CN212260169U - Indoor multi-surface ecological waterscape system - Google Patents

Abstract

The utility model discloses an ecological waterscape system of indoor multiaspect: the water treatment and water changing device comprises a cylinder body, a cylinder seat, a first cylinder cover, a water treatment and water changing system, an air charging system, a temperature control system, a bubble generation system, a decorating lamp system, a soil layer, a landscaping framework, a seat door, a water body, a second cylinder cover, a lighting system and the like, wherein auxiliary facilities such as an air inlet pipe, an water inlet pipe, a water outlet pipe, a soil layer and the like which are not used for landscaping are hidden, so that the appearance of the auxiliary facilities is not influenced; the appearance is polygonal, so that the appearance is more attractive and elegant; spectators can watch around the periphery of the waterscape system; the underwater lighting device and the landscaping framework are arranged, the landscaping is not limited by the water depth any more, the water landscape with any height can be manufactured, and multi-level landscaping, three-dimensional aerial landscaping and suspension landscaping can be performed; the underwater color lamp and the bubble generator are arranged to create another artistic atmosphere; the transparent panel is added to be as thick as the adjacent decorative plate, the end face of the decorative plate is internally arranged, and the appearance is more beautiful.

Description

Indoor multi-surface ecological waterscape system

Technical Field

The utility model relates to a waterscape technical field, concretely relates to ecological waterscape system of indoor multiaspect.

Background

At present, the method for making indoor waterscape is to make a rectangular glass jar, lay soil, sea stone, water plants and the like on the bottom of the jar, and add water into the jar and then put aquatic animals into the jar. In order to ensure the normal growth of animals and plants in water, the air-entrapping device is hung along the side wall of the glass cylinder; in order to keep the water clear, a water outlet pipe is hung along the side wall of the glass cylinder, and a water treatment device is externally connected. The air inlet pipe, the water outlet pipe and the like are exposed and not beautiful, the integral aesthetic feeling of the waterscape is influenced, the waterscape is very difficult to see once the waterscape is dirty, and the pleasure mood of audiences can be even damaged; the side surface of the soil layer is exposed and is not beautiful; in addition, the rectangular shape is somewhat rigid.

Because the light is attenuated in water, the underwater deeper aquatic weeds can not obtain enough illumination and can not grow normally, so that the height size of the existing waterscape cylinders adopting external illumination is smaller and is generally not more than 60-70 cm, and the application of the deepwater landscaping is restricted.

Therefore, it is a problem to be solved urgently to research and develop an indoor multi-surface ecological waterscape system which is not exposed by an air inlet pipe, a water outlet pipe, a soil layer and the like, is polygonal in shape, and can allow aquatic plants to normally grow in deeper water.

Disclosure of Invention

In view of the above, the present invention provides an indoor multi-surface ecological waterscape system, wherein the air inlet pipe, the water outlet pipe, the soil layer, etc. are not exposed, the water pipe, the air pipe, etc. cannot be seen, and only beautiful waterscape of the eye curtains of the audience is reflected; the shape is a polygon; the aquatic weeds can also obtain sufficient light to normally grow in deep water.

In order to achieve the above object, the present invention provides the following solutions:

the method comprises the following steps: the device comprises a cylinder body, a cylinder seat, a first cylinder cover, a water treatment and water changing system, an air entraining system, a soil layer, a seat door, an outer channel, a first inner channel, a second inner channel and a water body.

The cylinder body is composed of an outer pipe, an inner pipe, a multi-side plate, a baffle pipe, a face pipe, a rib plate and a partition plate. The polygonal plate is polygonal in shape, the number of the edges is k, and k is more than or equal to 3; the center of the polygonal plate is provided with a polygonal plate hole, and the shape is not limited; the outer pipe is in a polygonal pipe shape identical to the polygonal plate; the bottom surface of the outer pipe is matched with the shape of the multi-edge plate and is fixedly connected with the multi-edge plate in a sealing way; the inner tube is a tube shape with the radial size smaller than that of the outer tube, the radial size larger than that of the polygonal plate hole, the height equal to that of the outer tube, and the shape is not limited; the inner pipe and the outer pipe are arranged on the same side of the polygonal plate, and the bottom surface of the inner pipe is fixedly connected with the polygonal plate in a sealing manner; the shape of the baffle pipe is the same as that of the outer pipe; the radial size of the baffle pipe is smaller than that of the outer pipe and slightly larger than that of the inner pipe, the baffle pipe and the inner pipe are arranged on the same side of the polygonal plate, and the bottom surface of the baffle pipe is fixedly connected with the polygonal plate; preferably, the outer pipe, the inner pipe and the baffle pipe are spliced by k flat plates; the space in the inner tube and the polygonal plate hole form the outer channel; the number of the partition plates is 2, the space between the baffle pipe and the inner pipe is uniformly distributed and is respectively fixedly connected with the outer surface of the inner pipe, the inner surface of the baffle pipe and the upper surface of the multi-edge plate in a sealing way, and the space between the baffle pipe and the inner pipe is divided into a first inner channel and a second inner channel; the outer tube is made of transparent material; the periphery of the upper part of the baffle pipe is provided with an upper baffle hole, and the axis of the upper baffle hole is flush with the upper surface of the water body; and lower blocking holes are arranged on the periphery of the lower part of the blocking pipe, and the positions of the lower blocking holes are higher than the upper surface of the soil layer.

Furthermore, a rib plate is fixedly arranged between the top surface of the outer pipe and the top surface of the inner pipe; preferably, the number of the rib plates is k;

further, a pattern is provided on an outer surface of the baffle pipe of the cylinder body.

Further, the outer surface of the baffle pipe of the cylinder body is a mirror surface.

Furthermore, a surface pipe is arranged on the outer side of the outer pipe close to the cylinder body, and the shape of the surface pipe is the same as that of the outer pipe; preferably, the surface tube is formed by splicing k flat plates; the bottom surface of the surface pipe is not lower than the upper surface of the soil layer; the surface tube is made of transparent material.

The cylinder seat consists of a bottom plate, a seat plate and an outer column; the shapes of the bottom plate and the seat plate are the same as the shape of the cylinder body, the seat plate is arranged above the bottom plate, and the corresponding edges are aligned in parallel; outer columns are arranged at the polygonal corners between the bottom plate and the seat plate and are respectively fixedly connected with the bottom plate and the seat plate, and the number of the outer columns is k; a control area is formed between two adjacent outer columns, and the number of the control areas is k; the central part of the bottom plate is provided with a bottom plate hole, and the shape is not limited; the central part of the seat plate is provided with a seat plate hole, and the shape is not limited.

Further, a seat trim is circumferentially provided on the seat plate of the cylinder seat, an inner surface of the seat trim surrounds an outer surface of the outer tube of the cylinder body, and a top surface of the seat trim is below a bottom surface of the face tube of the cylinder body.

Furthermore, an inner column is arranged on the inner side of the outer column of the cylinder seat and is respectively fixedly connected with the bottom plate and the seat plate; preferably, the number of the inner columns of the cylinder base is k;

the cylinder body is placed on a seat plate of the cylinder seat.

The shape and the size of the first cylinder cover are the same as those of the baffle pipe of the cylinder body, and a first vacancy avoiding position is arranged on the first cylinder cover; the first cylinder cover is movably covered on the baffle pipe of the cylinder body.

The water treatment and water change system consists of a water treatment device, a first water inlet pipe, a first water inlet, a second water inlet, a water outlet pipe, a water outlet, a first three-way valve, a water supply pipe, a second three-way valve and a water discharge pipe, wherein the water treatment device is placed in any control area of the cylinder base; the first water inlet and the second water inlet are positioned in the first inner channel, and the water outlet is positioned in the second inner channel and is far away from the first water inlet; a first water inlet pipe bypasses the top surface of the inner pipe of the cylinder body from the first inner channel through a first clearance position of the first cylinder cover to enter the outer channel, then passes through a seat plate hole of the cylinder seat and is connected with a water processor through a first three-way valve; the water outlet pipe penetrates through a base plate hole of the cylinder base from a second three-way valve to enter the outer channel, and bypasses the top surface of the inner pipe of the cylinder body through a first clearance position of the first cylinder cover to enter the second inner channel to be connected with a water outlet; the water supply pipe penetrates through a bottom plate hole of the cylinder base and is connected with a water source; the drain pipe penetrates through a bottom plate hole of the cylinder base and is connected with the used water collecting device;

when water is treated, the first three-way valve is rotated to connect the water treatment device with the first water inlet pipe, and the second three-way valve is rotated to connect the water treatment device with the water outlet pipe; the water treatment device is started, and water in the first inner channel of the cylinder body enters the water treatment and water change system from the first water inlet and the second water inlet to be treated, and then flows into the second inner channel from the water outlet through the water outlet pipe; and water in the second inner channel flows into the waterscape through the upper blocking hole and the lower blocking hole on one side of the second inner channel on the blocking pipe, and flows into the first inner channel through the upper blocking hole and the lower blocking hole on one side of the first inner channel on the blocking pipe.

When water is changed, water is drained first and then supplied. During drainage, the first three-way valve is rotated to connect the water treatment device with the first water inlet pipe, and the second three-way valve is rotated to connect the water treatment device with the drain pipe; and (3) starting the water treatment device, and discharging the water in the first inner channel of the cylinder body through a first water inlet pipe, the water treatment device and a drain pipe. When water is supplied, the first three-way valve is rotated to connect the water treatment device with the water supply pipe, the second three-way valve is rotated to connect the water treatment device with the water outlet pipe, and water in the water source flows into the second inner channel of the cylinder body through the water supply pipe, the water treatment device and the water outlet pipe.

The gas filling system consists of a gas cylinder, a first gas outlet pipe and a thinning head; the gas cylinder is placed in any control area of the cylinder base, and the thinning head is positioned in the second inner channel and close to the bottom; and the first air outlet pipe penetrates through a seat plate hole of the cylinder seat to enter the outer channel, and bypasses the top surface of the inner pipe of the cylinder body through the first clearance position of the first cylinder cover to enter the second inner channel to be connected with the thinning head.

The seat doors are positioned in the control area of the cylinder seat, and the number of the seat doors is the same as that of the control area.

The temperature control system is composed of a temperature controller, a temperature sensor, a sensing line, a temperature regulator and a temperature regulating line; the temperature controller is arranged in any control area of the cylinder base; a temperature sensor is disposed in one of the first and second inner passages, and a thermostat is disposed in the other of the first and second inner passages. A sensing wire passes through a first clearance position of the first cylinder cover from one of the first inner channel and the second inner channel, bypasses the top surface of the inner tube of the cylinder body, enters the outer channel, passes through a seat plate hole of the cylinder seat and is communicated with the temperature controller; the temperature adjusting line penetrates through a seat plate hole of the cylinder seat and the outer channel of the cylinder body, and bypasses the top surface of the inner tube of the cylinder body through the first clearance position of the first cylinder cover to enter the other channel of the first inner channel and the second inner channel to be communicated with the temperature adjuster. When the temperature sensor detects that the temperature is higher than or lower than the set temperature, the temperature controller sends an instruction, and the temperature controller heats or cools. Preferably, when the temperature controller sends an instruction, the water treatment device of the water treatment and water change system is started at the same time.

The air bubble generating system consists of an air bubble generator, a second air outlet pipe, a flat pipe, a one-way valve, an air bubble head and a branch pipe; the bubble generator is positioned in any control area of the cylinder base; a through hole is formed in the baffle pipe of the cylinder body, and the position of the through hole is lower than the upper surface of the soil layer; a second air outlet pipe penetrates through a seat plate hole of the cylinder seat and the outer channel, bypasses the top surface of the inner pipe of the cylinder body through a first clearance position of the first cylinder cover, passes through the first inner channel or the second inner channel, penetrates through a through hole of the cylinder body and is communicated with a flat pipe, and the flat pipe is buried in the soil layer and is connected with a one-way valve and a bubble head through a branch pipe; the bubble head is hidden in the waterscape.

The decorative lamp system is composed of a decorative lamp controller, a decorative lamp line, a flat line, a lead and a first decorative lamp; the decorative lamp controller is arranged in any control area of the cylinder base; the first decorative lamp is hidden in the waterscape; the decorative lamp wire penetrates through a base plate hole of the cylinder base and the outer channel, passes through a first clearance position of the first cylinder cover, bypasses the top surface of the inner tube of the cylinder body, passes through the first inner channel or the second inner channel, penetrates through a through hole of the cylinder body, and is connected with a first decorative lamp through a flat wire and a lead wire; the flat wire is embedded in the soil layer.

The second cylinder cover is provided with a lighting lamp position and a second vacancy avoiding position; the second cylinder cover is movably covered on the cylinder body; the lighting lamp positions are distributed right above the water body, and the second vacancy avoiding positions are arranged above the baffle pipes of the cylinder body.

Further, a cylinder decoration plate is arranged on the second cylinder cover, the inner surface of the cylinder decoration plate surrounds the outer surface of the outer pipe of the cylinder body, the top surface of the surface pipe of the cylinder body is not higher than the upper surface of the water body, and the bottom surface of the cylinder decoration plate of the second cylinder cover is above the top surface of the surface pipe of the cylinder body.

Further, a cylinder cover hole is formed in the second cylinder cover, and the radial size of the cylinder cover hole of the second cylinder cover is not larger than that of the inner pipe of the cylinder body; the shape of the cylinder cover hole of the second cylinder cover is not limited, and preferably, the shape of the cylinder cover hole of the second cylinder cover is the same as that of the inner pipe of the cylinder body;

furthermore, the landscaping device further comprises a landscaping framework, wherein the landscaping framework is composed of a landscaping chassis, a landscaping platform and a landscaping support rod, the landscaping support rod is fixedly connected with the landscaping chassis and the landscaping platform respectively, the landscaping chassis is embedded into the soil layer, a landscaping material is placed on the landscaping platform, and a platform through hole is formed in the landscaping platform.

The device further comprises an illuminating system, wherein the illuminating system consists of an illuminating controller, a cylinder cover illuminating body, a cover illuminating line, an underwater illuminating body, a flat line, a lead, a second decorating lamp, a bus, a first branch line and a second branch line; the lighting controller is arranged in any one control area of the cylinder base; the cylinder cover illuminating body is positioned in the illuminating lamp position of the second cylinder cover; the underwater illuminating body is arranged above the vicinity of the aquatic weeds in the water body; the second decorative lamp is hidden in the waterscape. The bus passes through a base plate hole of the cylinder base and the outer channel to be connected with the first branch line and the second branch line; the first branch line is connected with the cylinder cover illuminating body through a cover illuminating line; a second branch line passes through the first inner channel or the second inner channel, passes through a through hole of the cylinder body, and is connected with the underwater illuminating body and the second decorative lamp through a flat line and a lead; the flat wire is embedded in the soil layer.

The lead of the lighting system can be wired along with the shape of the landscaping support rod of the landscaping framework and can pass through the platform via hole.

The utility model has the advantages that: an indoor multi-surface ecological waterscape system, wherein auxiliary facilities such as an air inlet pipe, a water outlet pipe, a soil layer and the like which are not used for landscaping are hidden, so that the appearance of the auxiliary facilities is not influenced; the appearance is polygonal, so that the appearance is more attractive and elegant; spectators can watch around the periphery of the waterscape system; the underwater lighting device and the landscaping framework are arranged, the landscaping is not limited by the water depth any more, the water landscape with any height can be manufactured, and multi-level landscaping, three-dimensional aerial landscaping and suspension landscaping can be performed; the underwater color lamp and the bubble generator are arranged to create another artistic atmosphere; the transparent panel is added to be as thick as the adjacent decorative plate, the end face of the decorative plate is internally arranged, and the appearance is more beautiful.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a side view of an embodiment of the present invention;

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

figure 3 is an isometric view of a cylinder according to an embodiment of the present invention;

FIG. 4 is a top view of a cylinder body according to an embodiment of the present invention;

FIG. 5 is an enlarged view of the portion M of FIG. 4;

FIG. 6 is an enlarged view of the portion N of FIG. 4;

FIG. 7 is a rotation of the section A-A in FIG. 4;

FIG. 8 is an isometric view of a cylinder block according to an embodiment of the present invention;

fig. 9 is an isometric view of a first cylinder head according to an embodiment of the present invention;

fig. 10 is a first cross-sectional view of an embodiment of the present invention;

FIG. 11 is a schematic view of a water treatment and water change system according to an embodiment of the present invention;

fig. 12 is a second cross-sectional view of the embodiment of the present invention;

fig. 13 is a schematic view of an air-entrapping system according to an embodiment of the present invention;

fig. 14 is a cross-sectional view of a second embodiment of the present invention;

FIG. 15 is a schematic view of a temperature control system according to an embodiment of the present invention;

fig. 16 is a schematic view of a three-bubble generation system according to an embodiment of the present invention;

fig. 17 is a schematic view of a four decorative lamp system according to an embodiment of the present invention;

figure 18 is a front perspective view of an embodiment of the present invention;

fig. 19 is a five-axis drawing of the embodiment of the present invention;

fig. 20 is a five-axis perspective view of an embodiment of the present invention;

figure 21 is an isometric view of a fifth second head of an embodiment of the present invention;

fig. 22 is an isometric view of a five-landscape framework according to an embodiment of the present invention;

fig. 23 is a schematic view of a five-lighting system according to an embodiment of the present invention.

The symbols in the figure are:

the device comprises a cylinder body 1, a cylinder base 2, a first cylinder cover 3, a water treatment and water changing system 4, an air entraining system 5, a temperature control system 6, a bubble generating system 7, a decorating lamp system 8, a soil layer 9, a landscaping framework 10, a base door 11, a water body 12, a second cylinder cover 13 and an illuminating system 14;

the outer pipe 101, the inner pipe 102, the polygonal plate 103, the polygonal plate hole 103a, the baffle pipe 104, the upper baffle hole 104a, the lower baffle hole 104b, the face pipe 105, the rib plate 106, the partition plate 107, the through hole 108, the outer channel 109, the first inner channel 110 and the second inner channel 111; the base plate 201, the base plate hole 201a, the base plate 202, the base plate hole 202a, the outer column 203, the inner column 204, the base decorative plate 205 and the control area 206; a first escape bit 301; the system comprises a water treatment device 401, a first water inlet pipe 402, a first water inlet 403, a second water inlet 404, a water outlet pipe 405, a water outlet 406, a first three-way valve 408, a water supply pipe 409, a second three-way valve 410 and a water discharge pipe 411; a gas cylinder 501, a first gas outlet pipe 502 and a thinning head 503; a temperature controller 601, a temperature sensor 602, a sensing wire 603, a temperature regulator 604 and a temperature regulating wire 605; a bubble generator 701, a second air outlet pipe 702, a flat pipe 703, a one-way valve 704, a bubble head 705 and a branch pipe 706; a decorative lamp controller 801, a decorative lamp line 802, a flat line 803, a lead 804 and a first decorative lamp 805; a landscaping chassis 1001, a landscaping platform 1002, a landscaping strut 1003 and a platform via 1004; the lighting lamp position 1301, the second clearance position 1302, a cylinder decorative plate 1303 and a cylinder cover hole 1304; lighting controller 1401, head lighting 1402, head lighting 1403, underwater lighting 1404, flat line 1405, lead 1406, second decorative light 1407, bus 1408, first branch 1409, second branch 1410.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and the detailed description.

Example one

Please refer to fig. 1 to 9. The indoor multi-surface ecological waterscape system comprises a cylinder body 1, a cylinder base 2, a first cylinder cover 3, a water treatment and water changing system 4, an air entraining system 5, a soil layer 9, a base door 11, an outer channel 109, a first inner channel 110, a second inner channel 111 and a water body 12.

The cylinder body 1 is composed of an outer pipe 101, an inner pipe 102, a polygonal plate 103, a baffle pipe 104, a surface pipe 105, a rib plate 106 and a baffle plate 107. The polygonal plate 103 is polygonal in shape, the number of sides is k, k is greater than or equal to 3, and k =6 is adopted in the embodiment; a polygonal plate hole 103a is formed in the center of the polygonal plate 103, and the shape is not limited, and the present embodiment has the same outer shape as the polygonal plate 103; the outer tube 101 is a polygonal tube shape identical to the polygonal plate 103; the bottom surface of the outer tube 101 is matched with the shape of the polygonal plate 103 and is fixedly connected in a sealing way; the inner tube 102 is a tube shape having a radial dimension smaller than that of the outer tube 101, larger than that of the polygonal plate hole 103a, and the same height as that of the outer tube 101, and is not limited in shape, but is a polygonal tube shape similar to that of the outer tube 101 in the present embodiment; the inner tube 102 and the outer tube 101 are arranged on the same side of the polygonal plate 103, and the bottom surface of the inner tube 102 is fixedly connected with the polygonal plate 103 in a sealing way; the baffle pipe 104 is the same shape as the outer pipe 101; the radial size of the baffle tube 104 is smaller than that of the outer tube 101, slightly larger than that of the inner tube 102, the baffle tube and the inner tube 102 are positioned on the same side of the polygonal plate 103, and the bottom surface of the baffle tube 104 is fixedly connected with the polygonal plate 103; preferably, the outer tube 101, the inner tube 102 and the baffle tube 104 are formed by splicing k flat plates; the space inside the inner tube 102 and the polygonal plate hole 103a form an outer channel 109; the number of the partition plates 107 is 2, the space between the baffle pipe 104 and the inner pipe 102 is uniformly distributed, and the partition plates are respectively fixedly connected with the outer surface of the inner pipe 102, the inner surface of the baffle pipe 104 and the upper surface of the polygonal plate 103 in a sealing manner, so that the space between the baffle pipe 104 and the inner pipe 102 is divided into a first inner channel 110 and a second inner channel 111; the outer tube 101 is made of a transparent material; an upper blocking hole 104a is arranged on the periphery of the upper part of the blocking pipe 104, and the axis of the upper blocking hole 104a is flush with the upper surface of the water body 12; a lower baffle hole 104b is formed on the lower periphery of the baffle pipe 104, and the lower baffle hole 104b is positioned higher than the upper surface of the soil layer 9.

Further, a rib plate 106 is fixedly arranged between the top surface of the outer pipe 101 and the top surface of the inner pipe 102; preferably, the number of webs 106 is k;

further, a pattern is provided on the outer surface of the baffle pipe 104 of the cylinder block 1.

Further, the outer surface of the baffle pipe 104 of the cylinder 1 is a mirror surface.

Furthermore, a surface pipe 105 is arranged on the outer side of the outer pipe 101 closely attached to the cylinder body 1, and the shape of the surface pipe 105 is the same as that of the outer pipe 101; preferably, the face tube 105 is formed by splicing k flat plates; the bottom surface of the surface pipe 105 is not lower than the upper surface of the soil layer 9; the face tube 105 is made of a transparent material.

2 is composed of a bottom plate 201, a seat plate 202 and an outer column 203; the shapes of the bottom plate 201 and the seat plate 202 are the same as the shape of the cylinder body 1, the seat plate 202 is arranged above the bottom plate 201, and the corresponding sides are aligned in parallel; outer columns 203 are arranged at the polygonal corners between the bottom plate 201 and the seat plate 202 and are respectively fixedly connected with the bottom plate 201 and the seat plate 202, and the number of the outer columns is k; control areas 206 are formed between two adjacent outer columns 203, and the number of the control areas is k; a bottom plate hole 201a is formed in the center of the bottom plate 201, and the shape is not limited, and the bottom plate hole is circular in the embodiment; the seat plate 202 has a seat plate hole 202a at the center thereof, and is not limited to a hexagonal shape in the present embodiment.

Further, a seat trim 205 is circumferentially provided on the seat plate 202 of the cylinder block 2, an inner surface of the seat trim 205 surrounds an outer surface of the outer tube 101 of the cylinder block 1, and a top surface of the seat trim 205 is below a bottom surface of the face tube 105 of the cylinder block 1.

Further, an inner column 204 is arranged on the inner side of the outer column 203 of the cylinder base 2 and is fixedly connected with the bottom plate 201 and the base plate 202 respectively; preferably, the number of inner columns 204 of the cylinder block 2 is k;

the cylinder block 1 is placed on the seat plate 202 of the cylinder block 2.

The shape and the size of the first cylinder cover 3 are the same as those of the baffle pipe 104 of the cylinder body 1, and a first vacancy avoiding position 301 is arranged on the first cylinder cover 3; the first cylinder head 3 is movably covered on the baffle pipe 104 of the cylinder body 1.

Referring to fig. 10 and 11, the water treatment and changing system 4 is composed of a water treatment device 401, a first water inlet pipe 402, a first water inlet 403, a second water inlet 404, a water outlet pipe 405, a water outlet 406, a first three-way valve 408, a water supply pipe 409, a second three-way valve 410 and a water discharge pipe 411, wherein the water treatment device 401 is placed in any one control area 206 of the cylinder base 2; the first water inlet 403 and the second water inlet 404 are positioned in the first inner channel 110, and the water outlet 406 is positioned in the second inner channel 111 and is far away from the first water inlet 403; the first water inlet pipe 402 passes through the first space-avoiding position 301 of the first cylinder cover 3 from the first inner channel 110, bypasses the top surface of the inner pipe 102 of the cylinder body 1, enters the outer channel 109, passes through the base plate hole 202a of the cylinder base 2, and is connected with the water processor 401 through the first three-way valve 408; the water outlet pipe 405 passes through the base plate hole 202a of the cylinder base 2 from the second three-way valve 410, enters the outer channel 109, bypasses the top surface of the inner pipe 102 of the cylinder body 1 through the first space avoiding position 301 of the first cylinder cover 3, and enters the second inner channel 111 to be connected with the water outlet 406; the water supply pipe 409 penetrates through the bottom plate hole 201a of the cylinder base 2 and is connected with a water source (such as tap water, barreled water and the like); the drain pipe 411 passes through the bottom plate hole 201a of the cylinder base 2 and is connected with an old water collecting device (such as a sewer, an old water bucket and the like);

during water treatment, the first three-way valve 408 is rotated to connect the water treatment device 401 with the first water inlet pipe 402, and the second three-way valve 410 is rotated to connect the water treatment device 401 with the water outlet pipe 405; the water treatment device 401 is started, and water in the first inner channel 110 of the cylinder body 1 enters the water treatment and water change system 4 from the first water inlet 403 and the second water inlet 404 for treatment, and then flows into the second inner channel 111 from the water outlet 406 through the water outlet pipe 405; the water in the second inner channel 111 flows into the waterscape through the upper retaining hole 104a and the lower retaining hole 104b on the side of the second inner channel 111 on the retaining pipe 104, and flows into the first inner channel 110 through the upper retaining hole 104a and the lower retaining hole 104b on the side of the first inner channel 110 on the retaining pipe 104.

When water is changed, water is drained first and then supplied. During drainage, the first three-way valve 408 is rotated to connect the water treatment device 401 with the first water inlet pipe 402, and the second three-way valve 410 is rotated to connect the water treatment device 401 with the drain pipe 411; the water treatment device 401 is turned on, and the water in the first inner passage 110 of the cylinder 1 is discharged through the first water inlet pipe 402, the water treatment device 401, and the water discharge pipe 411. When water is supplied, the water treatment device 401 is connected to the water supply pipe 409 by rotating the first three-way valve 408, the water treatment device 401 is connected to the water outlet pipe 405 by rotating the second three-way valve 410, and water in the water source flows into the second inner passage 111 of the cylinder 1 through the water supply pipe 409, the water treatment device 401, and the water outlet pipe 405.

Referring to fig. 12 to 13, the gas filling system 5 comprises a gas cylinder 501, a first gas outlet pipe 502 and a refining head 503; the gas cylinder 501 is placed in any control area 206 of the cylinder base 2, and the thinning head 503 is positioned at the bottom position in the second inner channel 111; the first outlet pipe 502 passes through the seat plate hole 202a of the cylinder seat 2 to enter the outer passage 109, passes through the first space avoiding position 301 of the first cylinder head 3 to bypass the top surface of the inner pipe 102 of the cylinder block 1 to enter the second inner passage 111 to be connected with the thinning head 503.

11 are located in the control zone 206 of the cylinder block 2, the number of seat doors 11 being the same as the number of control zones 206.

Example two

Referring to fig. 14 to 15, the temperature control system 6 includes a temperature controller 601, a temperature sensor 602, a sensing line 603, a temperature controller 604, and a temperature control line 605; the temperature controller 601 is arranged in any control area 206 of the cylinder base 2; a temperature sensor 602 is placed in one of the first inner passage 110 and the second inner passage 111, and a thermostat 604 is placed in the other of the first inner passage 110 and the second inner passage 111; the temperature sensor 602 of the present embodiment is placed in the second inner passage 111, and the thermostat 604 is placed in the first inner passage 110. The sensing wire 603 passes through the first space avoiding position 301 of the first cylinder cover 3 from the second inner channel 111, bypasses the top surface of the inner tube 102 of the cylinder body 1, enters the outer channel 109, passes through the seat plate hole 202a of the cylinder seat 2 and is communicated with the temperature controller 601; the temperature adjustment line 605 passes through the seat plate hole 202a of the cylinder seat 2 and the outer passage 109 of the cylinder block 1, passes through the first space avoiding portion 301 of the first cylinder head 3, bypasses the top surface of the inner pipe 102 of the cylinder block 1, enters the first inner passage 110, and is communicated with the temperature adjuster 604. When the temperature sensor 602 detects that the temperature is higher or lower than the set temperature, the thermostat 601 issues an instruction, and the thermostat 604 increases or decreases the temperature. Preferably, the temperature controller 601 sends an instruction to start the water treatment device 401 of the water treatment and change system 4.

EXAMPLE III

Referring to fig. 16, the bubble generation system 7 is composed of a bubble generator 701, a second air outlet pipe 702, a flat pipe 703, a check valve 704, a bubble head 705, and a branch pipe 706; the bubble generator 701 is located in any one of the control zones 206 of the cylinder block 2; a through hole 108 is formed in the baffle pipe 104 of the cylinder body 1, and the position of the through hole 108 is lower than the upper surface of the soil layer 9; the second air outlet pipe 702 passes through a seat plate hole 202a and an outer channel 109 of the cylinder seat 2, bypasses the top surface of the inner pipe 102 of the cylinder body 1 through a first vacancy avoiding position 301 of the first cylinder cover 3, passes through a first inner channel 110 or a second inner channel 111, passes through a through hole 108 of the cylinder body 1 and is communicated with a flat pipe 703, the flat pipe 703 is buried in the soil layer 9, and is connected with a one-way valve 704 and a bubble head 705 through a branch pipe 706; bubble head 705 is hidden in the waterscape.

Example four

Referring to fig. 17, the decorative lamp system 8 is composed of a decorative lamp controller 801, a decorative lamp cord 802, a flat cord 803, a lead 804, and a first decorative lamp 805; the decorative lamp controller 801 is arranged in any control area 206 of the cylinder base 2; the first decorative lamp 805 is hidden in the waterscape; the decorative lamp wire 802 passes through the panel hole 202a and the outer channel 109 of the cylinder base 2, passes through the first space avoiding 301 of the first cylinder cover 3, bypasses the top surface of the inner tube 102 of the cylinder body 1, passes through the first inner channel 110 or the second inner channel 111, passes through the through hole 108 of the cylinder body 1, and is connected with the first decorative lamp 805 through a flat wire 803 and a lead 804; the flat wire 803 is buried in the soil layer 9.

EXAMPLE five

Please refer to fig. 18 to 23. In the first embodiment, the first cylinder cover 3 is replaced by the second cylinder cover 13, and the landscaping framework 10 and the lighting system 14 are added.

The second cylinder cover 13 is provided with an illuminating lamp position 1301 and a second clearance position 1302; the second cylinder cover 13 is movably covered on the cylinder body 1; the lighting lamp positions 1301 are distributed right above the water body 12, and the second clearance position 1302 is arranged above the baffle pipe 104 of the cylinder body 1.

Further, a cylinder decoration plate 1303 is provided on the second cylinder head 13, an inner surface of the cylinder decoration plate 1303 surrounds an outer surface of the outer tube 101 of the cylinder 1, a top surface of the surface tube 105 of the cylinder 1 is not higher than an upper surface of the water body 12, and a bottom surface of the cylinder decoration plate 1303 of the second cylinder head 13 is above the top surface of the surface tube 105 of the cylinder 1.

Further, a cylinder head hole 1304 is formed in the second cylinder head 13, and the radial dimension of the cylinder head hole 1304 of the second cylinder head 13 is not greater than the radial dimension of the inner tube 102 of the cylinder block 1; the shape of the head hole 1304 of the second head 13 is not limited, and preferably, the shape of the head hole 1304 of the second head 13 is the same as the shape of the inner tube 102 of the cylinder block 1;

the landscaping skeleton 10 is composed of a landscaping chassis 1001, a landscaping platform 1002 and a landscaping strut 1003, wherein the landscaping strut 1003 is respectively and fixedly connected with the landscaping chassis 1001 and the landscaping platform 1002, the landscaping chassis 1001 is embedded in the soil layer 9, a landscaping material is placed on the landscaping platform 1002, and the landscaping platform 1002 is provided with a platform through hole 1004.

The lighting system 14 is composed of a lighting controller 1401, a cylinder head lighting body 1402, a cover lighting line 1403, an underwater lighting body 1404, a flat line 1405, a lead 1406, a second decorative lamp 1407, a bus 1408, a first branch 1409 and a second branch 1410; the lighting controller 1401 is provided in any one of the control regions 206 of the cylinder block 2; the cylinder head illuminating body 1402 is located in the illuminating lamp position 1301 of the second cylinder head 13; the underwater illuminating body 1404 is disposed above and adjacent to the aquatic weeds in the body of water 12; the second decorative lamp 1407 is hidden in the waterscape. The bus 1408 passes through the plate hole 202a of the cylinder block 2, the outer channel 109 and is connected with the first branch 1409 and the second branch 1410; the first branch 1409 is connected to the head lighting body 1402 through the head lighting line 1403; the second line 1410 passes through the first inner channel 110 or the second inner channel 111, passes through the through hole 108 of the cylinder 1, and is connected with the underwater illuminating body 1404 and the second decorative lamp 1407 through the flat line 1405 and the lead 1406; the flat line 1405 is buried in the soil layer 9.

The lead 1406 of the illumination system 14 may be routed in the shape of the framing struts 1003 of the framing jig 10 and may pass through the platform via 1004.

The rest of the embodiments are the same as those of the first embodiment, and are not described again.

In the present invention, "first", "second", etc. are all distinguished in description, and have no other special meaning.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and inventive features disclosed herein.

Claims (10)

1. The utility model provides an ecological waterscape system of indoor multiaspect, characterized by includes: the device comprises a cylinder body, a cylinder seat, a first cylinder cover, a water treatment and water changing system, an air entraining system, a soil layer, a seat door, an outer channel, a first inner channel, a second inner channel and a water body;

the cylinder body consists of an outer pipe, an inner pipe, a multi-edge plate, a baffle pipe, a surface pipe, a rib plate and a partition plate; the polygonal plate is polygonal in shape, the number of the edges is k, and k is more than or equal to 3; a polygonal plate hole is formed in the center of the polygonal plate; the outer pipe is in a polygonal pipe shape identical to the polygonal plate; the bottom surface of the outer pipe is matched with the shape of the multi-edge plate and is fixedly connected with the multi-edge plate in a sealing way; the inner pipe is a pipe shape which has the radial dimension smaller than that of the outer pipe, larger than that of the polygonal plate hole and equal height to that of the outer pipe; the inner pipe and the outer pipe are arranged on the same side of the polygonal plate, and the bottom surface of the inner pipe is fixedly connected with the polygonal plate in a sealing manner; the shape of the baffle pipe is the same as that of the outer pipe; the radial size of the baffle pipe is smaller than that of the outer pipe and slightly larger than that of the inner pipe, the baffle pipe and the inner pipe are arranged on the same side of the polygonal plate, and the bottom surface of the baffle pipe is fixedly connected with the polygonal plate; the space in the inner tube and the polygonal plate hole form the outer channel; the number of the partition plates is 2, the space between the baffle pipe and the inner pipe is uniformly distributed and is respectively fixedly connected with the outer surface of the inner pipe, the inner surface of the baffle pipe and the upper surface of the multi-edge plate in a sealing way, and the space between the baffle pipe and the inner pipe is divided into a first inner channel and a second inner channel; the outer tube is made of transparent material; the periphery of the upper part of the baffle pipe is provided with an upper baffle hole, and the axis of the upper baffle hole is flush with the upper surface of the water body; the periphery of the lower part of the baffle pipe is provided with a lower baffle hole, and the position of the lower baffle hole is higher than the upper surface of the soil layer;

the cylinder seat consists of a bottom plate, a seat plate and an outer column; the shapes of the bottom plate and the seat plate are the same as the shape of the cylinder body, the seat plate is arranged above the bottom plate, and the corresponding edges are aligned in parallel; outer columns are arranged at the polygonal corners between the bottom plate and the seat plate and are respectively fixedly connected with the bottom plate and the seat plate, and the number of the outer columns is k; a control area is formed between two adjacent outer columns; a bottom plate hole is arranged at the central part of the bottom plate; a seat plate hole is arranged at the central part of the seat plate;

the cylinder body is placed on a seat plate of the cylinder seat;

the shape and the size of the first cylinder cover are the same as those of the baffle pipe of the cylinder body, and a first vacancy avoiding position is arranged on the first cylinder cover; the first cylinder cover is movably covered on the baffle pipe of the cylinder body;

the water treatment and water change system consists of a water treatment device, a first water inlet pipe, a first water inlet, a second water inlet, a water outlet pipe, a water outlet, a first three-way valve, a water supply pipe, a second three-way valve and a water discharge pipe, wherein the water treatment device is placed in any control area of the cylinder base; the first water inlet and the second water inlet are positioned in the first inner channel, and the water outlet is positioned in the second inner channel and is far away from the first water inlet; a first water inlet pipe bypasses the top surface of the inner pipe of the cylinder body from the first inner channel through a first clearance position of the first cylinder cover to enter the outer channel, then passes through a seat plate hole of the cylinder seat and is connected with a water processor through a first three-way valve; the water outlet pipe penetrates through a base plate hole of the cylinder base from a second three-way valve to enter the outer channel, and bypasses the top surface of the inner pipe of the cylinder body through a first clearance position of the first cylinder cover to enter the second inner channel to be connected with a water outlet; the water supply pipe penetrates through a bottom plate hole of the cylinder base and is connected with a water source; the drain pipe penetrates through a bottom plate hole of the cylinder base and is connected with the used water collecting device;

the gas filling system consists of a gas cylinder, a first gas outlet pipe and a thinning head; the gas cylinder is placed in any control area of the cylinder base, and the thinning head is positioned in the second inner channel and close to the bottom; a first air outlet pipe penetrates through a seat plate hole of the cylinder seat to enter the outer channel, and bypasses the top surface of the inner pipe of the cylinder body through a first clearance position of the first cylinder cover to enter the second inner channel to be connected with the thinning head;

the seat door is located in a control area of the cylinder seat.

2. An indoor multi-faced ecological waterscape system according to claim 1, wherein a rib plate is fixedly provided between the top surface of the outer pipe and the top surface of the inner pipe.

3. An indoor multi-surface ecological waterscape system as claimed in claim 1, wherein a surface pipe is provided on the outer side of the outer pipe closely attached to the cylinder body, and the shape of the surface pipe is the same as that of the outer pipe; the bottom surface of the surface pipe is not lower than the upper surface of the soil layer; the surface tube is made of transparent material; the cylinder seat is characterized in that a seat decoration plate is arranged on the seat plate of the cylinder seat along the periphery, the inner surface of the seat decoration plate surrounds the outer surface of the outer pipe of the cylinder body, and the top surface of the seat decoration plate is arranged below the bottom surface of the surface pipe of the cylinder body.

4. The indoor multi-sided ecological waterscape system of claim 1, further comprising a temperature control system, wherein the temperature control system comprises a thermostat, a temperature sensor, a sensing line, a thermostat, and a temperature regulating line; the temperature controller is arranged in any control area of the cylinder base; a temperature sensor is placed in one of the first inner channel and the second inner channel, and a thermostat is placed in the other of the first inner channel and the second inner channel; a sensing wire passes through a first clearance position of the first cylinder cover from one of the first inner channel and the second inner channel, bypasses the top surface of the inner tube of the cylinder body, enters the outer channel, passes through a seat plate hole of the cylinder seat and is communicated with the temperature controller; the temperature adjusting line penetrates through a seat plate hole of the cylinder seat and the outer channel of the cylinder body, and bypasses the top surface of the inner tube of the cylinder body through the first clearance position of the first cylinder cover to enter the other channel of the first inner channel and the second inner channel to be communicated with the temperature adjuster.

5. The indoor multi-surface ecological waterscape system according to claim 1, further comprising a bubble generation system, wherein the bubble generation system comprises a bubble generator, a second air outlet pipe, a flat pipe, a one-way valve, a bubble head, and a branch pipe; the bubble generator is positioned in any control area of the cylinder base; a through hole is formed in the baffle pipe of the cylinder body, and the position of the through hole is lower than the upper surface of the soil layer; a second air outlet pipe penetrates through a seat plate hole of the cylinder seat and the outer channel, bypasses the top surface of the inner pipe of the cylinder body through a first clearance position of the first cylinder cover, passes through the first inner channel or the second inner channel, penetrates through a through hole of the cylinder body and is communicated with a flat pipe, and the flat pipe is buried in the soil layer and is connected with a one-way valve and a bubble head through a branch pipe; the bubble head is hidden in the waterscape.

6. The indoor multi-sided ecological waterscape system of claim 1, further comprising a decorative light system, wherein the decorative light system comprises a decorative light controller, a decorative light line, a flat line, a lead, a first decorative light; the decorative lamp controller is arranged in any control area of the cylinder base; the first decorative lamp is hidden in the waterscape; the decorative lamp wire penetrates through a base plate hole of the cylinder base and the outer channel, passes through a first clearance position of the first cylinder cover, bypasses the top surface of the inner tube of the cylinder body, passes through the first inner channel or the second inner channel, penetrates through a through hole of the cylinder body, and is connected with a first decorative lamp through a flat wire and a lead wire; the flat wire is embedded in the soil layer.

7. The indoor multi-surface ecological waterscape system according to claim 1, further comprising a second cylinder cover, wherein the second cylinder cover is provided with a lighting lamp position and a second vacancy-avoiding position; the second cylinder cover is movably covered on the cylinder body; the lighting lamp positions are distributed right above the water body, and the second vacancy avoiding positions are arranged above the baffle pipes of the cylinder body.

8. The indoor multi-faceted ecological waterscape system according to claim 7, wherein a cylinder decoration plate is provided on said second cylinder head, an inner surface of the cylinder decoration plate surrounds an outer surface of an outer tube of said cylinder block, a top surface of a face tube of said cylinder block is not higher than an upper surface of said water body, and a bottom surface of the cylinder decoration plate of said second cylinder head is above the top surface of the face tube of said cylinder block; and a cylinder cover hole is formed in the second cylinder cover, and the radial size of the cylinder cover hole of the second cylinder cover is not larger than that of the inner pipe of the cylinder body.

9. The indoor multi-surface ecological waterscape system of claim 1, further comprising a landscaping skeleton, wherein the landscaping skeleton comprises a landscaping chassis, a landscaping platform, and landscaping support rods, the landscaping support rods are respectively and fixedly connected with the landscaping chassis and the landscaping platform, the landscaping chassis is embedded in the soil layer, the landscaping platform is provided with landscaping materials, and the landscaping platform is provided with platform through holes.

10. The indoor multi-sided ecological waterscape system of claim 7, further comprising a lighting system, wherein the lighting system is composed of a lighting controller, a cylinder cap lighting body, a cap lighting line, an underwater lighting body, a flat line, a lead line, a second decorative lamp, a bus line, a first branch line, and a second branch line; the lighting controller is arranged in any one control area of the cylinder base; the cylinder cover illuminating body is positioned in the illuminating lamp position of the second cylinder cover; the underwater illuminating body is arranged above the vicinity of the aquatic weeds in the water body; the second decorative lamp is hidden in the waterscape; the bus passes through a base plate hole of the cylinder base and the outer channel to be connected with the first branch line and the second branch line; the first branch line is connected with the cylinder cover illuminating body through a cover illuminating line; a second branch line passes through the first inner channel or the second inner channel, passes through a through hole of the cylinder body, and is connected with the underwater illuminating body and the second decorative lamp through a flat line and a lead; the flat wire is embedded in the soil layer.

Images