CN109589665B

CN109589665B - Water circulation system of indoor waterscape pond

Info

Publication number: CN109589665B
Application number: CN201910095651.6A
Authority: CN
Inventors: 潘均
Original assignee: Shenzhen Sunson Design Co ltd
Current assignee: Shenzhen Sunson Design Co ltd
Priority date: 2019-01-31
Filing date: 2019-01-31
Publication date: 2021-01-05
Anticipated expiration: 2039-01-31
Also published as: CN109589665A

Abstract

The invention discloses a water circulation system of an indoor waterscape pool, which comprises a waterscape pool and a non-drinking-grade water using module, wherein the waterscape pool is provided with a water inlet, a water outlet and a circulation port; a water filtering component is arranged at the circulating port; a water inlet pump and a water inlet electromagnetic valve are arranged on a tap water pipe connected with the water inlet, and a water feeding pump and a water feeding valve are arranged on the circulating pipe; and the water inlet pump and the water inlet electromagnetic valve are simultaneously and electrically connected with the water supplementing water level sensor and the water cut-off water level sensor. The water in the waterscape pool can be supplied to the non-drinking-grade water using module by opening the water feeding valve, so that the water in the waterscape pool can be secondarily used, and meanwhile, the water source in the waterscape pool flows, and the waterscape pool is not easy to become stagnant water and stink.

Description

Water circulation system of indoor waterscape pond

Technical Field

The invention relates to the technical field of water saving, in particular to a water circulation system of an indoor waterscape pool.

Background

The garden waterscape refers to the general term of various waterscapes in the garden. It is an organic combination of garden landscape and water supply and drainage. Generally comprises various waterscape such as lakes, pools, ponds, streams, slopes, water channels, waterfalls, water curtains, water drops, water walls, fountains and the like.

At present, in many public places and some families, a waterscape pool is arranged to improve the aesthetic degree and the grade of buildings. However, the waterscape pool arranged indoors is arranged in a relatively closed space, and water in the waterscape pool is dead water, so that if the water in the waterscape pool is replaced frequently, the water in the waterscape pool is easy to smell.

And if the replacement is carried out for a long time, a large amount of waste of water resources is caused.

Disclosure of Invention

The invention aims to provide a water circulation system of an indoor waterscape pool, which achieves the effects that water in the waterscape pool is not easy to smell and a large amount of water resources are not wasted.

The technical purpose of the invention is realized by the following technical scheme:

a water circulation system of an indoor waterscape pool comprises a waterscape pool and a non-drinking-grade water using module, wherein the waterscape pool is provided with a water inlet, a water outlet and a circulation port, the water inlet of the waterscape pool is communicated with a tap water pipe, and the circulation port of the waterscape pool is communicated with the non-drinking-grade water using module through a circulation pipe; a water filtering component is arranged at the circulating port;

a water inlet pump and a water inlet electromagnetic valve are arranged on a tap water pipe connected with the water inlet, and a water feeding pump and a water feeding valve are arranged on the circulating pipe;

and the water inlet pump and the water inlet electromagnetic valve are simultaneously and electrically connected with the water supplementing water level sensor and the water cut-off water level sensor.

More preferably: the non-potable water module includes one or more of a toilet, a flowerpot, and a flower bed.

So set up, the water pipe is to the moisturizing in the waterscape pond, and when non-drinking level water module need water, open the water delivery valve and can supply the waterscape pond normal water for non-drinking level water module, when realizing carrying out the secondary use to waterscape pond normal water, and when waterscape pond normal water consumed to the certain extent, start the intake water pump when the water level was less than moisturizing level sensor and carry out the moisturizing, and when the water level did not cross the water cut-off level sensor, stop the moisturizing, thereby realized the flow of waterscape pond normal water source, make it be difficult for becoming the stagnant water and smelly. Wherein, the water supply valves of the flowerpot and the flower bed need to be independently arranged, and the water storage tank of the closestool only needs to be provided with a valve.

More preferably: the non-drinking water-level water using module is connected with a tap water pipe through a standby water pipe, a control valve which is connected with the water inlet electromagnetic valve in parallel is arranged on the standby water pipe, and a back washing electromagnetic valve is arranged on the circulating pipe close to the circulating port.

So set up, when the waterscape pond turned on the water or did not use, can supply water through the reserve water pipe, avoid the normal use of non-drinking level water module to receive the influence. Meanwhile, after the water filter is used for a period of time, the water filter assembly can be cleaned by starting the water inlet pump and simultaneously opening the backwashing electromagnetic valve and the control valve for backwashing, so that the water filter assembly is prevented from being blocked by stains after being used for a long time.

More preferably: the circulation port is arranged on the side wall of the waterscape pool and is spaced from the bottom of the waterscape pool.

So set up, can avoid the material such as earth, rubbish in the waterscape pond to block up the circulation mouth.

More preferably: and a low water level sensor is arranged at a position of the waterscape pool lower than the height of the circulating port, and is electrically connected with the control valve, the backwashing electromagnetic valve and the water supply pump, wherein the control valve and the backwashing electromagnetic valve are controlled by the low water level sensor to act, and the control valve and the backwashing electromagnetic valve are opposite in opening and closing states.

The water level is lower than the low water level sensor, which means that water cannot be supplied to the non-drinking water module from the circulating port, so that the low water level sensor automatically opens the control valve, and the backwashing electromagnetic valve is closed to supply water in the tap water pipe to the non-drinking water module.

More preferably: the water filtering component comprises a coarse filtering head and a filtering net, and the coarse filtering head is in a conical shape and extends out of the circulating port.

So set up, adopt multistage filtration, will some stains that cause the filter screen jam easily filter through the coarse filter head, and conical structure for difficult jam coarse filter head after filtering.

More preferably: the circulation port is arranged obliquely downwards.

By the arrangement, stains blocked by the coarse filter head can be easily separated from the coarse filter head, and blockage after long-term use is avoided.

More preferably: the filter screen is the cylinder tube-shape, and its open end is connected with the coarse filter head, be provided with one in the filter screen and be controlled by rivers pivoted clearance water wheels, be provided with the brush that is used for clearing up the filter screen lateral wall on the clearance water wheels.

So set up, set up a clearance water wheels in water filtering component, make it can drive clearance water wheels and rotate when rivers pass through water filtering component, clear up the filter screen through the brush in the clearance water wheels outside, further avoid the filter screen to take place to block up.

More preferably: the coarse filter head is provided with a double-thread screw rod, and the cleaning water wheel is in threaded connection with the double-thread screw rod and rotates along with the double-thread screw rod to slide in the double-thread screw rod in a reciprocating mode.

So set up, make clearance water wheels can do reciprocal sliding along two screw lead screws at the pivoted in-process to can be more omnidirectional clear up the filter screen.

In conclusion, the invention has the following beneficial effects:

1. the water in the waterscape pool is secondarily utilized, and meanwhile, the water in the waterscape pool is promoted to be consumed and supplemented circularly, so that the waterscape pool cannot smell after being used for a long time;

2. adopt unique clearance structure, clear up water filtering component, make it can have very long life, difficult emergence is blockked up.

Drawings

FIG. 1 is a schematic structural view of the present embodiment;

FIG. 2 is a first schematic structural view of the water filter assembly in the present embodiment;

fig. 3 is a schematic structural diagram of a water filter assembly in the present embodiment.

In the figure, 1, a waterscape pool; 11. a water inlet; 12. a water outlet; 13. a circulation port; 2. a drinking grade water module; 21. a toilet bowl; 22. flower bed; 3. a tap water pipe; 31. a water inlet pump; 32. a water inlet electromagnetic valve; 4. a circulation pipe; 41. a water feeding pump; 42. backwashing the electromagnetic valve; 43. a water delivery valve; 5. a spare water pipe; 51. a control valve; 61. a low water level sensor; 62. a water replenishing level sensor; 63. a water level sensor for water cut-off; 7. a water filtration assembly; 71. a coarse filter head; 711. a water inlet; 72. a filter screen; 8. cleaning the water wheel; 81. a brush; 9. double-thread screw rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

A water circulation system of an indoor waterscape pool is shown in figure 1 and comprises a waterscape pool 1 and a non-drinking water module 2, wherein the waterscape pool 1 is provided with a water inlet 11, a water outlet 12 and a circulation port 13, the water outlet 12 is arranged at the bottom of the waterscape pool 1, and the circulation port 13 is arranged on the side wall of the waterscape pool 1 and is spaced from the bottom of the waterscape pool 1.

The water inlet 11 of the waterscape pool 1 is communicated with the tap water pipe 3, and the tap water pipe 3 at the water inlet 11 is provided with a water inlet pump 31 and a water inlet electromagnetic valve 32.

The non-drinking water module 2 is composed of three toilets 21 and two flower beds 22 in the embodiment, wherein the circulation port 13 of the waterscape pool 1 is communicated with the non-drinking water module 2 through a circulation pipe 4, a water supply pump 41 and a back flush solenoid valve 42 are arranged on a main pipe of the circulation pipe 4, and the back flush solenoid valve 42 is a normally open valve. The branch pipes respectively connected with the closestool 21 and the flower bed 22 are respectively provided with a water supply valve 43, wherein the water supply valve 43 of the flower bed 22 needs to be independently arranged, and the closestool 21 can use a valve in the water storage tank.

The water outlet 12 of the waterscape pond 1 is communicated with a sewer.

Meanwhile, the non-drinking water module 2 is connected with the tap water pipe 3 through a standby water pipe 5, and a control valve 51 connected in parallel with the water inlet electromagnetic valve 32 is arranged on the standby water pipe 5.

Three sensors for detecting different water level heights are arranged in the waterscape pool 1, the detection heights from low to high are a low water level sensor 61, a water supplementing water level sensor 62 and a water cut-off water level sensor 63, the water supplementing water level sensor 62 and the water cut-off water level sensor 63 are electrically connected with the water supply pump 41 and the water supply valve 43, when the water level is lower than the water supplementing water level sensor 62, the water supply pump 41 is started, the water supply valve 43 is opened to supply tap water into the waterscape pool 1, and when the water level is lower than the water cut-off water level sensor 63, the water supply pump 41 and the water supply valve 43 are closed.

The low water level sensor 61 is electrically connected with the control valve 51, the back washing electromagnetic valve 42 and the water supply pump 41, and the control valve 51 and the back washing electromagnetic valve 42 are controlled by the on-off state of the low water level sensor 61 to be opposite, namely when the control valve 51 is opened, the back washing electromagnetic valve 42 is closed; when the control valve 51 is closed, the back flush solenoid valve 42 is opened. When the waterscape pond 1 is empty of water or the water level is lower than the low water level sensor 61 due to the water discharged from the water discharge port 12, the water supply pump 41 can be started, the control valve 51 is opened, the backwashing solenoid valve 42 is closed, and the tap water is directly supplied to the non-drinking-grade water module 2. When the water level is higher than the low water level sensor 61, the control valve 51 is closed, and the back flush solenoid valve 42 is opened.

The circulation port 13 is arranged obliquely downwards, a water filtering component 7 is arranged at the circulation port 13, as shown in fig. 2 and 3, the water filtering component 7 comprises a coarse filtering head 71 and a filtering net 72, the coarse filtering head 71 is arranged in a conical structure and extends out of the circulation port 13 (see fig. 1), and a plurality of linear water passing ports 711 are arranged on the coarse filtering head 71.

The filter 72 is in the form of a cylindrical tube having a diameter smaller than that of the circulation pipe 4, the filter 72 is a side wall portion of a cylindrical structure, the bottom portion thereof is closed, and the open end of the other end is connected to the preliminary filter head 71. A cleaning water wheel 8 controlled by water flow rotation is arranged in the filter screen 72, and a brush 81 for cleaning the side wall of the filter screen 72 is arranged on the cleaning water wheel 8. The coarse filter head 71 is provided with a double-thread screw rod 9, and the cleaning water wheel 8 is in threaded connection with the double-thread screw rod 9 and rotates along with the double-thread screw rod 9 to slide in a reciprocating manner.

The working principle is as follows: when water exists in the waterscape pool 1, the non-drinking-grade water using module 2 needs to use the water to open the water feeding valve 43, and the water in the waterscape pool 1 can be fed into the non-drinking-grade water using module 2 through the water feeding pump 41. When the water quantity in the waterscape pool 1 is lower than the water replenishing water level sensor 62, the water inlet pump 31 is started, the water inlet electromagnetic valve 32 is opened, tap water is fed into the waterscape pool 1, and when the water quantity exceeds the water stopping water level sensor 63, the water inlet pump 31 is stopped, and the water inlet electromagnetic valve 32 is closed. Wherein, when rivers passed through water filter assembly 7, rivers can drive clearance water wheels 8 and rotate, and at its rotation in-process, can be on two screw lead screws 9 along its axial reciprocating sliding movement, and at this in-process, brush 81 can be brushed on filter screen 72 surface and clear up it.

When the water level in the waterscape pool 1 is lower than the low water level sensor 61 and the non-drinking-grade water module 2 needs water, the control valve 51 is opened, the back washing electromagnetic valve 42 is closed, and after the water feeding valve 43 is opened, the water feeding pump 41 is started to feed tap water into the non-drinking-grade water module 2.

When the water filter assembly 7 needs to be cleaned after being used for a certain time, the control valve 51 and the back flushing electromagnetic valve 42 are opened at the same time, the water inlet pump 31 is started, then the tap water enters the waterscape pond 1 from the circulating port 13, and the water filter assembly 7 is washed reversely.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the present invention.

Claims

1. A water circulation system of an indoor waterscape pool is characterized in that: the water-saving type landscape pool comprises a landscape pool (1) and a non-drinking-grade water module (2), wherein a water inlet (11), a water outlet (12) and a circulating port (13) are formed in the landscape pool (1), the water inlet (11) of the landscape pool (1) is communicated with a tap water pipe (3), and the circulating port (13) of the landscape pool (1) is communicated with the non-drinking-grade water module (2) through a circulating pipe (4); a water filtering component (7) is arranged at the circulating port (13);

a water inlet pump (31) and a water inlet electromagnetic valve (32) are arranged on the tap water pipe (3) connected with the water inlet (11), and a water delivery pump (41) and a water delivery valve (43) are arranged on the circulating pipe (4);

a water replenishing water level sensor (62) and a water cut-off water level sensor (63) are arranged in the waterscape pool (1), and the water inlet pump (31) and the water inlet electromagnetic valve (32) are both electrically connected with the water replenishing water level sensor (62) and the water cut-off water level sensor (63) at the same time;

the water filtering component (7) comprises a coarse filtering head (71) and a filtering net (72), wherein the coarse filtering head (71) extends out of the circulating port (13) in a conical shape;

the circulating port (13) is obliquely arranged downwards;

the filter screen (72) is cylindrical, the opening end of the filter screen is connected with the rough filtering head (71), a cleaning water wheel (8) controlled by water flow to rotate is arranged in the filter screen (72), and a brush (81) used for cleaning the side wall of the filter screen (72) is arranged on the cleaning water wheel (8);

a double-thread screw rod (9) is arranged on the coarse filter head (71), and the cleaning water wheel (8) is in threaded connection with the double-thread screw rod (9) and rotates along with the double-thread screw rod (9) to slide in the double-thread screw rod (9) in a reciprocating mode.

2. A water circulation system for an indoor waterscape pool (1) according to claim 1, wherein: the non-potable water module (2) includes one or more of a toilet (21), a flowerpot, a flower bed (22).

3. A water circulation system for an indoor waterscape pool (1) according to claim 1 or 2, wherein: the non-drinking-grade water module (2) is connected with the tap water pipe (3) through a standby water pipe (5), a control valve (51) which is arranged in parallel with the water inlet electromagnetic valve (32) is arranged on the standby water pipe (5), and a back-flushing electromagnetic valve (42) is arranged on the circulating pipe (4) close to the circulating port (13).

4. A water circulation system for an indoor waterscape pool (1) according to claim 3, wherein: the circulating port (13) is arranged on the side wall of the waterscape pool (1) and is spaced from the bottom of the waterscape pool (1).

5. A water circulation system for an indoor waterscape pool (1) according to claim 4, wherein: the waterscape pool (1) is provided with a low water level sensor (61) at a position lower than the height of the circulating port (13), the low water level sensor (61) is electrically connected with the control valve (51), the backwashing electromagnetic valve (42) and the water feeding pump (41), wherein the control valve (51) and the backwashing electromagnetic valve (42) are controlled by the low water level sensor (61) to act, and the control valve (51) and the backwashing electromagnetic valve (42) are opposite in opening and closing states.