CN114737641A

CN114737641A - Water supply equipment for multiple pipelines

Info

Publication number: CN114737641A
Application number: CN202210202578.XA
Authority: CN
Inventors: 王婷婷
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-03
Filing date: 2022-03-03
Publication date: 2022-07-12

Abstract

The invention belongs to the technical field of water supply equipment, and particularly relates to water supply equipment for multiple pipelines. When a certain branch pipe is backwashed, the first valve corresponding to the branch pipe is closed firstly, then the three-way valve corresponding to the branch pipe is closed, at the moment, the water inlet end and the water outlet end of the branch pipe are closed, water in one or two adjacent branch pipes can still enter the branch pipe through the backflushing pipe and the flow dividing pipe, the water entering the backflushing pipe can backwash the filter plate, and the water entering the flow dividing pipe can supply a user end corresponding to the branch pipe, so that the backflushing operation of the filter plate is finished under the condition that the water supply of a user is not cut off.

Description

Water supply equipment for multiple pipelines

Technical Field

The invention belongs to the technical field of water supply equipment, and particularly relates to water supply equipment for multiple pipelines.

Background

The water supply equipment is a water supply device which is automatically started and stopped and outputs a certain flow and a certain lift in unit time. It can be divided into four categories of fire fighting, life, production and sewage treatment according to the application. In daily water supply, because there is impurity in the aquatic, can install filter equipment in some water supply equipment, but along with the increase of live time, filter equipment among the water supply equipment can take place to block up to influence filter equipment's filter effect, consequently can wash filter equipment after equipment operation a period.

The existing cleaning mode mostly adopts a back flushing method, the method is to introduce opposite water flows into water supply equipment so as to flush impurities on a filtering device, but in the mode, a water supply pipeline needs to be closed firstly during operation, water consumption of a user can be influenced at the moment, and in addition, additional back flushing pipelines, back flushing pumps and other equipment need to be provided during back flushing of the existing water supply equipment, so that the investment cost of the water supply equipment is increased.

Therefore, it is necessary to invent a water supply apparatus for multi-pipes to solve the above problems.

Disclosure of Invention

In view of the above problems, the present invention provides a water supply apparatus for multiple pipes to solve the problems set forth in the background art described above.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a water supply equipment for multi-channel, includes T shape house steward, the force (forcing) pump is installed at T shape house steward's top, be connected with a plurality of branch pipes on the T shape house steward, and the branch pipe corresponds the position install first valve, adjacent two on the T shape house steward be connected with recoil pipe and shunt tubes between the branch pipe, and divide the recoil pipe to be closer to T shape house steward than the shunt tubes, install the second valve on the shunt tubes, be equipped with adjusting device and filter equipment in the branch tube, and filter equipment is closer to T shape house steward than adjusting device.

Furthermore, adjusting device includes the tee bend ball valve, and the tee bend ball valve is relative with the back-flushing pipe position, the last rotation of tee bend ball valve has cup jointed first sealing washer, first sealing washer removes the branch pipe inner wall and links firmly, and first sealing washer runs through with the back-flushing pipe relative position and has seted up the back-punching hole, the first pivot of bottom fixedly connected with of tee bend ball valve, first pivot rotates in proper order and runs through the grafting in the bottom of first sealing washer and branch pipe, and the bottom fixedly connected with first gear of first pivot.

Furthermore, the filtering device comprises a spherical base, the top view of the spherical base is a three-quarter circle, the center of the sphere of the spherical base coincides with the center of the branch pipe, the top of the spherical base is vertically and fixedly connected with a filter plate, the top of the spherical base is provided with a spherical protective cover which is mutually perpendicular to the filter plate, the top view of the spherical protective cover is semicircular, the sphere of the spherical protective cover coincides with the center of the branch pipe, the diameter of the sphere where the spherical protective cover is located is the same as that of the sphere where the spherical base is located, the spherical base, the spherical protective cover and the filter plate are rotatably sleeved with a same second sealing ring, the second sealing ring is fixedly connected with the inner wall of the branch pipe, a sewage discharge pipe penetrates through and is inserted at the position where the gap of the spherical base is located, and the bottom end of the sewage discharge pipe penetrates and is inserted on the branch pipe, the bottom fixedly connected with second pivot of sphere base, the bottom of second pivot rotates in proper order and runs through the grafting in the bottom of second sealing washer and branch pipe, and the bottom fixedly connected with second gear of second pivot, second gear and first gear engagement.

Furthermore, a straight hole is formed in one side, away from the spherical protective cover, of the filter plate, a fixed shaft is rotatably inserted between the inner walls of the two sides of the straight hole in a penetrating and inserting manner, a plurality of impellers are fixedly connected to the surfaces, close to the two ends, of the fixed shaft, two magnetic disks are slidably sleeved on the part, located in the straight hole, of the fixed shaft, the magnetic disks are in a hollow design, a gap exists between the two magnetic disks, a plurality of groups of bristles are mounted on one side, away from each other, of the two magnetic disks, a supporting block is arranged at the gap between the two magnetic disks, the section of the supporting block is triangular, the supporting block is slidably inserted at the center of the spherical base, a first inclined plane lug is fixedly connected to the bottom of the supporting block, a U-shaped rod is arranged at the bottom of the supporting block, one end of the U-shaped rod is rotatably inserted at the bottom of the second rotating shaft in a penetrating and inserting manner, and a second inclined plane lug is fixedly connected to the end of the U-shaped rod, the inclined plane of second inclined plane lug is relative and parallel with the inclined plane of first inclined plane lug, and first inclined plane lug and second inclined plane lug are half of same pipe, be equipped with the spring between the one end that kicking block and U-shaped pole correspond, the both ends of spring rotate with kicking block and U-shaped pole respectively and are connected, the other end of U-shaped pole and the branch pipe outer wall fixed connection that corresponds.

Furthermore, a plurality of groups of bristles are annularly distributed on the magnetic disc, and each group of bristles is identical to the magnetic disc in the direction of the radius.

Furthermore, the notch of the spherical base is positioned on one side of the three-way ball valve, and the rotating angle between the notch and the sewage discharge pipe is ninety degrees.

Furthermore, the water inlet end of the T-shaped main pipe and the water outlet end of the branch pipe are both fixedly connected with flange connectors, and the flange connectors are coated with antirust paint.

Furthermore, the diameter of the shunt pipe is smaller than that of the recoil pipe, and the shunt pipe and the recoil pipe are made of stainless steel materials.

The invention has the technical effects and advantages that:

1. when a certain branch pipe is backwashed, the first valve corresponding to the branch pipe is closed firstly, then the three-way valve corresponding to the branch pipe is closed, at the moment, the water inlet end and the water outlet end of the branch pipe are both closed, water in one or two adjacent branch pipes can still enter the branch pipe through the backwash pipe and the flow dividing pipe, wherein the water entering the backwash pipe can backwash the filter plate, and the water entering the flow dividing pipe can supply a user end corresponding to the branch pipe, so that the backwashing operation of the filter plate is finished under the condition that the water supply of a user is not cut off;

2. according to the invention, the bristles are arranged in the filter plate, when water flow can impact the impeller when the water flow washes the filter plate, the impeller drives the magnetic disc to rotate through the fixed shaft, the bristles on the magnetic disc can brush the inner side of the filter plate along with the magnetic disc, so that impurities attached to the filter plate can be quickly separated from the filter plate, and the separated impurities can be discharged from the sewage discharge pipe into the branch pipe along with the impact of the water flow, thereby ensuring the filtering efficiency of the filter plate.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a schematic perspective view of an adjustment device according to the present invention;

FIG. 4 is a schematic perspective view of the filter assembly and U-shaped bar of the present invention;

FIG. 5 is a partial exploded view of FIG. 4 in accordance with the present invention;

FIG. 6 is a partial perspective sectional view of the adjustment device of the present invention;

FIG. 7 is an exploded view of the U-shaped bar, first beveled protrusion, second beveled protrusion, spring and brace of the present invention;

FIG. 8 is an exploded view of the magnetic disk, the stationary shaft and the bristles of the present invention;

FIG. 9 is a cross-sectional view of the principal plane of FIG. 4 in the present invention;

FIG. 10 is an enlarged view of the portion A of FIG. 9 according to the present invention.

In the figure: 1. a T-shaped main pipe; 2. a pressure pump; 3. a branch pipe; 4. a first valve; 5. back flushing the pipe; 6. a shunt tube; 7. a second valve; 8. an adjustment device; 81. a three-way ball valve; 82. a first seal ring; 83. performing reverse punching; 84. a first rotating shaft; 85. a first gear; 9. a filtration device; 91. a spherical base; 92. a filter plate; 93. a spherical surface protective cover; 94. a second seal ring; 95. a blow-off pipe; 96. a second rotating shaft; 97. a second gear; 10. a fixed shaft; 11. an impeller; 12. a magnetic disk; 13. brushing; 14. a support block; 15. a first bevel projection; 16. a U-shaped rod; 17. a second bevel projection; 18. a spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

The invention provides a multi-pipeline water supply device as shown in figures 1-10, which comprises a T-shaped main pipe 1, wherein a pressure pump 2 is arranged at the top of the T-shaped main pipe 1, a plurality of branch pipes 3 are connected on the T-shaped main pipe 1, a first valve 4 is arranged on the T-shaped main pipe 1 at the corresponding position of each branch pipe 3, a back flushing pipe 5 and a shunt pipe 6 are connected between every two adjacent branch pipes 3, the back flushing pipe 5 is closer to the T-shaped main pipe 1 than the shunt pipe 6, a second valve 7 is arranged on the shunt pipe 6, an adjusting device 8 and a filtering device 9 are arranged in each branch pipe 3, the filtering device 9 is closer to the T-shaped main pipe 1 than the adjusting device 8, the water inlet end of the T-shaped main pipe 1 and the water outlet end of each branch pipe 3 are fixedly connected with flange joints, the flange joints are coated with antirust paint, the diameter of the shunt pipes 6 is smaller than the diameter of the back flushing pipes 5, and the shunt pipe 6 and the recoil pipe 5 are made of stainless steel materials.

When the pressure water supply device is used, the water inlet end flange of the T-shaped main pipe 1 is connected with a water supply end, the water outlet end flange of the branch pipe 3 is connected with a pipeline of a user, and after the connection is finished, all valves are opened and the pressure pump 2 is started, so that the pressure water supply for the user is finished;

because the branch pipes 3 are internally provided with the filtering devices 9, the filtering devices 9 can filter the water in the branch pipes 3 in the water supply process, thereby achieving the purpose of purifying a water source, when water is supplied for a period of time, a plurality of impurities can be attached to the filtering devices 9, at the moment, the filtering devices 9 need to be backwashed, when a certain branch pipe 3 needs to be backwashed, the first valve 4 corresponding to the branch pipe 3 is firstly closed, then the adjusting device 8 corresponding to the branch pipe 3 is closed, at the moment, the water inlet end and the water outlet end of the branch pipe 3 are both closed, the water in one or two adjacent branch pipes 3 can still enter the branch pipe 3 through the backwash pipe 5 and the shunt pipe 6, wherein the water entering the backwash pipe 5 can backwash the filtering devices 9, thereby ensuring the filtering effect of the filtering devices 9, and the water entering the shunt pipe 6 can be supplied to user ends corresponding to the branch pipe 3, therefore, the backwashing operation of the filtering device 9 is finished under the condition that the water supply of a user is not cut off, the practicability of the water supply device is improved, the water supply efficiency is ensured, and in addition, compared with the existing water supply equipment, the water supply device does not need to be additionally provided with a backwashing pipe 5, a backwashing pump and other equipment, so that the input cost of the water supply equipment is saved;

when maintenance of the branch pipe 3 or closing of the water supply to the branch pipe 3 is required, it is only necessary to close the first valve 4 corresponding to the branch pipe 3 and the second valve 7 on the branch pipe 6 adjacent to the branch pipe 3 at the same time.

As shown in fig. 1-3, the adjusting device 8 includes a three-way ball valve 81, the three-way ball valve 81 is opposite to the position of the back flushing pipe 5, a first sealing ring 82 is rotatably sleeved on the three-way ball valve 81, the inner wall of the branch pipe 3 is fixedly connected to the first sealing ring 82, a back punching hole 83 is formed in the position, opposite to the back flushing pipe 5, of the first sealing ring 82 in a penetrating manner, a first rotating shaft 84 is fixedly connected to the bottom of the three-way ball valve 81, the first rotating shaft 84 is sequentially rotated to penetrate and be inserted into the bottoms of the first sealing ring 82 and the branch pipe 3, and a first gear 85 is fixedly connected to the bottom of the first rotating shaft 84.

When the filtering device 9 in a certain branch pipe 3 needs to be backwashed, the first valve 4 corresponding to the branch pipe 3 is closed first, then the corresponding three-way ball valve 81 is screwed and rotated ninety degrees, and as the three-way ball valve 81 is screwed, the three-way ball valve 81 gradually closes the water outlet end of the branch pipe 3 at this time, and at the same time, as the three-way ball valve 81 rotates, the first rotating shaft 84 at the bottom of the three-way ball valve 81 drives the filtering device 9 to rotate in the straight pipe through the first gear 85, so as to seal the water inlet end of the branch pipe 3, and the water in one or two branch pipes 3 adjacent to the branch pipe 3 can still flow into the branch pipe 3 through the backwash pipe 5 and the shunt pipe 6, wherein the water entering the backwash pipe 5 can backwash the filtering device 9, so as to ensure the filtering effect of the filtering device 9, and the water entering the shunt pipe 6 can supply the user end corresponding to the branch pipe 3, thereby ensuring that the back washing operation of the filtering device 9 is finished under the condition of not cutting off the water supply of the user, further improving the practicability of the invention and ensuring the water supply efficiency.

As shown in fig. 1-9, the filtering device 9 includes a spherical base 91, the top view of the spherical base 91 is a quarter of a circle, the center of the spherical base 91 coincides with the center of the branch pipe 3, a filter plate 92 is vertically and fixedly connected to the top of the spherical base 91, a spherical protective cover 93 is disposed on the top of the spherical base 91, the spherical protective cover 93 is perpendicular to the filter plate 92, the top view of the spherical protective cover 93 is a semicircle, the sphere of the spherical protective cover 93 coincides with the center of the branch pipe 3, the diameter of the sphere of the spherical protective cover 93 is the same as that of the sphere of the spherical base 91, the spherical protective cover 93 and the filter plate 92 are rotatably sleeved with a second sealing ring 94, the second sealing ring 94 is fixedly connected to the inner wall of the branch pipe 3, and a drain pipe 95 is inserted in the gap between the second sealing ring 94 and the spherical base 91, the bottom of blow off pipe 95 runs through the grafting on branch pipe 3, the bottom fixedly connected with second pivot 96 of spherical base 91, the bottom of second pivot 96 rotates in proper order and runs through the bottom of grafting at second sealing washer 94 and branch pipe 3, and the bottom fixedly connected with second gear 97 of second pivot 96, second gear 97 and the meshing of first gear 85, spherical base 91's breach is located tee bend ball valve 81 place one side, and the rotation angle between this breach and blow off pipe 95 is ninety degrees.

When the three-way ball valve 81 rotates, the first gear 85 at the bottom of the three-way ball valve 81 drives the second gear 97 of the spherical base 91 to rotate, so that the spherical base 91 gradually rotates towards the direction of the three-way ball valve 81, in the process, the filter plate 92 is gradually perpendicular to the three-way ball valve 81, the spherical shield 93 is driven by the spherical base 91 to cooperate with the spherical base 91 to gradually close the water inlet end of the branch pipe 3, meanwhile, the gap of the spherical base 91 gradually moves towards the direction of the sewage pipe 95, when the water inlet end of the branch pipe 3 is completely closed, the gap part of the spherical base 91 just coincides with the sewage pipe 95, the filter plate 92 also just is perpendicular to the three-way ball valve 81, at the moment, water in the adjacent branch pipe 3 is flushed on the filter plate 92 through the backwashing pipe 5, so that the filter plate 92 completes the cleaning operation under the flushing of water flow, and the flushed impurities can be discharged from the sewage pipe 95 along with the water flow, thereby ensuring the filtering efficiency of the filter plate 92.

As shown in fig. 4-10, a straight hole is opened on one side of the filter plate 92 away from the spherical protective cover 93, a fixed shaft 10 is rotatably inserted between the inner walls of the two sides of the straight hole, a plurality of impellers 11 are fixedly connected to the surfaces of the fixed shaft 10 near the two ends, two magnetic disks 12 are slidably sleeved on the part of the fixed shaft 10 located in the straight hole, the magnetic disks 12 are hollow, a gap exists between the two magnetic disks 12, a plurality of groups of bristles 13 are installed on the side of the two magnetic disks 12 away from each other, a supporting block 14 is arranged at the gap between the two magnetic disks 12, the section of the supporting block 14 is triangular, the supporting block 14 is slidably inserted at the center of the spherical base 91, a first inclined projection 15 is fixedly connected to the bottom of the supporting block 14, a U-shaped rod 16 is arranged at the bottom of the supporting block 14, one end of the U-shaped rod 16 is rotatably inserted at the bottom of the second rotating shaft 96, and the end fixedly connected with second inclined plane lug 17 of U-shaped pole 16, the inclined plane of second inclined plane lug 17 is relative and parallel with the inclined plane of first inclined plane lug 15, and first inclined plane lug 15 and second inclined plane lug 17 are half of the same pipe, be equipped with spring 18 between the one end that kicking block 14 and U-shaped pole 16 correspond, the both ends of spring 18 rotate with kicking block 14 and U-shaped pole 16 respectively and are connected, the other end of U-shaped pole 16 and the 3 outer walls fixed connection of branch pipe that correspond, multiunit brush hair 13 annular distribution are on magnetic disc 12, and every group brush hair 13 all is the same with magnetic disc 12 radius place direction.

In the process of backwashing the filter plate 92, as the three-way ball valve 81 is screwed, the first gear 85 is driven by the first rotating shaft 84 to drive the second gear 97 to rotate, and as the second gear 97 rotates, the spherical base 91 is driven by the second rotating shaft 96 to drive the filter plate 92 to rotate, in the process, the open end of the straight hole is gradually opposite to the three-way ball valve 81, the spherical shield 93 is matched with the spherical base 91 to gradually seal the water inlet end of the branch pipe 3, and simultaneously, as the spherical base 91 rotates, the supporting block 14 is driven by the spherical base 91 to rotate together with the spherical base 91, and the first inclined projection 15 at the bottom of the supporting block 14 pushes the supporting block 14 to move upwards along the inclined surface part of the projection of the second inclined surface, and as the supporting block 14 moves upwards, the spring 18 is gradually stretched, and at this time, the supporting block 14 is gradually inserted into the gap between the two magnetic discs 12, therefore, the brush hairs 13 on the two magnetic disks 12 can be gradually attached to the filter plate 92, when the water inlet ends of the branch pipes 3 are completely sealed, the sewage discharge pipe 95 is opposite to the notch of the spherical base 91, water in one or two adjacent branch pipes 3 can enter the straight hole through the backflushing pipe 5, when water flow impacts on the impeller 11, the impeller 11 can drive the magnetic disks 12 to rotate under the action of the water flow, the brush hairs 13 on the magnetic disks 12 can brush the inner sides of the filter plate 92 along with the magnetic disks 12, so that impurities attached to the filter plate 92 can be quickly separated from the filter plate 92, and the separated impurities can be discharged out of the branch pipes 3 from the sewage discharge pipe 95 along with the impact of the water flow;

after the filter 92 finishes washing, close three-way ball valve 81, sphere base 91 also restores to the normal position gradually this moment, and in the in-process that sphere base 91 restores to the normal position, kicking block 14 can restore to the normal position gradually under the pulling of spring 18, after kicking block 14 is taken out from two magnetic disc 12 pieces, two magnetic disc 12 can get back to the intermediate position of fixed axle 10 under the effect of attraction each other, brush hair 13 no longer contacts with filter 92 this moment, thereby make filter 92 can not receive the blockking of brush hair 13 when normally filtering, the filtration efficiency of filter 92 has been guaranteed.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A water supply device for multiple pipes, comprising a T-shaped manifold (1), characterized in that: force (2) are installed at the top of T shape house steward (1), be connected with a plurality of branch pipes (3) on T shape house steward (1), and branch pipe (3) correspond the position install first valve (4) on T shape house steward (1), adjacent two be connected with recoil pipe (5) and shunt tubes (6) between branch pipe (3), and divide recoil pipe (5) to be closer to T shape house steward (1) than shunt tubes (6), install second valve (7) on shunt tubes (6), be equipped with adjusting device (8) and filter equipment (9) in branch pipe (3), and filter equipment (9) are closer to T shape house steward (1) than adjusting device (8).

2. A water supply apparatus for multiple pipes, as claimed in claim 1, wherein: adjusting device (8) include three-way ball valve (81), and three-way ball valve (81) are relative with recoil pipe (5) place position, it has cup jointed first sealing washer (82) to rotate on three-way ball valve (81), first sealing washer (82) remove branch pipe (3) inner wall and link firmly, and first sealing washer (82) run through with the position that recoil pipe (5) is relative and seted up anti-punching hole (83), the first pivot (84) of bottom fixedly connected with of three-way ball valve (81), first pivot (84) rotate in proper order and run through the bottom of pegging graft at first sealing washer (82) and branch pipe (3), and the bottom fixedly connected with first gear (85) of first pivot (84).

3. A water supply apparatus for multiple pipes, as claimed in claim 2, wherein: the filtering device (9) comprises a spherical base (91), the top view of the spherical base (91) is a quarter of a three-circle, the center of the sphere of the spherical base (91) coincides with the center of the branch pipe (3), the top of the spherical base (91) is vertically and fixedly connected with a filter plate (92), the top of the spherical base (91) is provided with a spherical protective cover (93), the spherical protective cover (93) is perpendicular to the filter plate (92), the top view of the spherical protective cover (93) is semicircular, the sphere of the spherical protective cover (93) coincides with the center of the branch pipe (3), the diameter of the sphere where the spherical protective cover (93) is located is the same as that of the sphere where the spherical base (91) is located, the spherical base (91), the spherical protective cover (93) and the filter plate (92) are rotatably sleeved with a same second sealing ring (94), and the second sealing ring (94) is fixedly connected with the inner wall of the branch pipe (3), second sealing washer (94) and spherical base (91) breach place run through the grafting and have blow off pipe (95), the bottom of blow off pipe (95) runs through the grafting on branch pipe (3), the bottom fixedly connected with second pivot (96) of spherical base (91), the bottom of second pivot (96) rotates in proper order and runs through the bottom of grafting at second sealing washer (94) and branch pipe (3), and the bottom fixedly connected with second gear (97) of second pivot (96), second gear (97) and first gear (85) meshing.

4. A water supply apparatus for multiple pipes according to claim 3, wherein: the spherical surface protection cover is characterized in that one side, far away from the spherical surface protection cover (93), of the filter plate (92) is provided with a straight hole, a fixing shaft (10) penetrates through and is inserted between inner walls of two sides of the straight hole in a rotating mode, the surface, close to two ends, of the fixing shaft (10) is fixedly connected with a plurality of impellers (11), two magnetic disks (12) are sleeved on the part, located in the straight hole, of the fixing shaft (10) in a sliding mode, the magnetic disks (12) are in a hollow design, a gap exists between the two magnetic disks (12), a plurality of groups of brush hairs (13) are installed on the two sides, away from each other, of the two magnetic disks (12), a supporting block (14) is arranged at the gap position of the two magnetic disks (12), the section of the supporting block (14) is triangular, the supporting block (14) is inserted in the center of the spherical surface base (91) in a sliding mode, a first inclined surface protruding block (15) is fixedly connected to the bottom of the supporting block (14), and a U-shaped rod (16) is arranged at the bottom of the supporting block (14), one end of the U-shaped rod (16) rotates to penetrate through the bottom of the second rotating shaft (96) in an inserted mode, the second inclined plane protruding block (17) is fixedly connected to the end of the U-shaped rod (16), the inclined plane of the second inclined plane protruding block (17) is opposite to and parallel to the inclined plane of the first inclined plane protruding block (15), the first inclined plane protruding block (15) and the second inclined plane protruding block (17) are half of the same round pipe, a spring (18) is arranged between the supporting block (14) and the end, corresponding to the U-shaped rod (16), of the spring (18), the two ends of the spring are respectively connected with the supporting block (14) and the U-shaped rod (16) in a rotating mode, and the other end of the U-shaped rod (16) is fixedly connected with the outer wall of the corresponding branch pipe (3).

5. A water supply apparatus for multiple pipes according to claim 4 wherein: the multiple groups of bristles (13) are annularly distributed on the magnetic disc (12), and the radius direction of each group of bristles (13) is the same as that of the magnetic disc (12).

6. A water supply apparatus for multiple pipes according to claim 4, wherein: the gap of the spherical base (91) is positioned at one side of the three-way ball valve (81), and the rotating angle between the gap and the sewage discharge pipe (95) is ninety degrees.

7. A water supply apparatus for multiple pipes according to claim 4, wherein: the water inlet end of the T-shaped main pipe (1) and the water outlet end of the branch pipe (3) are fixedly connected with flange connectors, and antirust paint is coated on the flange connectors.

8. A water supply apparatus for multiple pipes according to claim 1, wherein: the diameter of the shunt pipe (6) is smaller than that of the recoil pipe (5), and the shunt pipe (6) and the recoil pipe (5) are made of stainless steel materials.