, the sealing structure 11, the upper sealing plate 12, the lower sealing plate 13, the base sealing member 14, the cavity 15, the guide plate 16, the guide angle 17, the first water sealing ring 18, the second water sealing ring 19, the third water sealing ring 20, the water guide member 21, the base 22, the third water sealing table 23, the second water sealing table 24, the support member 25, the outer tank 26, the water outlet pipe member 27, the tapered plate 28, the water sealing ring 29, etc. are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a soft water structure of water softener system, includes shell body (1) and connects purification tank (2) on shell body (1), shell body (1) inside offer be used for introducing into water purification tank (2) inside inhalant canal (3) and be used for purifying drainage passageway (4) that the internal water body of jar (2) was drawn forth, a serial communication port, inhalant canal (3) and purification tank (2) between be provided with piston assembly (5), piston assembly (5) transversely set up in shell body (1), and the expansion end of piston assembly (5) towards inhalant canal (3), the receiving opening of purification tank (2) sets up in the lateral part of piston assembly (5).

2. The water softener soft water structure of claim 1, wherein the piston assembly (5) comprises a piston seat (6) fixed on the outer shell (1) and a sealing piston (7) arranged in the piston seat (6), the bottom end of the sealing piston (7) is in sealing contact with the piston seat (6), an air pressure chamber (8) is formed between the sealing piston (7) and the piston seat (6), the piston assembly (5) is in a non-working state, the side surface of the sealing piston (7) is abutted against the opening of the purification tank (2), and the water inlet channel (3) is not communicated with the purification tank (2).

3. The water softening mechanism of claim 2, wherein the sealing piston (7) comprises a piston rod (9) and a water sealing ring assembly (10) arranged on the piston rod (9) and distributed along the axial direction of the piston rod (9), and the tail end of the piston rod (9) is provided with a sealing structure (11) for forming the air pressure chamber (8) with the piston seat (6).

4. The water softening structure of claim 3, wherein the sealing structure (11) comprises an upper sealing plate (12) and a lower sealing plate (13), the diameter of the upper sealing plate (12) is larger than that of the lower sealing plate (13), and a base sealing member (14) in sealing contact with the inner wall of the piston seat (6) is arranged between the upper sealing plate (12) and the lower sealing plate (13).

5. The water softener structure according to claim 3, wherein the bottom end of the piston rod (9) is provided with a cavity (15) which is concave towards the inner side, guide plates (16) which are uniformly distributed along the circumferential direction are arranged on the side wall of the cavity (15), and each guide plate (16) is provided with a guide angle (17).

6. The water softener soft water structure according to claim 3, wherein the water sealing ring assembly (10) comprises a first water sealing ring (18), a second water sealing ring (19) and a third water sealing ring (20) which are arranged on the piston rod (9) and are used for being in sealing contact with the piston seat (6), the first water sealing ring (18) is arranged at the head end part of the piston rod (9), the second water sealing ring (19) and the third water sealing ring (20) are sequentially arranged from one side of the first water sealing ring (18) to one side of the tail end of the piston rod (9), and the first water sealing ring (18), the second water sealing ring (19) and the third water sealing ring (20) are all provided with a water sealing ring (29).

7. The water softener soft structure according to claim 6, wherein the top end of the first water sealing ring (18) is provided with a water guide (21), the water guide (21) is arranged at the center of the first water sealing ring (18), and the water guide (21) is in a cross-tapered shape.

8. The water softener structure according to claim 6, wherein the piston seat (6) comprises a base (22) and a third water sealing platform (23) matched with the third water sealing ring (20) and a second water sealing platform (24) matched with the second water sealing ring (19), the third water sealing platform (23) is directly connected with the base (22), and a support member (25) is connected between the second water sealing platform (24) and the third water sealing platform (23).

9. The water softening structure of claim 1, wherein the purification tank (2) comprises an outer tank (26) communicated with the water inlet channel (3) and a water outlet pipe (27) communicated with the water discharge channel (4), the lower end of the water outlet pipe (27) extends to the bottom end of the outer tank (26), and after water enters the outer tank (26) from the water inlet channel (3) for purification, the water is introduced from the bottom end of the water outlet pipe (27) and then discharged from the water discharge channel (4).

10. The water softener structure according to claim 9, wherein a tapered plate (28) for slowing down the flow rate of the liquid is provided in the water outlet pipe (27), and the smaller diameter side of the tapered plate faces the bottom of the water outlet pipe (27).

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