CN112246472A - Pressurization management system for low-water-pressure shower head - Google Patents

Abstract

The invention discloses a low-water-pressure shower pressurization management system which comprises an auxiliary module, a driving module and an execution module. The auxiliary module is arranged, so that when a user takes a bath, the gravity of the auxiliary module can be used for conveying gas to the outside, a driving medium is provided for the device, the air kinetic energy can be converted into movable mechanical kinetic energy of the device through the execution module, so that power is provided for the device, the power provided by the execution module can be conveyed to the spiral column through the driving module, the spiral column rotates to extrude water flow in the water inlet pipe, and low-pressure water flow is conveyed to the shower head.

Description

Pressurization management system for low-water-pressure shower head

Technical Field

The invention relates to the technical field of shower equipment, in particular to a low-water-pressure shower pressurization management system.

Background

The unique life style shown by the shower head to us is a continuation of the functionality of the shower head. Shower heads with various water outlet modes are developed by a plurality of major brands, except that the most basic common water flow is used for simple and quick shower, the shower heads have different water flow and water quantity control for additional use functions, such as massage, hair washing and the like, so that each time of bathing is comfortable. In order to enable people to experience all different shower manners, a hand-held shower head and a shower tower series suitable for any moods and occasions appear on the market, and the products integrate the characteristics of reliability and durability and the design of Xintaishenning, and particularly highlight exquisite detailed care. But when the current shower head is used on a water pipe with lower water pressure, the function of the shower head during design cannot be completely shown.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a pressurization management system for a low-water-pressure shower head, which solves the problem that the function of the shower head in design cannot be completely shown when the existing shower head is used on a water pipe with lower water pressure.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a low water pressure gondola water faucet pressure boost management system, includes auxiliary module, drive module and execution module, auxiliary module include air cavity, running-board, extrusion post, homing spring, right side air supply pipe, right side gas head, right side non return spring spacing ring, right side non return spring, have side check ball, right side check ring, left side air supply pipe, left side check ring, left side gas head, left side non return spring spacing ring, left side non return spring and left side check ball, the upper surface sliding connection of air cavity has four extrusion posts to the equal fixedly connected with running-board in top of four extrusion posts, four equal fixedly connected with homing spring between the opposite face of running-board and air cavity.

The executing module comprises an executing support, an executing gear, a near-end rotating fan support, a near-end rotating fan, an executing gear ring, an intermediate transmission support, a far-end rotating fan, a rotating shaft, a pneumatic shell, a far-end rotating shaft support, an output gear, an intermediate driving gear, an intermediate gear support and an intermediate driven gear, wherein the pneumatic shell is fixedly connected to the back of the air cavity, one end, close to the air cavity, of the inner wall of the pneumatic shell is rotatably connected with the near-end rotating fan through the near-end rotating fan support, the side face of the near-end rotating fan is fixedly connected with the executing gear ring through a connecting shaft, the executing gear is connected to the inner side of the executing gear ring, the far-end rotating fan is fixedly connected to the side of the executing gear, and the far-end rotating fan and.

Drive module include inlet tube, top spiral post support, spiral post, bottom spiral post support, magnetic core, magnetic ring support, rotating gear ring, delivery pipe and gondola water faucet, the one end fixedly connected with inlet tube of air cavity is kept away from to the execution support, the inner wall of inlet tube is connected with the spiral post through top spiral post support and bottom spiral post support rotation, the below of spiral post is through connecting axle fixedly connected with magnetic core.

Preferably, the left side of air cavity fixed connection left side air supply pipe, the one end fixedly connected with left side air head that the air cavity was kept away from to left side air supply pipe, the right-hand member fixedly connected with left side check ring of left side air head inner wall, the side overlap joint of left side check ring has left side check ball, and left side check ball's side is provided with left side check spring spacing ring, fixedly connected with left side check spring between the opposite face of left side check spring spacing ring and left side check ball.

Preferably, the right side of air cavity fixedly connected with right side air supply pipe, the one end fixedly connected with right side air head of air cavity is kept away from to right side air supply pipe, the right-hand member fixedly connected with right side check ring of right side air head inner wall, the side overlap joint of right side check ring has the side check ball, the side that has the side check ball is provided with right side check spring spacing ring, fixedly connected with right side check spring between the opposite face of right side check spring spacing ring and the side check ball.

Preferably, one end of the rotating shaft, which is far away from the air cavity, is rotatably connected with the pneumatic shell through a far-end rotating shaft support, one end of the rotating shaft, which is far away from the air cavity, is fixedly connected with an output gear, and the output gear is rotatably connected with the pneumatic shell through an output gear support.

Preferably, the outer surface gear of the output gear is connected with a middle driven gear, a middle driving gear is fixedly connected to the side of the middle driven gear through a connecting shaft, a middle gear support is rotatably connected between the opposite surfaces of the middle driving gear and the middle driven gear, an execution support is fixedly connected to the top end of the middle gear support, and the execution support is fixedly connected with the middle of the back surface of the air cavity.

Preferably, a magnetic ring is arranged on the outer side of the magnetic core, the magnetic ring is rotatably connected with the outer surface of the water inlet pipe through a magnetic ring support, and a rotating gear ring is sleeved on the outer surface of the magnetic ring.

Preferably, the outer surface of the rotating gear ring is connected with the side gear of the intermediate driving gear.

Preferably, the top fixedly connected with flow pipe of inlet tube, the one end fixedly connected with gondola water faucet of inlet tube is kept away from to the flow pipe.

Compared with the prior art, the invention provides a low-water-pressure flower spraying pressurization management system, which has the following beneficial effects: the auxiliary module is arranged, so that when a user takes a bath, the gravity of the auxiliary module can be used for conveying gas to the outside, a driving medium is provided for the device, the air kinetic energy can be converted into movable mechanical kinetic energy of the device through the execution module, so that power is provided for the device, the power provided by the execution module can be conveyed to the spiral column through the driving module, the spiral column rotates to extrude water flow in the water inlet pipe, and low-pressure water flow is conveyed to the shower head.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

FIG. 2 is a schematic view of the left check spring retainer ring according to the present invention.

Fig. 3 is a schematic view of the structure of the return spring of the present invention.

FIG. 4 is a schematic view of the structure of the check spring retainer ring on the right side of the present invention.

FIG. 5 is a schematic view of the present invention.

Fig. 6 is a schematic structural diagram of a driving module according to the present invention.

FIG. 7 is a block diagram of an embodiment of the present invention.

Fig. 8 is an exploded view of the driving module structure of the present invention.

In the figure: 1-an auxiliary module; 101-an air cavity; 102-a foot pedal; 103-an extrusion column; 104-a homing spring; 105-right air feed pipe; 106-right gas head; 107-right check spring retainer ring; 108-right check spring; 109-side check ball; 110-right check ring; 111-left air feed pipe; 112-left check ring; 113-left air head; 114-left check spring retainer ring; 115-left check spring; 116-left check ball; 2-a drive module; 201-a water inlet pipe; 202-top helical column support; 203-a spiral column; 204-bottom helical column support; 205-a magnetic core; 206-a magnetic ring; 207-magnetic ring support; 208-a rotating gear ring; 209-water supply pipe; 210-a shower; 3-an execution module; 301-an execution support; 302-an execution gear; 303-proximal rotating fan support; 304-proximal rotating fan; 305 — an execution gear ring; 306-an intermediate drive mount; 307-a remote rotating fan; 308-a rotating shaft; 309-a pneumatic housing; 310-distal rotating shaft support; 311-output gear carrier; 312 — output gear; 313-an intermediate drive gear; 314-intermediate gear holder; 315 — intermediate driven gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8, the present invention provides a technical solution: a low-water-pressure shower pressurization management system comprises an auxiliary module 1, a driving module 2 and an execution module 3, wherein the auxiliary module 1 comprises an air cavity 101, a pedal plate 102, an extrusion column 103, a homing spring 104, a right air supply pipe 105, a right air head 106, a right check spring limiting ring 107, a right check spring 108, a side check ball 109, a right check ring 110, a left air supply pipe 111, a left check ring 112, a left air head 113, a left check spring limiting ring 114, a left check spring 115 and a left check ball 116, the upper surface of the air cavity 101 is slidably connected with the four extrusion columns 103, the top ends of the four extrusion columns 103 are fixedly connected with the pedal plate 102, the homing springs 104 are fixedly connected between the opposite surfaces of the four pedal plates 102 and the air cavity 101, the left side surface of the air cavity 101 is fixedly connected with the left air supply pipe 111, one end fixedly connected with left side air head 113 that left side blast pipe 111 kept away from air cavity 101, the right-hand member fixedly connected with left side check ring 112 of left side air head 113 inner wall, the side overlap joint of left side check ring 112 has left side check ball 116, the side of left side check ball 116 is provided with left side check spring spacing ring 114, fixedly connected with left side check spring 115 between the opposite face of left side check spring spacing ring 114 and left side check ball 116, the right side fixedly connected with right side blast pipe 105 of air cavity 101, the one end fixedly connected with right side blast head 106 that air cavity 101 was kept away from to right side blast pipe 105, the right end fixedly connected with right side check ring 110 of right side blast head 106 inner wall, the side overlap joint of right side check ring 110 has side check ball 109, the side that has side check ball 109 is provided with right side check spring spacing ring 107, right side check spring spacing ring 107 and have fixedly connected with right side check spring 108 between the opposite face of side check ball 109.

Fig. 7 is a structure diagram of an execution module of the present invention, wherein the execution module 3 includes an execution bracket 301, an execution gear 302, a proximal rotation fan bracket 303, a proximal rotation fan 304, an execution gear ring 305, a middle transmission bracket 306, a distal rotation fan 307, a rotation shaft 308, a pneumatic housing 309, a distal rotation shaft bracket 310, an output gear bracket 311, an output gear 312, a middle driving gear 313, a middle gear bracket 314, and a middle driven gear 315, the pneumatic housing 309 is fixedly connected to the back of the air cavity 101, one end of the inner wall of the pneumatic housing 309 close to the air cavity 101 is rotatably connected to the proximal rotation fan 304 through the proximal rotation fan bracket 303, the side of the proximal rotation fan 304 is fixedly connected to the execution gear ring 305 through a connection shaft, the inner side gear of the execution gear ring 305 is connected to the execution gear 302, the distal rotation fan 307 is fixedly connected to the side of the execution, the far-end rotating fan 307 and the executing gear 302 are rotatably connected with the pneumatic shell 309 through the middle transmission bracket 306, one end of the rotating shaft 308, far away from the air cavity 101, is rotatably connected with the pneumatic shell 309 through the far-end rotating shaft bracket 310, one end of the rotating shaft 308, far away from the air cavity 101, is fixedly connected with an output gear 312, the output gear 312 is rotatably connected with the pneumatic shell 309 through an output gear bracket 311, the outer surface of the output gear 312 is in gear connection with a middle driven gear 315, the side of the middle driven gear 315 is fixedly connected with a middle driving gear 313 through a connecting shaft, a middle gear bracket 314 is rotatably connected between opposite surfaces of the middle driving gear 313 and the middle driven gear 315, the top end of the middle gear bracket 314 is fixedly connected with the executing bracket 301.

As shown in fig. 6 and 8, which are the structure diagrams of the driving module of the present invention, the driving module 2 includes a water inlet pipe 201, a top spiral column support 202, a spiral column 203, a bottom spiral column support 204, a magnetic core 205, a magnetic ring 206, a magnetic ring support 207, a rotating gear ring 208, a water feeding pipe 209 and a shower head 210, one end of the executing support 301 far away from the air cavity 101 is fixedly connected with the water inlet pipe 201, the inner wall of the water inlet pipe 201 is rotatably connected with the spiral column 203 through the top spiral column support 202 and the bottom spiral column support 204, the lower part of the spiral column 203 is fixedly connected with the magnetic core 205 through a connecting shaft, the outer side of the magnetic core 205 is provided with the magnetic ring 206, the magnetic ring 206 is rotatably connected with the outer surface of the water inlet pipe 201 through the magnetic ring support 207, the outer surface of the magnetic ring 206 is sleeved with the rotating gear, one end of the water delivery pipe 209 far away from the water inlet pipe 201 is fixedly connected with a shower head 210.

When the water supply device is used, a user connects the end of the water inlet pipe 201 with a water pipe, the water valve is opened, when the water pressure is low, the user can step on the pedal plate 102, the pedal plate 102 drives the extrusion column 103 to move downwards, at this time, the pressure in the air cavity 101 is increased, a part of the air pressure is released through the left check ball 116, but most of the air pressure is conveyed to the near-end rotating fan 304, at this time, the air flow drives the near-end rotating fan 304 to rotate, the near-end rotating fan 304 rotates to drive the execution gear ring 305 to rotate, the execution gear ring 305 rotates to drive the execution gear 302 to rotate, the execution gear 302 rotates to drive the output gear 312 to rotate through the rotating shaft 308, at the same time, the air flow also drives the far-end rotating fan 307 to rotate, the far-end rotating fan 307 also drives the output gear 312 to rotate through the rotating shaft 308, the output gear, the rotation of the intermediate driven gear 315 drives the rotation of the intermediate driving gear 313, the rotation of the intermediate driving gear 313 drives the rotation of the rotating gear ring 208, the rotation of the rotating gear ring 208 drives the rotation of the magnetic ring 206, the rotation of the magnetic ring 206 drives the rotation of the magnetic core 205, the rotation of the magnetic core 205 drives the rotation of the spiral column 203, the rotation of the spiral column 203 extrudes the water flow inside the water inlet pipe 201, and thus the low-pressure water flow is sent to the shower head 210.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a low water pressure is gondola water faucet pressure boost management system, includes supplementary module (1), drive module (2) and execution module (3), its characterized in that: the auxiliary module (1) comprises an air cavity (101), foot pedals (102), extrusion columns (103), a homing spring (104), a right air supply pipe (105), a right air head (106), a right check spring limiting ring (107), a right check spring (108), a side check ball (109), a right check ring (110), a left air supply pipe (111), a left check ring (112), a left air head (113), a left check spring limiting ring (114), a left check spring (115) and a left check ball (116), wherein the upper surface of the air cavity (101) is connected with the four extrusion columns (103) in a sliding manner, the top ends of the four extrusion columns (103) are fixedly connected with the foot pedals (102), and the homing spring (104) is fixedly connected between the opposite surfaces of the four foot pedals (102) and the air cavity (101);

the executing module (3) comprises an executing support (301), an executing gear (302), a near-end rotating fan support (303), a near-end rotating fan (304), an executing gear ring (305), a middle transmission support (306), a far-end rotating fan (307), a rotating shaft (308), a pneumatic shell (309), a far-end rotating shaft support (310), an output gear support (311), an output gear (312), a middle driving gear (313), a middle gear support (314) and a middle driven gear (315), wherein the back of the air cavity (101) is fixedly connected with the pneumatic shell (309), one end of the inner wall of the pneumatic shell (309) close to the air cavity (101) is rotatably connected with the near-end rotating fan (304) through the near-end rotating fan support (303), the side surface of the near-end rotating fan (304) is fixedly connected with the executing gear ring (305) through a connecting shaft, and the inner side gear of the executing gear ring (305) is connected, a far-end rotating fan (307) is fixedly connected to the side of the executing gear (302) through a rotating shaft (308), and the far-end rotating fan (307) and the executing gear (302) are rotatably connected with a pneumatic shell (309) through a middle transmission bracket (306);

drive module (2) including inlet tube (201), top spiral post support (202), spiral post (203), bottom spiral post support (204), magnetic core (205), magnetic ring (206), magnetic ring support (207), rotating gear ring (208), delivery pipe (209) and gondola water faucet (210), one end fixedly connected with inlet tube (201) of air cavity (101) is kept away from in execution support (301), the inner wall of inlet tube (201) is rotated through top spiral post support (202) and bottom spiral post support (204) and is connected with spiral post (203), the below of spiral post (203) is through connecting axle fixedly connected with magnetic core (205).

2. A low water pressure sprinkler pressurization management system according to claim 1, characterized in that: the left side of air cavity (101) is fixed connection left side air feed pipe (111), the one end fixedly connected with left side air head (113) of air cavity (101) is kept away from to left side air feed pipe (111), the right-hand member fixedly connected with left side check ring (112) of left side air head (113) inner wall, the side overlap joint of left side check ring (112) has left side check ball (116), the side of left side check ball (116) is provided with left side check spring spacing ring (114), fixedly connected with left side check spring (115) between the opposite face of left side check spring spacing ring (114) and left side check ball (116).

3. A low water pressure sprinkler pressurization management system according to claim 1, characterized in that: the right side of air cavity (101) fixedly connected with right side air feed pipe (105), the one end fixedly connected with right side air head (106) of air cavity (101) is kept away from to right side air feed pipe (105), the right-hand member fixedly connected with right side check ring (110) of right side air head (106) inner wall, the side overlap joint of right side check ring (110) has side check ball (109), the side that has side check ball (109) is provided with right side check spring spacing ring (107), fixedly connected with right side check spring 108 between the opposite face of right side check spring spacing ring (107) and side check ball (109).

4. A low water pressure sprinkler pressurization management system according to claim 1, characterized in that: one end of the rotating shaft (308), which is far away from the air cavity (101), is rotatably connected with the pneumatic shell (309) through a far-end rotating shaft support (310), one end of the rotating shaft (308), which is far away from the air cavity (101), is fixedly connected with an output gear (312), and the output gear (312) is rotatably connected with the pneumatic shell (309) through an output gear support (311).

5. A low water pressure sprinkler pressurization management system according to claim 1, characterized in that: the outer surface gear of output gear (312) is connected with middle driven gear (315), and middle driving gear (313) is connected with through connecting axle fixedly in side of middle driven gear (315), rotates between the opposite face of middle driving gear (313) and middle driven gear (315) and is connected with middle gear support (314), and the top fixedly connected with of middle gear support (314) carries out support (301), carries out the middle part fixed connection at support (301) and air cavity (101) back.

6. A low water pressure sprinkler pressurization management system according to claim 1, characterized in that: the outer side of the magnetic core (205) is provided with a magnetic ring (206), the magnetic ring (206) is rotatably connected with the outer surface of the water inlet pipe (201) through a magnetic ring support (207), and the outer surface of the magnetic ring (206) is sleeved with a rotating gear ring (208).

7. A low water pressure sprinkler pressurization management system according to claim 1, characterized in that: the outer surface of the rotating gear ring (208) is connected with the side gear of the middle driving gear (313).

8. A low water pressure sprinkler pressurization management system according to claim 1, characterized in that: the top fixedly connected with delivery pipe (209) of inlet tube (201), one end fixedly connected with gondola water faucet (210) that inlet tube (201) were kept away from in delivery pipe (209).

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