CN105293705A - Sewage treatment device and sewage treatment assembly - Google Patents

Abstract

The invention relates to a sewage treatment device and a sewage treatment assembly. The sewage treatment device comprises a shell, a partition plate, a water inlet cylinder, a partition plate and a partition strip. A water inlet and a water outlet are arranged on the side wall of the shell; the partition plate divides the accommodating cavity into a first accommodating groove communicated with the water inlet and a second accommodating groove communicated with the water outlet, the water inlet cylinder is communicated with the first accommodating groove, and the side wall of the water inlet cylinder is provided with a first water outlet; the parting strip and division board, a section of thick bamboo of intaking cooperate jointly to enclose into the first rivers passageway of planting the plant, and first rivers passageway is linked together with first apopore, and the parting strip cooperates jointly with division board, shell and encloses into the second rivers passageway of planting the plant, and wherein, sewage is in proper order through water inlet, first accepting groove, a section of thick bamboo of intaking, first apopore, first rivers passageway, second apopore and second rivers passageway to discharge from the outlet. The sewage treatment device has better purification efficiency and better purification effect.

Description

Waste disposal plant and sewage disposal assembly

Technical field

The present invention relates to sewage treatment area, particularly relate to a kind of waste disposal plant and sewage disposal assembly.

Background technology

Artificial swamp by artificial build and controlling run, and the similar ground of swampland, sewage, mud there is the dosing of control on the artificial wetland built, sewage and mud are in the process flowed in a certain direction, mainly utilize soil, artificial dielectric, plant, the physics of microorganism, chemistry, biological triple synergy, to a kind of technology that sewage, mud process.Its mechanism of action comprises absorption, delay, filtration, redox, precipitation, microbial decomposition, conversion, plant are covered, the effect of residue accumulated, water transpiration and nutrition absorption and all kinds of animal.But the sewage disposal paths arrangement of current artificial swamp is unreasonable, plant growing region can not be made to be utilized fully, cause purification efficiency lower and decontamination effect improving is poor.

Summary of the invention

Based on this, be necessary to provide a kind of purification efficiency higher and the good waste disposal plant of decontamination effect improving.

In addition, a kind of sewage disposal assembly is also provided.

A kind of waste disposal plant, comprising:

Shell, for having the housing of an accommodating cavity, described shell has opening and the bottom relative with described opening, the sidewall of described shell offers water-in and water port;

Division plate, be contained in described shell, and the edge of described division plate is fixedly connected with the sidewall of described shell, and described accommodating cavity is separated into the first accepting groove and the second accepting groove, and described first accepting groove is connected with described water-in, described second accepting groove is connected with described water port; Described division plate offers the communicating aperture being communicated with described first accepting groove and described second accepting groove;

Flooding tube, be the cylindrical shell of one end open, described flooding tube is arranged in described communicating aperture, and is tightly connected with the sidewall of described communicating aperture, and the opening of described flooding tube is towards the bottom of described shell, and described flooding tube is connected with described first accepting groove; The sidewall of described flooding tube offers the first posticum;

Division board, be contained in described second accepting groove, the side of described division board is fixedly connected with described division plate, and the two ends of described division board are fixedly connected with the sidewall of described shell with the sidewall of described flooding tube respectively;

Isolating bar, be contained in described second accepting groove, described isolating bar arranges one week around described flooding tube, the side of described isolating bar is fixedly connected with described division plate, the two ends of described isolating bar are fixedly connected with two relative surfaces of described division board respectively, and described isolating bar and described division board, described division plate, described flooding tube coordinates the first water stream channel surrounding planting plants jointly, described first water stream channel is connected with described first posticum, described isolating bar and described division board, described division plate, described shell coordinates the second water stream channel surrounding planting plants jointly, described isolating bar offers the second posticum being communicated with described first water stream channel and described second water stream channel, described second posticum, described first posticum and described water port are all arranged near described division board, described second posticum and described first posticum are separated by by described division board, and described second posticum and described water port are separated by by described division board,

Wherein, sewage successively through described water-in, described first accepting groove, described flooding tube, described first posticum, described first water stream channel, described second posticum and described second water stream channel, and is discharged from described water port.

Wherein in an embodiment, described isolating bar surrounds an arcuate structure, and from one end of described isolating bar to the other end, the radius-of-curvature of described arcuate structure increases gradually, one end place that the radius-of-curvature that described second posticum is positioned at described arcuate structure is larger.

Wherein in an embodiment, described isolating bar surrounds an arcuate structure, and from one end of described isolating bar to the other end, the radius-of-curvature of described arcuate structure is all equal.

Wherein in an embodiment, also comprise the stirring ball be contained in described first accepting groove, described stirring ball can slide under the effect of described sewage on the bottom of described shell.

Wherein in an embodiment, the internal surface of the bottom of described shell is protruding, and with Shi Cong center to edge, the internal surface of the bottom of described shell increases gradually to the distance of opening.

Wherein in an embodiment, also comprise the barrier plate be fixedly arranged in described first accepting groove, described barrier plate comprises:

Plate-like body, the edge of described plate-like body is fixedly connected with the sidewall of described shell, and the middle part of described plate-like body offers communicating pores, and the position of described communicating pores is corresponding with the position of the opening of described flooding tube;

Stop bulge loop, be fixed on a surface of described plate-like body, and setting coaxial with described communicating pores;

Wherein, the side that described plate-like body is connected with described stop bulge loop is relative with the bottom of described shell, and described stop bulge loop is less than the diameter of described stirring ball, with the inside stoping described stirring ball to slide into described stop bulge loop away from the shortest distance of the internal surface of one end of described plate-like body and the bottom of described shell.

Wherein in an embodiment, the aperture of described communicating pores is greater than the external diameter of described flooding tube, to form water flow buffer region between the sidewall and the sidewall of described flooding tube of described communicating pores.

Wherein in an embodiment, also comprise the multiple spaced space bar be contained in described second water stream channel, the side of each described space bar is fixedly connected with described division plate, and two ends are fixedly connected with described isolating bar with the sidewall of described shell respectively, described second water stream channel is separated into multiple plant growing portion by multiple described space bar, and the plant difference in multiple described plant growing portion; Each described space bar offers the 3rd posticum being communicated with adjacent two described plant growing portions.

Wherein in an embodiment, also comprise the drainage tube of closed at both ends, described drainage tube is arranged in described division plate, the described drainage tube of a part is contained in described second water stream channel, drainage tube described in another part is contained in described first accepting groove, and the sidewall of described drainage tube offers multiple water hole, wherein, water in described second water stream channel enters in described drainage tube by described water hole, then enters in described first accepting groove through described water hole.

A kind of sewage disposal assembly, comprise multiple above-mentioned waste disposal plant and pipe connecting, the water port of a described waste disposal plant is connected with the water-in of waste disposal plant described in another by described pipe connecting.

The accommodating cavity of shell is separated into the first accepting groove and the second accepting groove by using division plate by above-mentioned waste disposal plant, flooding tube is communicated with the first accepting groove and the second accepting groove, isolating bar arranges one week around flooding tube, and isolating bar and division board, division plate, flooding tube coordinates the first water stream channel surrounding planting plants jointly, isolating bar and division board, division plate, shell coordinates the second water stream channel surrounding planting plants jointly, and the second posticum, first posticum and water port are all arranged near division board, and the second posticum and the first posticum are isolated plate and are separated by, water port and the second posticum are isolated plate and are separated by, namely the first posticum and the second posticum lay respectively at the two ends of the first water stream channel, second posticum and water port lay respectively at the two ends of the second water stream channel, after making the water in flooding tube enter the first water stream channel from the first posticum, need flow through almost could flow out from the second posticum after whole first water stream channel and enter the second water stream channel, could discharge from water port after almost whole second water stream channel again, namely sewage need flow through almost whole first water stream channel and whole second water stream channel, thus the first water stream channel and the second water stream channel can be fully utilized, sewage can contact with the plant in the second water stream channel fully with the first water stream channel, effectively improve the purification efficiency of sewage, improve decontamination effect improving, above-mentioned waste disposal plant is made to have good purification efficiency and good decontamination effect improving.

Accompanying drawing explanation

Fig. 1 is the structural representation of the sewage disposal assembly of an embodiment;

Fig. 2 is the axial section of each waste disposal plant of the sewage disposal assembly shown in Fig. 1;

Fig. 3 is the schematic diagram of the waste disposal plant shown in Fig. 2;

Fig. 4 is the schematic diagram of the waste disposal plant of two embodiments;

Fig. 5 is the schematic diagram of the waste disposal plant of three embodiments;

Fig. 6 is the axial section of the waste disposal plant of four embodiments;

Fig. 7 is the schematic diagram of the waste disposal plant shown in Fig. 6.

Embodiment

For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully.Preferred embodiment of the present invention is given in accompanying drawing.But the present invention can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make the understanding of disclosure of the present invention more comprehensively thorough.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement are just for illustrative purposes.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present invention understand usually.The object of term used in the description of the invention herein just in order to describe specific embodiment, is not intended to be restriction the present invention.

As shown in Figure 1, the sewage disposal assembly 10 of an embodiment, comprises multiple waste disposal plant 100 and multiple pipe connecting 200.

Waste disposal plant 100 is a kind of artificial wet field facilities for treating sewage.See also Fig. 2 and Fig. 3, wherein, each waste disposal plant 100 comprises shell 110, division plate 120, flooding tube 130, division board 140 and isolating bar 150.

Shell 110 is for having the housing of an accommodating cavity.Shell 110 has opening 112 and the bottom 114 relative with opening 112.In the illustrated embodiment in which, shell 110 is circular cylinder body.Be appreciated that in other embodiments, shell 110 also can be oval cylindrical shell, square cylinder etc., be preferably circular cylinder body, shell 110 regular shape of circular tube structure, without corner, can ensure that water passes through smoothly, the existence of corner can be avoided and cause water alluvial problem.

Wherein, the sidewall of shell 110 offers water-in 116 and water port 117.Concrete, compared with water port 117, water-in 116 is more near the bottom 114 of shell 110.

Division plate 120 is contained in shell 110, and the edge of division plate 120 is fixedly connected with the sidewall of shell 110, and the accommodating cavity of shell 110 is separated into the first accepting groove 118 and the second accepting groove 119, and the first accepting groove 118 is connected with water-in 116, the second accepting groove 119 is connected with water port 117.Wherein, division plate 120 also offers the communicating aperture 122 of connection first accepting groove 118 and the second accepting groove 119.Specifically in the illustrated embodiment in which, division plate 120 is roughly circular slab.Wherein, the first accepting groove 118 is positioned at the bottom of the second accepting groove 119, and the bottom 114 of shell 110 is the bottom of the first accepting groove 118, and division plate 120 is the bottom of the second accepting groove 119.Communicating aperture 122 is positioned at the middle part of division plate 120.

Flooding tube 130 is the cylindrical shell of one end open.In the illustrated embodiment in which, flooding tube 130 is cylinder.Flooding tube 130 is arranged in communicating aperture 122, and is tightly connected with the sidewall of communicating aperture 122, and the opening of flooding tube 130 is towards the bottom 114 of shell 110, and flooding tube 130 is connected with the first accepting groove 118.Wherein, the sidewall of flooding tube 130 offers the first posticum 132.In the illustrated embodiment in which, the first posticum 132 is multiple, and multiple first posticum 132 is along the axial array of flooding tube 130.The aperture of one of them the first posticum 132 is greater than the aperture of remaining the first posticum 132.

Further, the opening of flooding tube 130 is provided with filtering net (not shown), and filtering net covers the opening of flooding tube 130.By arranging filtering net to carry out pre-treatment to the sewage entering flooding tube 130.

Division board 140 is contained in the second accepting groove 119.The side of division board 140 is fixedly connected with division plate 120, and the two ends of division board 140 are fixedly connected with the sidewall of shell 110 with the sidewall of flooding tube 130 respectively.

Isolating bar 150 is contained in the second accepting groove 119 regularly, isolating bar 150 arranges one week around flooding tube 130, the side of isolating bar 150 is fixedly connected with division plate 120, the two ends of isolating bar 150 are fixedly connected with two relative surfaces of division board 140 respectively, and isolating bar 150 coordinates the first water stream channel 160 surrounding planting plants 20 jointly with division board 140, division plate 120, flooding tube 130.Wherein, the first water stream channel 160 is connected with the first posticum 132.Isolating bar 150 coordinates the second water stream channel 170 surrounding planting plants 20 jointly with division board 140, division plate 120, shell 110.Wherein, isolating bar 150 offers the second posticum 152 of connection first water stream channel 160 and the second water stream channel 170, second posticum 152, first posticum 132 and water port 117 are all arranged near division board 140, and the second posticum 152 and the first posticum 132 are isolated plate 140 is separated by, the second posticum 152 is isolated plate 140 with water port 117 and is separated by.Namely the second posticum 152 and the first posticum 132 lay respectively at the both sides of division board 140, and the second posticum 152 and water port 117 lay respectively at the both sides of division board 140.Namely the first posticum 132 and the second posticum 152 lay respectively at the two ends of the first water stream channel 160, and the second posticum 152 and water vent 117 lay respectively at the two ends of the second water stream channel 170.

Wherein, sewage is successively through water-in 116, first accepting groove 118, flooding tube 130, first posticum 132, first water stream channel 160, second posticum 152 and the second water stream channel 170, and discharge from water port 117, as shown in Figure 3, the arrow in Fig. 3 represents the direction of current.

Wherein, in the first water stream channel 160 and the second water stream channel 170, the plant 20 of plantation is selected from least one in reed, hay grass, cattail, parasol bamboo, hybrid giant napier, Fischer grass, Scirpus tabernaemontani, Herba Cyperi Glomerati, papyrus, Herba Eichhorniae, great Piao, Wildcelery Herb, Leersia Sw, duckweed, swamp cabbage and Nasturtium officinale respectively.Wherein, the first water stream channel 160 can be identical with the plant 20 planted in the second water stream channel 170, also can not be identical.

In the illustrated embodiment in which, isolating bar 150 surrounds an arcuate structure, and from one end of isolating bar 150 to the other end, the radius-of-curvature of arcuate structure is all equal.Namely the arcuate structure that surrounds of isolating bar 150 is for circular, thus without corner on the sidewall making the first water stream channel 160, to ensure that water can pass through smoothly, avoids the existence of corner and problem that the water that causes deposits.

Be appreciated that in other embodiments, from one end of isolating bar 150 to the other end, the radius-of-curvature of arcuate structure increases gradually, and the second posticum 152 is positioned at the larger one end place of the radius-of-curvature of arcuate structure.Now, the first posticum 132 is arranged towards one end that the radius-of-curvature of arcuate structure is less.Or the arcuate structure that isolating bar 150 surrounds also can for oval.

Further, each waste disposal plant 100 also comprises the stirring ball 180 be contained in the first accepting groove 118, stir ball 180 to slide on the bottom 114 of shell 110 under the effect of sewage, to reach the effect of sewage in stirring first accepting groove 118, thus avoid the electrodeposition substance of sewage on the bottom 114 of shell 110.

Concrete, the material stirring ball 180 is aluminium plastic composite material or igelite.

In the illustrated embodiment in which, stirring ball 180 is two.Be appreciated that in other embodiments, stir ball 180 and also can be one or be greater than two.

Further, the internal surface of the bottom 114 of shell 110 is protruding, with Shi Cong center to edge, the internal surface of the bottom 114 of shell 110 increases gradually to the distance of opening 112, making to stir ball 180 can voluntarily from the central slide of shell 110 to edge, advantageously in the stirring of stirring ball 180 pairs of sewage.

Be appreciated that, slide in the bottom 114 of shell 110 for the ease of stirring ball 180, the bottom 114 of shell 110 is not limited to said structure, such as, in other embodiments, the internal surface of the bottom 114 of shell 110 is inclined-plane, and from side to opposite side, the internal surface of the bottom 114 of shell 110 increases gradually to the distance of opening 112; Or the internal surface of the bottom 114 of shell 110 depression, and from center to edge, the internal surface of the bottom 114 of shell 110 reduces gradually to the distance of opening 112.

Further, each waste disposal plant 100 also comprises the barrier plate 190 be fixedly arranged in the first accepting groove 118, and barrier plate 190 comprises plate-like body 192 and stops bulge loop 194.The edge of plate-like body 192 is fixedly connected with the sidewall of shell 110, and the middle part of plate-like body 192 offers communicating pores 196, and the position of communicating pores 196 is corresponding with the position of the opening of flooding tube 130.Stop that bulge loop 194 is fixed on a surface of plate-like body 192, and setting coaxial with communicating pores 196.Wherein, plate-like body 192 is connected with and stops that the side of bulge loop 194 is relative with the bottom 114 of shell 110, and stop that bulge loop 194 is less than away from the shortest distance of the internal surface of one end of plate-like body 192 and the bottom 114 of shell 110 diameter stirring ball 180, with the inside stoping stirring ball 180 to slide into stop bulge loop 194.

Further, the aperture of communicating pores 196 is greater than the external diameter of flooding tube 130, to form water flow buffer region 300 between the sidewall and the sidewall of flooding tube 130 of communicating pores 196, thus reduces current to the pressure of the opening of flooding tube 130.

Each pipe connecting 200 is communicated with adjacent two waste disposal plants 100.Wherein, the water port 117 of a waste disposal plant 100 is connected with the water-in 116 of another waste disposal plant 100 by pipe connecting 200.

The process that above-mentioned each waste disposal plant 100 is disposed of sewage is specific as follows:

Sewage enters in the first accepting groove 118 from the water-in 116 of shell 110, under the effect of current, stir ball 180 to slide on the bottom 114 of shell 110, to stir the sewage in the first accepting groove 118, the stop bulge loop 194 of barrier plate 190 stops stirring ball 180 to slide into the inside stopping bulge loop 194, sewage in first accepting groove 118 is through communicating pores 196, the opening of filtering net and flooding tube 130 enters flooding tube 130, the first water stream channel 160 is entered into again through the first posticum 132, due to the barrier effect of division board 140, first posticum 132 and the second posticum 152 lay respectively at the two ends of the first water stream channel 160, second posticum 152 and water port 117 lay respectively at the two ends of the second water stream channel 170, make the water entering the first water stream channel 160 need after whole first water stream channel 160, the second water stream channel 170 is flow into from the second posticum 152, again after whole second water stream channel 170, discharge from water port 117.

Wherein, whole sewage assembly 10 process of disposing of sewage is specific as follows:

The process water flowed out from the water port 117 of first waste disposal plant 100, through pipe connecting 200, enters this adjacent waste disposal plant 100 from the water-in 116 of adjacent waste disposal plant 100.

Above-mentioned waste disposal plant 100 at least has the following advantages:

(1) accommodating cavity of shell 110 is separated into the first accepting groove 118 and the second accepting groove 119 by using division plate 120 by above-mentioned waste disposal plant 100, flooding tube 130 is communicated with the first accepting groove 118 and the second accepting groove 119, isolating bar 150 arranges one week around flooding tube 130, and isolating bar 150 and division board 140, division plate 120, flooding tube 130 coordinates the first water stream channel 160 surrounding planting plants 20 jointly, isolating bar 150 and division board 140, division plate 120, shell 110 coordinates the second water stream channel 170 surrounding planting plants 20 jointly, and the second posticum 152, first posticum 132 and water port 117 are all arranged near division board 140, and the second posticum 152 and the first posticum 132 lay respectively at the both sides of division board 140, water port 117 and the second posticum 152 lay respectively at the both sides of division board 140, namely the first posticum 132 and the second posticum 152 lay respectively at the two ends of the first water stream channel 160, second posticum 152 and water port 117 lay respectively at the two ends of the second water stream channel 170, after making the water in flooding tube 130 enter the first water stream channel 160 from the first posticum 132, need flow through and almost could flow out from the second posticum 152 after whole first water stream channel 160, enter the second water stream channel 170, could discharge from water port 117 after almost whole second water stream channel 170 again, namely sewage need flow through almost whole first water stream channel 160 and whole second water stream channel 170, thus the first water stream channel 160 and the second water stream channel 170 can be fully utilized, sewage can contact with the plant 20 in the second water stream channel 170 fully with the first water stream channel 160, effectively improve the purification efficiency of sewage, improve decontamination effect improving, above-mentioned waste disposal plant 100 is made to have good purification efficiency and good decontamination effect improving.

(2) shell 110 of upper waste disposal plant 100 is circular cylinder body, and isolating bar 150 surrounds an arcuate structure, and from isolating bar 150 one end to the other end, the radius-of-curvature of arcuate structure is all equal, thus make the sidewall of the first water stream channel 160 and the second water stream channel 170 without corner, can ensure that water passes through smoothly, avoid corner existence and cause water alluvial problem.

(3) internal surface of the bottom 114 of the shell 110 of above-mentioned waste disposal plant 100 is protruding, with Shi Cong center to edge, the internal surface of the bottom 114 of shell 110 increases gradually to the distance of opening 112, making to stir ball 180 can voluntarily from the central slide of shell 110 to edge, advantageously stir in stirring ball 180 pairs of sewage, be conducive to improving purification efficiency and decontamination effect improving.

As shown in Figure 4, the similar of the waste disposal plant 400 of two embodiments and the waste disposal plant 100 of an embodiment, and the isolating bar 410 of the waste disposal plant 400 of two embodiments also surrounds an arcuate structure, difference is only: from one end of isolating bar 410 to the other end, the radius-of-curvature of arcuate structure increases gradually, and the second posticum 412 is positioned at the larger one end place of the radius-of-curvature of arcuate structure.First posticum 422 of flooding tube 420 is arranged towards one end that the radius-of-curvature of arcuate structure is less.This structure makes the direction of motion along current, and the width of the first water stream channel 430 and the second water stream channel 440 increases all gradually, and the first water stream channel 430 of this structure and the second water stream channel 440 are conducive to the processing efficiency improving sewage.

And due to the similar of the structure of the waste disposal plant 400 of two embodiments and the waste disposal plant 100 of an embodiment, therefore, the waste disposal plant 400 of two embodiments also has the advantage of the waste disposal plant 100 of an embodiment.

As shown in Figure 5, the waste disposal plant 500 of three embodiments is roughly the same with the structure of the waste disposal plant 100 of an embodiment, difference is only, the waste disposal plant 500 of three embodiments also comprises the multiple spaced space bar 520 be contained in the second water stream channel 510, the side, bottom of each space bar 520 is fixedly connected with division plate (not shown), two ends are fixedly connected with the sidewall of isolating bar 540 with shell 550 respectively, second water stream channel 510 is separated into multiple plant growing portion 512 by multiple space bar 520, and the plant difference in multiple plant growing portion 512.Each space bar 520 offers the 3rd posticum 522 being communicated with adjacent two plant growing portions 512.Because the material of different plant absorption is different, by arranging multiple plant growing portion 512, and the plant that plantation is different in multiple plant growing portion 512, to remove the different substances in sewage, thus make sewage can be more pure after above-mentioned waste disposal plant 500, be conducive to the decontamination effect improving improving sewage.

In the illustrated embodiment in which, space bar 520 is 5, and the second water stream channel 510 is separated into six plant growing portions 512 by 5 space bars 520.Be appreciated that space bar 512 is not limited to 5, in other embodiments, space bar 512 can also be less than 5 or be greater than 5.

Further, along the direction of motion of current, the area in multiple plant growing portion 512 reduces gradually.

And due to the similar of the structure of the waste disposal plant 500 of three embodiments and the waste disposal plant 100 of an embodiment, therefore, the waste disposal plant 500 of three embodiments also has the advantage of the waste disposal plant 100 of an embodiment.

As shown in Figure 6 and Figure 7, the similar of the structure of the waste disposal plant 600 of four embodiments and the waste disposal plant 100 of an embodiment, difference is only, the waste disposal plant 600 of four embodiments also comprises the drainage tube 610 of closed at both ends, drainage tube 610 is arranged in division plate 620, part drainage tube 610 is contained in the second water stream channel 630, another part drainage tube 610 is contained in the first accepting groove 640, and the sidewall of drainage tube 610 offers multiple water hole 612, wherein, water in second water stream channel 630 enters in drainage tube 610 by water hole 612, enter in the first accepting groove 640 through water hole 612 again.

Specifically in the illustrated embodiment in which, drainage tube 610 is L-type structure, the second support arm 616 that drainage tube 610 comprises the first support arm 614 and communicates with the first support arm 614, first support arm 614 is arranged in division plate 620, and a part of first support arm 614 is contained in the second water stream channel 630, another part first support arm 614 is accommodated in the first accepting groove 640, and the second support arm 616 is contained in the first accepting groove 640, and the first support arm 614 and the second support arm 616 all offer multiple water hole 612.

In the illustrated embodiment in which, first support arm 614 and the water port 650 of drainage tube 610 are positioned at the same side of division board 660, and the first support arm 614 is arranged near water port 650, to make the water circular treatment again after the second water stream channel 630 processes, to improve the purity of process water.Now, enter the water of the second water stream channel 630 after whole second water stream channel 630, a part of water is discharged from water port 650, and another part water enters into the first accepting groove 640 by the drainage tube 610 be arranged near water port 650, again circulates.

Be appreciated that in other embodiments, the first support arm 614 and the water port 650 of drainage tube 610 also can lay respectively at the both sides of division board 660, and namely the first support arm 614 of drainage tube 610 and the second posticum 670 are positioned at the same side of division board 660.

And due to the similar of the structure of the waste disposal plant 600 of four embodiments and the waste disposal plant 100 of an embodiment, therefore, the waste disposal plant 600 of four embodiments also has the advantage of the waste disposal plant 100 of an embodiment.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this specification sheets is recorded.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a waste disposal plant, is characterized in that, comprising:

Shell, for having the housing of an accommodating cavity, described shell has opening and the bottom relative with described opening, the sidewall of described shell offers water-in and water port;

Division plate, be contained in described shell, and the edge of described division plate is fixedly connected with the sidewall of described shell, and described accommodating cavity is separated into the first accepting groove and the second accepting groove, and described first accepting groove is connected with described water-in, described second accepting groove is connected with described water port; Described division plate offers the communicating aperture being communicated with described first accepting groove and described second accepting groove;

Flooding tube, be the cylindrical shell of one end open, described flooding tube is arranged in described communicating aperture, and is tightly connected with the sidewall of described communicating aperture, and the opening of described flooding tube is towards the bottom of described shell, and described flooding tube is connected with described first accepting groove; The sidewall of described flooding tube offers the first posticum;

Division board, be contained in described second accepting groove, the side of described division board is fixedly connected with described division plate, and the two ends of described division board are fixedly connected with the sidewall of described shell with the sidewall of described flooding tube respectively;

Isolating bar, be contained in described second accepting groove, described isolating bar arranges one week around described flooding tube, the side of described isolating bar is fixedly connected with described division plate, the two ends of described isolating bar are fixedly connected with two relative surfaces of described division board respectively, and described isolating bar and described division board, described division plate, described flooding tube coordinates the first water stream channel surrounding planting plants jointly, described first water stream channel is connected with described first posticum, described isolating bar and described division board, described division plate, described shell coordinates the second water stream channel surrounding planting plants jointly, described isolating bar offers the second posticum being communicated with described first water stream channel and described second water stream channel, described second posticum, described first posticum and described water port are all arranged near described division board, described second posticum and described first posticum are separated by by described division board, and described second posticum and described water port are separated by by described division board,

Wherein, sewage successively through described water-in, described first accepting groove, described flooding tube, described first posticum, described first water stream channel, described second posticum and described second water stream channel, and is discharged from described water port.

2. waste disposal plant according to claim 1, it is characterized in that, described isolating bar surrounds an arcuate structure, and from one end of described isolating bar to the other end, the radius-of-curvature of described arcuate structure increases gradually, one end place that the radius-of-curvature that described second posticum is positioned at described arcuate structure is larger.

3. waste disposal plant according to claim 1, is characterized in that, described isolating bar surrounds an arcuate structure, and from one end of described isolating bar to the other end, the radius-of-curvature of described arcuate structure is all equal.

4. waste disposal plant according to claim 1, is characterized in that, also comprises the stirring ball be contained in described first accepting groove, and described stirring ball can slide under the effect of described sewage on the bottom of described shell.

5. waste disposal plant according to claim 4, is characterized in that, the internal surface of the bottom of described shell is protruding, and with Shi Cong center to edge, the internal surface of the bottom of described shell increases gradually to the distance of opening.

6. waste disposal plant according to claim 4, is characterized in that, also comprise the barrier plate be fixedly arranged in described first accepting groove, described barrier plate comprises:

Plate-like body, the edge of described plate-like body is fixedly connected with the sidewall of described shell, and the middle part of described plate-like body offers communicating pores, and the position of described communicating pores is corresponding with the position of the opening of described flooding tube;

Stop bulge loop, be fixed on a surface of described plate-like body, and setting coaxial with described communicating pores;

Wherein, the side that described plate-like body is connected with described stop bulge loop is relative with the bottom of described shell, and described stop bulge loop is less than the diameter of described stirring ball, with the inside stoping described stirring ball to slide into described stop bulge loop away from the shortest distance of the internal surface of one end of described plate-like body and the bottom of described shell.

7. waste disposal plant according to claim 6, is characterized in that, the aperture of described communicating pores is greater than the external diameter of described flooding tube, to form water flow buffer region between the sidewall and the sidewall of described flooding tube of described communicating pores.

8. waste disposal plant according to claim 1, it is characterized in that, also comprise the multiple spaced space bar be contained in described second water stream channel, the side of each described space bar is fixedly connected with described division plate, and two ends are fixedly connected with described isolating bar with the sidewall of described shell respectively, described second water stream channel is separated into multiple plant growing portion by multiple described space bar, and the plant difference in multiple described plant growing portion; Each described space bar offers the 3rd posticum being communicated with adjacent two described plant growing portions.

9. waste disposal plant according to claim 1, it is characterized in that, also comprise the drainage tube of closed at both ends, described drainage tube is arranged in described division plate, the described drainage tube of a part is contained in described second water stream channel, drainage tube described in another part is contained in described first accepting groove, and the sidewall of described drainage tube offers multiple water hole, wherein, water in described second water stream channel enters in described drainage tube by described water hole, then enters in described first accepting groove through described water hole.

10. a sewage disposal assembly, be characterised in that, comprise multiple waste disposal plant as claimed in any one of claims 1 to 9 wherein and pipe connecting, the water port of a described waste disposal plant is connected with the water-in of waste disposal plant described in another by described pipe connecting.