WO2016169396A1 - Bioreaction wastewater treatment device - Google Patents

Abstract

A bioreaction wastewater treatment device comprises a frame body (1), a supporting device (2), a base (3), an impurity recovery device (4), a first stirring device (5), a second stirring device (6), a first filtering chamber (7), a second filtering chamber (8), and a third filtering chamber (9). The frame body (1) is provided with a first through hole (11), a first water outflow pipe (12), and a first valve (13). The supporting device (2) comprises a first vertical portion (22) and a first horizontal portion (21). The impurity recovery device (4) comprises a first positioning rod (41), a first supporting rod (42), a first connecting rod (43), a first fixed block (44), a horizontal rod (45), a holding portion (46), an impurity collecting box (47), a blocking plate (48), and a first sealing block (49). The first stirring device (5) comprises a first motor (51), a first rotating shaft (52), a first stirring rod (53), and a first enclosed ring (54). The second stirring device (6) comprises a second motor (61), a first support (62), a second rotating shaft (63), a second enclosed ring (64), a water inlet (65), a second stirring rod (66), and a second supporting rod (67). The first filtering chamber (7) comprises an automatically-filtering membrane (71), a supporting plate (72), a first vertical rod (73), a second vertical rod (74), a first obstructing plate (75), a fourth groove (76), and a first passage (77). The device effectively separates water from impurities by means of multilevel treatment.

Description

一种生物反应污水处理装置Biological reaction sewage treatment device 技术领域Technical field

本发明涉及环保技术领域，尤其是涉及一种生物反应污水处理装置。The invention relates to the technical field of environmental protection, in particular to a biological reaction sewage treatment device.

背景技术Background technique

随着社会经济的迅速发展，生态环境也同时受到了破坏，自然水体污染与富营养化日益严重，特别是在一些偏远地区的小城镇和农村，由于村屯住宅分散，生活污水不易集中处理，多数居民、农户的污水不做任何处理或只经化粪池简单处理便直接排放，使得自然环境状况更加恶化，小城镇和农村生活污水的污染，已经成为当前环境保护必须解决的重要问题，因而，用于小城镇和农村生活污水处理的方法纷纷推出，其中最常见的是人工湿地方法，这种污水处理方法由于工艺结构简单，工程投资少，操作管理方便，运行费用低，成为目前生活污水分散治理的首选工艺，已在小城镇和农村中普遍使用，但人工湿地方法，其工艺结构虽然简单，但却存在生化过程不完善，占地面积大，污染物负荷低，运行不稳定，水力性能差等缺点，因而这种方法处理的效果不够理想，难以达到预期的出水质要求。With the rapid development of the social economy, the ecological environment has also been destroyed at the same time, natural water pollution and eutrophication are becoming more and more serious, especially in small towns and rural areas in some remote areas. Due to the scattered residential houses, domestic sewage is not easy to be treated centrally. The sewage of most residents and farmers is not treated at all or directly discharged by simple treatment of septic tanks, which makes the natural environment worse. The pollution of small towns and rural domestic sewage has become an important issue that must be solved in current environmental protection. Methods for the treatment of small towns and rural domestic sewage have been launched, the most common of which is the constructed wetland method. This sewage treatment method has become a domestic sewage because of its simple process structure, low engineering investment, convenient operation and management, and low operating cost. The preferred process for decentralized treatment has been widely used in small towns and rural areas. However, although the artificial wetland method has a simple process structure, it has imperfect biochemical processes, large land area, low pollutant load, unstable operation, and hydraulic power. Shortcomings such as poor performance, so the effectiveness of this method Not ideal, it is difficult to achieve the desired water quality requirements.

因此，有必要提供一种新的技术方案以克服上述缺陷。Therefore, it is necessary to provide a new technical solution to overcome the above drawbacks.

发明内容 Summary of the invention

本发明的目的在于提供一种可有效解决上述技术问题的生物反应污水处理装置。It is an object of the present invention to provide a biological reaction sewage treatment apparatus which can effectively solve the above technical problems.

为达到本发明之目的，采用如下技术方案：In order to achieve the object of the present invention, the following technical solutions are adopted:

一种生物反应污水处理装置,所述生物反应污水处理装置包括框体、位于所述框体下方的支架装置、位于所述支架装置下方的底座、设置于所述框体下方的杂质回收装置、位于所述杂质回收装置之间的第一搅拌装置、设置于所述框体上的第二搅拌装置、位于所述第二搅拌装置右侧的第一过滤室、位于所述第一过滤室下方的第二过滤室及位于所述第二过滤室下方的第三过滤室，所述框体的右表面上设有第一通孔、位于所述第一通孔右侧的第一出水管及设置于所述第一出水管上的第一阀门，所述支架装置包括第一竖直部及位于所述第一竖直部上方的第一水平部，所述杂质回收装置包括第一定位杆、位于所述第一定位杆上方的第一支撑杆、设置于所述第一支撑杆上的第一连接杆、位于所述第一连接杆左侧的第一固定块、位于所述第一固定块左侧的水平杆、位于所述水平杆左侧的握持部、位于所述握持部下方的杂质收料箱、位于所述第一连接杆上方的堵塞板及位于所述堵塞板周围的第一封闭块，所述第一搅拌装置包括第一电机、位于所述第一电机上方的第一转轴、位于所述第一转轴上方的第一搅拌杆及设置于所述第一转轴上的第一封闭环，所述第二搅拌装置包括第二电机、位于所述第二电机右侧的第一支架、位于所述第二电机下方的第二转轴、位于所述第二转轴周围的第二封闭环、位于所述第二转轴一侧的进水口、位于所述第二转轴下方的第二搅拌杆及位于所述第二搅拌杆下方 的第二支撑杆，所述第一过滤室包括自动过滤膜、位于所述自动过滤膜右侧的支撑板、位于所述支撑板右侧的第一竖杆、位于所述第一竖杆下方的第二竖杆、位于所述第一竖杆右侧的第一阻隔板、设置于所述第一阻隔板上的第四凹槽及位于所述第四凹槽下方的第一通道，所述第一过滤室与所述第二过滤室之间设有第一分隔板，所述第二过滤室与所述第三过滤室之间设有第二分隔板，所述第二分隔板上设有若干贯穿其上下表面的第二透孔，所述第二过滤室中设有进料管及第二阻隔板，所述第三过滤室内设有过滤网及位于所述过滤网下方的格栅，所述第一定位杆呈L型，所述第一定位杆包括第二竖直部及位于所述第二竖直部下方的第二水平部，所述第二竖直部的上表面与所述框体的下表面固定连接，所述第一支撑杆的上表面与所述框体的下表面固定连接，所述第一支撑杆的下端设有第一凹槽，所述第一连接杆呈L型，所述第一连接杆的一端收容于所述第一凹槽中且与所述第一支撑杆轴转连接，所述第一连接杆的另一端与所述堵塞板的下表面固定连接，所述第一固定块的下表面与所述第二水平部的上表面接触，所述第一固定块的上表面与所述堵塞板的下表面接触，所述第一竖杆的上表面与所述框体的内表面固定连接，所述第二竖杆的下表面与所述第一分隔板的上表面固定连接，所述第二竖杆上设有贯穿其左右表面的第一透孔，所述第二竖杆上表面的高度高于所述第一竖杆下表面的高度。A biological reaction sewage treatment device, comprising: a frame body, a bracket device located below the frame body, a base located below the bracket device, and an impurity recovery device disposed under the frame body, a first stirring device located between the impurity recovery devices, a second agitating device disposed on the frame body, a first filtering chamber located at a right side of the second agitating device, and located below the first filtering chamber a second filter chamber and a third filter chamber located below the second filter chamber, a first through hole on the right surface of the frame, a first outlet pipe located on the right side of the first through hole, and a first valve disposed on the first outlet pipe, the bracket device includes a first vertical portion and a first horizontal portion above the first vertical portion, and the impurity recovery device includes a first positioning rod a first support rod located above the first positioning rod, a first connecting rod disposed on the first support rod, and a first fixed block located on a left side of the first connecting rod, located at the first The horizontal bar on the left side of the fixed block, a grip portion located on a left side of the horizontal rod, an impurity receiving box located below the grip portion, a blocking plate located above the first connecting rod, and a first closing block located around the blocking plate, The first stirring device includes a first motor, a first rotating shaft located above the first motor, a first stirring rod located above the first rotating shaft, and a first closed ring disposed on the first rotating shaft, The second stirring device includes a second motor, a first bracket located on the right side of the second motor, a second rotating shaft located below the second motor, and a second closed ring located around the second rotating shaft. a water inlet on a side of the second rotating shaft, a second stirring rod located below the second rotating shaft, and below the second stirring rod a second support rod, the first filter chamber comprising an automatic filter membrane, a support plate on the right side of the automatic filter membrane, a first vertical rod on the right side of the support plate, under the first vertical rod a second vertical rod, a first baffle plate on the right side of the first vertical rod, a fourth groove disposed on the first baffle plate, and a first channel located below the fourth groove a first partitioning plate is disposed between the first filtering chamber and the second filtering chamber, and a second dividing panel is disposed between the second filtering chamber and the third filtering chamber, the second dividing point The partition plate is provided with a plurality of second through holes penetrating the upper and lower surfaces thereof, the second filter chamber is provided with a feed pipe and a second baffle plate, and the third filter chamber is provided with a filter net and is located at the filter net a lower grille, the first positioning rod is L-shaped, the first positioning rod includes a second vertical portion and a second horizontal portion located below the second vertical portion, the second vertical portion The upper surface is fixedly connected to the lower surface of the frame, and the upper surface of the first support rod is fixedly connected to the lower surface of the frame a first groove is disposed at a lower end of the first support rod, the first connecting rod is L-shaped, and one end of the first connecting rod is received in the first groove and is opposite to the first support The shaft is pivotally connected, the other end of the first connecting rod is fixedly connected to the lower surface of the blocking plate, and the lower surface of the first fixing block is in contact with the upper surface of the second horizontal portion, the first An upper surface of the fixing block is in contact with a lower surface of the blocking plate, an upper surface of the first vertical rod is fixedly connected with an inner surface of the frame body, and a lower surface of the second vertical rod is opposite to the first portion The upper surface of the partition plate is fixedly connected, and the second vertical rod is provided with a first through hole penetrating through the left and right surfaces thereof, and the height of the upper surface of the second vertical rod is higher than the height of the lower surface of the first vertical rod.

所述水平杆呈圆柱体，所述水平杆水平放置，所述水平杆的右表面与所述第一固定块的左表面固定连接，所述水平杆的左表面与所述 握持部的右表面固定连接。The horizontal rod is in a cylinder, the horizontal rod is horizontally placed, the right surface of the horizontal rod is fixedly connected to the left surface of the first fixed block, and the left surface of the horizontal rod is The right surface of the grip is fixedly connected.

所述杂质收料箱呈长方体，所述杂质收料箱的上表面向下凹陷形成第一收容槽，所述杂质收料箱位于所述第一定位杆左端的正下方。The impurity receiving box has a rectangular parallelepiped shape, and the upper surface of the impurity receiving box is recessed downward to form a first receiving groove, and the impurity receiving box is located directly below the left end of the first positioning rod.

所述堵塞板呈长方体，所述堵塞板的下表面与所述框体的下表面处于同一平面内，所述第一封闭块呈空心的长方体，所述第一封闭块的外表面与所述框体固定连接，所述第一封闭块的内表面与所述堵塞板的侧面紧密接触。The blocking plate has a rectangular parallelepiped shape, a lower surface of the blocking plate is in the same plane as a lower surface of the frame body, the first closing block has a hollow rectangular parallelepiped, an outer surface of the first closing block and the outer surface The frame is fixedly connected, and an inner surface of the first closing block is in close contact with a side surface of the blocking plate.

所述第一转轴呈圆柱体，所述第一转轴竖直放置，所述第一转轴的下端与所述第一电机连接，所述第一转轴的上端穿过所述框体的下表面延伸至所述框体的内部。The first rotating shaft is a cylinder, the first rotating shaft is vertically placed, the lower end of the first rotating shaft is connected to the first motor, and the upper end of the first rotating shaft extends through a lower surface of the frame To the inside of the frame.

所述第一封闭环呈圆环状，所述第一封闭环的内表面与所述第一转轴的侧面紧密接触，所述第一封闭环的外表面与所述框体固定连接。The first closed ring has an annular shape, and an inner surface of the first closed ring is in close contact with a side surface of the first rotating shaft, and an outer surface of the first closed ring is fixedly connected to the frame.

所述第一搅拌杆呈圆柱体，所述第一搅拌杆的上表面向下凹陷形成第二收容槽，所述第一转轴的上表面与所述第一搅拌杆的下表面固定连接，所述第一搅拌杆的侧面上设有若干第二通孔。The first stirring rod has a cylindrical shape, and the upper surface of the first stirring rod is recessed downward to form a second receiving groove, and an upper surface of the first rotating shaft is fixedly connected with a lower surface of the first stirring rod. A plurality of second through holes are formed on the side of the first stirring rod.

所述自动过滤膜呈长方体，所述自动过滤膜竖直放置，所述自动过滤膜的侧面与所述框体的内表面固定连接，所述自动过滤膜的下表面与所述第一分隔板的上表面固定连接。The automatic filter membrane is in the shape of a rectangular parallelepiped, the automatic filter membrane is placed vertically, the side surface of the automatic filter membrane is fixedly connected to the inner surface of the frame body, and the lower surface of the automatic filter membrane is separated from the first partition The upper surface of the board is fixedly connected.

所述支撑板呈长方体，所述支撑板的侧面与所述框体的内表面固定连接，所述支撑板的下表面与所述第一分隔板的上表面固定连接，所述自动过滤膜的右表面与所述支撑板的左表面固定连接，所述支撑 板上设有若干贯穿其左右表面的通孔。The support plate has a rectangular parallelepiped shape, and a side surface of the support plate is fixedly connected to an inner surface of the frame body, and a lower surface of the support plate is fixedly connected to an upper surface of the first partition plate, the automatic filter film The right surface is fixedly coupled to the left surface of the support plate, the support The plate is provided with a plurality of through holes extending through the left and right surfaces thereof.

所述第四凹槽与所述第一通道相通。The fourth groove is in communication with the first channel.

与现有技术相比，本发明具有如下有益效果：本发明生物反应污水处理装置结构简单，使用方便，能够快速的对污水进行处理，防止其污染环境，同时自动过滤膜的生成，有利于对污水进行快速的过滤，且过滤效果好，同时对其中杂质的收集较为方便，在对过滤完后的污水进行回收时，能够将水与杂质进行有效的分离，且回收方便快速，提高了工作效率，节约了成本。Compared with the prior art, the invention has the following beneficial effects: the biological reaction sewage treatment device of the invention has the advantages of simple structure, convenient use, rapid treatment of sewage, prevention of environmental pollution, and automatic filter membrane formation, which is beneficial to The sewage is quickly filtered, and the filtration effect is good. At the same time, the collection of impurities is convenient. When the sewage after filtration is recovered, the water and impurities can be effectively separated, and the recovery is convenient and rapid, and the work efficiency is improved. , saving costs.

附图说明DRAWINGS

图1为本发明生物反应污水处理装置的结构示意图。1 is a schematic view showing the structure of a biological reaction sewage treatment device of the present invention.

具体实施方式detailed description

下面将结合附图对本发明生物反应污水处理装置做出清楚完整的说明。The bioreactor sewage treatment apparatus of the present invention will be clearly and completely described below with reference to the accompanying drawings.

如图1所示，本发明生物反应污水处理装置包括框体1、位于所述框体1下方的支架装置2、位于所述支架装置2下方的底座3、设置于所述框体1下方的杂质回收装置4、位于所述杂质回收装置4之间的第一搅拌装置5、设置于所述框体1上的第二搅拌装置6、位于所述第二搅拌装置6右侧的第一过滤室7、位于所述第一过滤室7下方的第二过滤室8及位于所述第二过滤室8下方的第三过滤室9。As shown in FIG. 1 , the biological reaction sewage treatment device of the present invention comprises a frame body 1 , a bracket device 2 located below the frame body 2 , a base 3 located below the frame device 2 , and a frame 3 disposed below the frame body 1 . An impurity recovery device 4, a first agitation device 5 located between the impurity recovery devices 4, a second agitation device 6 disposed on the frame body 1, and a first filter located on the right side of the second agitation device 6 a chamber 7, a second filter chamber 8 located below the first filter chamber 7, and a third filter chamber 9 located below the second filter chamber 8.

如图1所示，所述框体1呈长方体，所述框体1的右表面上设有第一通孔11、位于所述第一通孔11右侧的第一出水管12及设置于所述第一出水管12上的第一阀门13。所述第一通孔11呈圆柱体状， 所述第一通孔11使得所述框体1的外部空间与其内部空间相通。所述第一出水管12的左端对准所述第一通孔11且与所述框体1的右表面固定连接，使得所述第一出水管12的内部与所述框体1的内部空间相通。所述第一阀门13设置于所述第一出水管12中，用于控制所述第一出水管12中水的流量。As shown in FIG. 1 , the frame body 1 has a rectangular parallelepiped shape, and a first through hole 11 is disposed on a right surface of the frame body 1 , a first water outlet pipe 12 located at a right side of the first through hole 11 , and The first valve 13 on the first outlet pipe 12. The first through hole 11 has a cylindrical shape. The first through hole 11 allows the outer space of the frame 1 to communicate with its inner space. The left end of the first water outlet pipe 12 is aligned with the first through hole 11 and is fixedly connected to the right surface of the frame body 1 such that the interior of the first water outlet pipe 12 and the inner space of the frame body 1 The same. The first valve 13 is disposed in the first outlet pipe 12 for controlling the flow rate of water in the first outlet pipe 12.

如图1所示，所述支架装置2设有两个且分别位于左右两侧，所述支架装置2包括第一竖直部22及位于所述第一竖直部22上方的第一水平部21。所述第一竖直部22呈长方体，所述第一竖直部22竖直放置，所述第一竖直部22的下表面与所述底座3的上表面固定连接，所述第一竖直部22的上表面与所述第一水平部21的下表面固定连接。所述第一水平部21呈长方体，所述第一水平部21水平放置，所述第一水平部21的侧面与所述框体1的侧面固定连接，从而对所述框体1起到支撑作用。所述底座3呈长方体，所述底座3水平放置。As shown in FIG. 1 , the bracket device 2 is provided with two and respectively located on the left and right sides, and the bracket device 2 includes a first vertical portion 22 and a first horizontal portion located above the first vertical portion 22 . twenty one. The first vertical portion 22 is a rectangular parallelepiped, the first vertical portion 22 is vertically placed, and a lower surface of the first vertical portion 22 is fixedly connected to an upper surface of the base 3, the first vertical portion The upper surface of the straight portion 22 is fixedly coupled to the lower surface of the first horizontal portion 21. The first horizontal portion 21 is a rectangular parallelepiped, the first horizontal portion 21 is horizontally placed, and the side surface of the first horizontal portion 21 is fixedly connected to the side surface of the frame body 1 to support the frame body 1 effect. The base 3 has a rectangular parallelepiped, and the base 3 is horizontally placed.

如图1所示，所述杂质回收装置4设有两个且分别位于左右两侧，所述杂质回收装置4包括第一定位杆41、位于所述第一定位杆41上方的第一支撑杆42、设置于所述第一支撑杆42上的第一连接杆43、位于所述第一连接杆43左侧的第一固定块44、位于所述第一固定块44左侧的水平杆45、位于所述水平杆45左侧的握持部46、位于所述握持部46下方的杂质收料箱47、位于所述第一连接杆43上方的堵塞板48及位于所述堵塞板48周围的第一封闭块49。所述第一定位杆41呈L型，所述第一定位杆41包括第二竖直部及位于所述第二竖直部下方的第二水平部，所述第二竖直部与所述第二水平部一体成 型。所述第二竖直部呈长方体，所述第二竖直部的上表面与所述框体1的下表面固定连接。所述第二水平部呈长方体，所述第二水平部水平放置。所述第一支撑杆42呈长方体，所述第一支撑杆42竖直放置，所述第一支撑杆42的上表面与所述框体1的下表面固定连接，所述第一支撑杆42的下端设有第一凹槽421，所述第一凹槽421呈长方体状。所述第一连接杆43呈L型，所述第一连接杆43的一端收容于所述第一凹槽421中且与所述第一支撑杆42轴转连接，使得所述第一连接杆43可以围绕所述第一支撑杆42的下端旋转，所述第一连接杆43的另一端与所述堵塞板48的下表面固定连接。所述第一固定块44呈长方体，所述第一固定块44的下表面与所述第二水平部的上表面接触，所述第一固定块44的上表面与所述堵塞板48的下表面接触。所述水平杆45呈圆柱体，所述水平杆45水平放置，所述水平杆45的右表面与所述第一固定块44的左表面固定连接，所述水平杆45的左表面与所述握持部46的右表面固定连接。所述握持部46呈圆柱体，所述握持部46竖直放置。所述杂质收料箱47呈长方体，所述杂质收料箱47的上表面向下凹陷形成第一收容槽471，所述第一收容槽471呈长方体状，所述杂质收料箱47位于所述第一定位杆41左端的正下方。所述堵塞板48呈长方体，所述堵塞板48水平放置，所述堵塞板48的下表面与所述框体1的下表面处于同一平面内。所述第一封闭块49呈空心的长方体，所述第一封闭块49的上下表面相通，所述第一封闭块49的外表面与所述框体1固定连接，所述第一封闭块49的内表面与所述堵塞板48的侧面紧密接触，从而防止框体1内部的通 过第一封闭块49及堵塞板48渗入到框体1的下方。As shown in FIG. 1 , the impurity recovery device 4 is provided with two and respectively located on the left and right sides, and the impurity recovery device 4 includes a first positioning rod 41 and a first support rod located above the first positioning rod 41 . 42. A first connecting rod 43 disposed on the first supporting rod 42 , a first fixing block 44 located on the left side of the first connecting rod 43 , and a horizontal rod 45 located on the left side of the first fixing block 44 . a grip portion 46 located on the left side of the horizontal rod 45, an impurity receiving box 47 located below the grip portion 46, a blocking plate 48 located above the first connecting rod 43 and the blocking plate 48 The first enclosed block 49 around. The first positioning rod 41 is L-shaped, and the first positioning rod 41 includes a second vertical portion and a second horizontal portion located below the second vertical portion, the second vertical portion and the second vertical portion The second horizontal part is integrated type. The second vertical portion is a rectangular parallelepiped, and an upper surface of the second vertical portion is fixedly coupled to a lower surface of the frame body 1. The second horizontal portion is in the shape of a rectangular parallelepiped, and the second horizontal portion is horizontally placed. The first support rod 42 is a rectangular parallelepiped, the first support rod 42 is vertically placed, and the upper surface of the first support rod 42 is fixedly connected to the lower surface of the frame body 1 , and the first support rod 42 is The lower end is provided with a first recess 421, and the first recess 421 has a rectangular parallelepiped shape. The first connecting rod 43 is L-shaped, and one end of the first connecting rod 43 is received in the first recess 421 and is pivotally connected to the first supporting rod 42 such that the first connecting rod 43 is rotatable about a lower end of the first support rod 42, and the other end of the first connecting rod 43 is fixedly coupled to a lower surface of the blocking plate 48. The first fixing block 44 has a rectangular parallelepiped shape, and a lower surface of the first fixing block 44 is in contact with an upper surface of the second horizontal portion, and an upper surface of the first fixing block 44 and the lower surface of the blocking plate 48 Surface contact. The horizontal rod 45 is a cylinder, the horizontal rod 45 is horizontally placed, the right surface of the horizontal rod 45 is fixedly connected with the left surface of the first fixing block 44, and the left surface of the horizontal rod 45 is The right surface of the grip portion 46 is fixedly connected. The grip portion 46 is in the form of a cylinder, and the grip portion 46 is placed vertically. The impurity receiving box 47 has a rectangular parallelepiped shape, and the upper surface of the impurity receiving box 47 is recessed downward to form a first receiving groove 471. The first receiving groove 471 has a rectangular parallelepiped shape, and the impurity receiving box 47 is located at the The first positioning rod 41 is directly below the left end. The blocking plate 48 has a rectangular parallelepiped shape, and the blocking plate 48 is horizontally placed, and the lower surface of the blocking plate 48 is in the same plane as the lower surface of the frame 1. The first closing block 49 has a hollow rectangular parallelepiped, the upper and lower surfaces of the first closing block 49 communicate with each other, and the outer surface of the first closing block 49 is fixedly connected with the frame body 1, and the first closing block 49 is The inner surface is in close contact with the side surface of the blocking plate 48, thereby preventing the inside of the frame 1 from being passed The first closing block 49 and the blocking plate 48 penetrate into the lower side of the frame 1.

如图1所示，所述第一搅拌装置5包括第一电机51、位于所述第一电机51上方的第一转轴52、位于所述第一转轴52上方的第一搅拌杆53及设置于所述第一转轴52上的第一封闭环54。所述第一电机51的下表面与所述底座3的上表面固定连接。所述第一转轴52呈圆柱体，所述第一转轴52竖直放置，所述第一转轴52的下端与所述第一电机51连接，使得所述第一转轴52在所述第一电机51的作用下旋转，所述第一转轴52的上端穿过所述框体1的下表面延伸至所述框体1的内部。所述第一封闭环54呈圆环状，所述第一封闭环54的内表面与所述第一转轴52的侧面紧密接触，所述第一封闭环54的外表面与所述框体1固定连接，从而可以使得第一封闭环54上方的水无法渗入到框体1下方。所述第一搅拌杆53呈圆柱体，所述第一搅拌杆53的上表面向下凹陷形成第二收容槽531，所述第二收容槽531呈圆柱体状，所述第一搅拌杆53水平放置，所述第一转轴52的上表面与所述第一搅拌杆53的下表面固定连接，所述第一搅拌杆53的侧面上设有若干第二通孔532，所述第二通孔532呈圆柱体状，使得第一搅拌杆53旋转时，带动其上的物体左离心运用，水和体积较小的颗粒可以通过第二通孔532进入到第一搅拌杆53的外部，进而进行回收，体积较大的颗粒则只能留在第一搅拌杆53上。As shown in FIG. 1 , the first stirring device 5 includes a first motor 51 , a first rotating shaft 52 located above the first motor 51 , a first stirring rod 53 located above the first rotating shaft 52 , and a first closed loop 54 on the first shaft 52. The lower surface of the first motor 51 is fixedly coupled to the upper surface of the base 3. The first rotating shaft 52 is a cylinder, the first rotating shaft 52 is vertically placed, and the lower end of the first rotating shaft 52 is connected with the first motor 51 such that the first rotating shaft 52 is at the first motor. Rotating under the action of 51, the upper end of the first rotating shaft 52 extends through the lower surface of the frame 1 to the inside of the frame 1. The first closed ring 54 has an annular shape, and an inner surface of the first closed ring 54 is in close contact with a side surface of the first rotating shaft 52, and an outer surface of the first closed ring 54 and the frame 1 are The connection is fixed so that water above the first closed loop 54 cannot penetrate below the frame 1. The first agitating rod 53 has a cylindrical shape, and the upper surface of the first agitating rod 53 is recessed downward to form a second receiving groove 531. The second receiving groove 531 has a cylindrical shape, and the first stirring rod 53 is The upper surface of the first rotating shaft 52 is fixedly connected to the lower surface of the first stirring rod 53 , and the second side of the first stirring rod 53 is provided with a plurality of second through holes 532 . The hole 532 has a cylindrical shape, so that when the first stirring rod 53 rotates, the object on the left side is driven to centrifuge, and the water and the smaller volume particles can enter the outside of the first stirring rod 53 through the second through hole 532, thereby further For recycling, the larger particles can only remain on the first stirring rod 53.

如图1所示，所述第二搅拌装置6包括第二电机61、位于所述第二电机61右侧的第一支架62、位于所述第二电机62下方的第二转轴63、位于所述第二转轴63周围的第二封闭环64、位于所述第二转 轴63一侧的进水口65、位于所述第二转轴63下方的第二搅拌杆66及位于所述第二搅拌杆66下方的第二支撑杆67。所述第二电机61位于所述框体1的上方。所述第一支架62呈L型，所述第一支架62的一端与所述框体1的上表面固定连接，所述第一支架62的另一端与所述第二电机61的右表面固定连接。所述第二转轴63呈圆柱体，所述第二转轴63竖直放置，所述第二转轴63的上端与所述第二电机61连接，使得所述第二电机61带动所述第二转轴63旋转，所述第二转轴63的下端穿过所述框体1的上表面延伸至所述框体1的内部。所述第二封闭环64呈圆环状，所述第二封闭环64的外表面与所述框体1固定连接，所述第二封闭环64的内表面与所述第二转轴63紧密接触，使得所述第二转轴63可以旋转。所述进水口65设置于所述框体1的上表面上，且与所述框体1的内部相通，使得污水可以从所述进水口65进入到框体1的内部。所述第二搅拌杆66呈圆柱体，所述第二搅拌杆66水平放置，所述第二搅拌杆66的上表面向下凹陷形成第三收容槽661，所述第三收容槽661呈圆柱体状，所述第二搅拌杆66的侧面上设有若干竖直排列的第三通孔662，所述第三通孔662呈圆柱体状，使得第二搅拌装置6进行旋转搅拌时，使得体积较大的颗粒留在第三凹槽661中，体积较小的颗粒及水进入到下一工序。所述第二搅拌杆66的下表面上设有圆槽，所述圆槽呈圆柱体状。所述第二支撑杆67呈圆柱体，所述第二支撑杆67竖直放置，所述第二支撑杆67的上端收容于所述圆槽中，使得所述第二搅拌杆66可以围绕所述第二支撑杆67旋转。 As shown in FIG. 1, the second stirring device 6 includes a second motor 61, a first bracket 62 located on the right side of the second motor 61, and a second rotating shaft 63 located below the second motor 62. a second closed ring 64 around the second rotating shaft 63, located at the second turn A water inlet 65 on one side of the shaft 63, a second agitating rod 66 located below the second rotating shaft 63, and a second supporting rod 67 located below the second stirring rod 66. The second motor 61 is located above the frame 1 . The first bracket 62 is L-shaped, one end of the first bracket 62 is fixedly connected to the upper surface of the frame body 1, and the other end of the first bracket 62 is fixed to the right surface of the second motor 61. connection. The second rotating shaft 63 is a cylinder, the second rotating shaft 63 is vertically placed, and the upper end of the second rotating shaft 63 is connected to the second motor 61, so that the second motor 61 drives the second rotating shaft. 63 is rotated, and the lower end of the second rotating shaft 63 extends through the upper surface of the frame 1 to the inside of the frame 1. The second closed ring 64 is annular, and the outer surface of the second closed ring 64 is fixedly connected to the frame 1. The inner surface of the second closed ring 64 is in close contact with the second rotating shaft 63. So that the second rotating shaft 63 can be rotated. The water inlet 65 is disposed on the upper surface of the frame 1 and communicates with the interior of the frame 1 so that sewage can enter the interior of the frame 1 from the water inlet 65. The second stirring rod 66 is in the shape of a cylinder, and the second stirring rod 66 is horizontally disposed. The upper surface of the second stirring rod 66 is recessed downward to form a third receiving groove 661. The third receiving groove 661 is a cylinder. a plurality of vertically arranged third through holes 662 are formed on the side of the second stirring rod 66, and the third through holes 662 are in a cylindrical shape, so that when the second stirring device 6 performs rotational stirring, The larger particles remain in the third groove 661, and the smaller particles and water enter the next process. The lower surface of the second stirring rod 66 is provided with a circular groove, and the circular groove has a cylindrical shape. The second support rod 67 is a cylinder, the second support rod 67 is placed vertically, and the upper end of the second support rod 67 is received in the circular groove, so that the second stirring rod 66 can surround the The second support rod 67 rotates.

如图1所示，所述第一过滤室7包括自动过滤膜71、位于所述自动过滤膜71右侧的支撑板72、位于所述支撑板72右侧的第一竖杆73、位于所述第一竖杆73下方的第二竖杆74、位于所述第一竖杆73右侧的第一阻隔板75、设置于所述第一阻隔板75上的第四凹槽76及位于所述第四凹槽76下方的第一通道77。所述第一过滤室7与所述第二过滤室8之间设有第一分隔板，所述第一分隔板呈长方体，所述第一分隔板水平放置，所述第一分隔板的侧面与所述框体1的侧面固定连接。所述第一通道77呈Z字形，所述第一通道77设置于所述第一分隔板上，所述第一通道77的上端及下端分别与所述第一分隔板的上表面及下表面相通。所述自动过滤膜71呈长方体，所述自动过滤膜71竖直放置，所述自动过滤膜71的侧面与所述框体1的内表面固定连接，所述自动过滤膜71的下表面与所述第一分隔板的上表面固定连接。所述支撑板72呈长方体，所述支撑板72的侧面与所述框体1的内表面固定连接，所述支撑板72的下表面与所述第一分隔板的上表面固定连接，所述自动过滤膜71的右表面与所述支撑板72的左表面固定连接，所述支撑板72上设有若干贯穿其左右表面的通孔(未图示)，经过所述自动过滤膜71的过滤作用后穿过支撑板72上的通孔进入到支撑板72的右侧。所述第一竖杆73呈长方体，所述第一竖杆73的上表面与所述框体1的内表面固定连接，所述第一竖杆73的下表面与所述第一分隔板的上表面存在一定距离。所述第二竖杆74呈长方体，所述第二竖杆74竖直放置，所述第二竖杆74的下表面与所述第一分隔板的上表面固定连接，所述第二竖杆75上设 有贯穿其左右表面的第一透孔741，所述第一透孔741呈圆柱体状，从而可以使得体积较大的颗粒留在所述第二竖杆74的左侧，同时第一竖杆73使得污水必须从下方经过，从而使得第二竖杆74可以对污水起到过滤作用，所述第二竖杆74上表面的高度高于所述第一竖杆73下表面的高度。所述第一阻隔板75呈长方体，所述第一阻隔板75竖直放置，所述第一阻隔板75的侧面与所述框体1的内表面固定连接，所述第一阻隔板75的下表面与所述第一分隔板的上表面固定连接。所述第四凹槽76呈长方体状，所述第四凹槽76与所述第一阻隔板75的左表面及下表面相通，所述第一通道77的上端对准所述第四凹槽76，从而使得第一过滤室7中的污水进入到第二过滤室8中。As shown in FIG. 1, the first filter chamber 7 includes an automatic filter membrane 71, a support plate 72 located on the right side of the automatic filter membrane 71, and a first vertical rod 73 located on the right side of the support plate 72. a second vertical rod 74 below the first vertical rod 73, a first blocking plate 75 on the right side of the first vertical rod 73, a fourth groove 76 disposed on the first blocking plate 75, and a seat The first passage 77 below the fourth recess 76 is described. a first partitioning plate is disposed between the first filtering chamber 7 and the second filtering chamber 8, the first dividing panel is a rectangular parallelepiped, and the first dividing panel is horizontally placed, the first branch The side surface of the partition plate is fixedly connected to the side surface of the frame body 1. The first passage 77 is in a zigzag shape, and the first passage 77 is disposed on the first partitioning plate, and the upper end and the lower end of the first passage 77 are respectively opposite to the upper surface of the first partitioning plate and The lower surface is connected. The automatic filter membrane 71 is a rectangular parallelepiped, the automatic filter membrane 71 is placed vertically, the side surface of the automatic filter membrane 71 is fixedly connected to the inner surface of the frame body 1, and the lower surface of the automatic filter membrane 71 is The upper surface of the first partitioning plate is fixedly connected. The support plate 72 has a rectangular parallelepiped shape, and the side surface of the support plate 72 is fixedly connected to the inner surface of the frame body 1. The lower surface of the support plate 72 is fixedly connected to the upper surface of the first partition plate. The right surface of the automatic filter film 71 is fixedly connected to the left surface of the support plate 72. The support plate 72 is provided with a plurality of through holes (not shown) penetrating through the left and right surfaces thereof, passing through the automatic filter film 71. After filtering, it passes through the through hole in the support plate 72 to enter the right side of the support plate 72. The first vertical rod 73 has a rectangular parallelepiped shape, and an upper surface of the first vertical rod 73 is fixedly connected to an inner surface of the frame body 1 , and a lower surface of the first vertical rod 73 and the first partition plate There is a certain distance on the upper surface. The second vertical rod 74 is a rectangular parallelepiped, the second vertical rod 74 is vertically placed, and the lower surface of the second vertical rod 74 is fixedly connected with the upper surface of the first partitioning plate, the second vertical Rod 75 There is a first through hole 741 penetrating through the left and right surfaces thereof, the first through hole 741 has a cylindrical shape, so that a larger volume of particles can be left on the left side of the second vertical rod 74 while the first vertical rod 73 causes the sewage to pass underneath, so that the second vertical rod 74 can filter the sewage, and the height of the upper surface of the second vertical rod 74 is higher than the height of the lower surface of the first vertical rod 73. The first baffle plate 75 is a rectangular parallelepiped, the first baffle plate 75 is vertically disposed, and the side surface of the first baffle plate 75 is fixedly connected to the inner surface of the frame body 1 , and the first baffle plate 75 is The lower surface is fixedly coupled to the upper surface of the first partitioning plate. The fourth groove 76 has a rectangular parallelepiped shape, the fourth groove 76 communicates with the left and lower surfaces of the first baffle plate 75, and the upper end of the first channel 77 is aligned with the fourth groove. 76, thereby causing the sewage in the first filter chamber 7 to enter the second filter chamber 8.

如图1所示，所述第二过滤室8与所述第三过滤室9之间设有第二分隔板，所述第二分隔板呈长方体，所述第二分隔板水平放置，所述第二分隔板的侧面与所述框体1的内表面固定连接，从而使得所述第二分隔板上下空间阻隔开来。所述第二分隔板上设有若干贯穿其上下表面的第二透孔83，所述第二透孔83呈圆柱体状，使得所述第二分隔板的上下空间相通。所述第二过滤室8中设有进料管81及第二阻隔板82。所述进料管81设置于所述框体1的左表面上，所述进料管81穿过所述框体1的左表面延伸至所述框体1的内部，使得一些除污剂或者除垢剂可以倒入到第二过滤室8中。所述第二阻隔板82呈长方体，所述第二阻隔板82竖直放置，所述第二阻隔板82的侧面与所述框体1的侧面固定连接，所述第二阻隔板82的上表面与所述第一分隔板的下表面固定连接，所述第二阻隔板82的下表面与所述 第二分隔板的上表面固定连接，所述第二阻隔板82上设有贯穿其左右表面的第三透孔821，所述第三透孔821呈圆柱体状。所述第二阻隔板82的右侧设有活性炭，从而可以对污水进行过滤。所述第二阻隔板82位于所述第二透孔83的右侧，从而使得位于第二阻隔板82右侧的污水不会进入到第三过滤室9中。As shown in FIG. 1 , a second partition plate is disposed between the second filter chamber 8 and the third filter chamber 9 , the second partition plate is a rectangular parallelepiped, and the second partition plate is horizontally placed. The side surface of the second partitioning plate is fixedly connected to the inner surface of the frame body 1, so that the space of the second partitioning plate is blocked. The second partitioning plate is provided with a plurality of second through holes 83 extending through the upper and lower surfaces thereof, and the second through holes 83 are in a cylindrical shape such that the upper and lower spaces of the second dividing plate communicate with each other. The second filter chamber 8 is provided with a feed pipe 81 and a second blocker 82. The feeding tube 81 is disposed on a left surface of the frame body 1, and the feeding tube 81 extends through the left surface of the frame body 1 to the inside of the frame body 1, so that some decontaminants or The detergent can be poured into the second filter chamber 8. The second baffle plate 82 has a rectangular parallelepiped shape, the second baffle plate 82 is vertically disposed, and the side surface of the second baffle plate 82 is fixedly connected to the side surface of the frame body 1 a surface is fixedly coupled to a lower surface of the first partitioning plate, a lower surface of the second barrier baffle 82 and the The upper surface of the second partitioning plate is fixedly connected, and the second blocking partition 82 is provided with a third through hole 821 extending through the left and right surfaces thereof, and the third through hole 821 has a cylindrical shape. The right side of the second baffle plate 82 is provided with activated carbon, so that the sewage can be filtered. The second baffle plate 82 is located on the right side of the second through hole 83 such that the sewage located on the right side of the second baffle plate 82 does not enter the third filter chamber 9.

如图1所示，所述第三过滤室9内设有过滤网91及位于所述过滤网91下方的格栅92。所述过滤网91呈长方体，所述过滤网91水平放置，所述过滤网91的侧面与所述框体1的内表面固定连接。所述格栅92呈长方体，所述格栅92水平放置，所述过滤网91的下表面与所述格栅92的上表面固定连接，所述格栅92的侧面与所述框体1的内表面固定连接，所述格栅92位于所述第一通孔11的上方。As shown in FIG. 1 , a filter 91 and a grille 92 located below the filter 91 are disposed in the third filter chamber 9 . The filter net 91 has a rectangular parallelepiped shape, and the filter net 91 is horizontally placed, and the side surface of the filter net 91 is fixedly connected to the inner surface of the frame body 1. The grille 92 has a rectangular parallelepiped shape, the grille 92 is horizontally disposed, and a lower surface of the filter net 91 is fixedly connected to an upper surface of the grille 92, and a side surface of the grille 92 and the frame body 1 are The inner surface is fixedly connected, and the grille 92 is located above the first through hole 11.

如图1所示，所述本发明生物反应污水处理装置使用时，首先将污水从所述进水口65进入到框体1内部其落在所述第二搅拌杆66的第三收容槽661中，然后启动第二电机61，使得第二搅拌杆66转动，使得第三收容槽661中的污水左离心运动，使得水及体积较小的颗粒从所述第三通孔662进入到第一过滤室7中，然后经过自动过滤膜71及支撑板72的通孔进入到支撑板72的右侧，随着污水量的增加，自动过滤膜71左表面上的杂质越来越多，使得自动过滤膜71上的孔越来越小，从而可以对过滤起到较好的过滤作用。进入到支撑板72右侧的第二竖杆74的第一透孔741的过滤及其本身的阻隔作用，使得部分杂质被过滤掉，然后污水穿过第四凹槽76进入到第一通孔77中，然后进入到第二过滤室8中的第二阻隔板82的右侧，经过其中 的活性炭的过滤，穿过第二阻隔板82的第三透孔821的过滤作用进入到第二阻隔板82的左侧，然后与从进料管81中进入的除污剂或者除垢剂混合，对其进行除污除垢，然后穿过第二透孔83进入到第三过滤室9中，然后经过过滤网91及格栅92的过滤作用进入到第一搅拌杆53的第二收容槽531中，然后启动第一电机51，使得第一搅拌杆53旋转，从而既可以对第三过滤室9中的液体进行搅拌沉淀，又能使得第二收容槽531中的液体进行离心运动，使得体积较大的颗粒留在第二收容槽531中，无法进入到第三过滤室9中。最终使得第三过滤室9中的液体上方为水，下方为杂质，上方的水通过第一通孔11及第一出水管12排出。然后拉动握持部46，使得第一固定块44被拉出，然后堵塞板48在杂质的重力作用下绕第一支撑杆42的下端旋转，直至所述堵塞板48的下端顶靠在第一定位杆41的第二水平部上，然后堵塞板48上的杂质划过其上表面进入到杂质收料箱47的第一收容槽471中。至此，本发明生物反应污水处理装置使用过程描述完毕。As shown in FIG. 1 , when the biological reaction sewage treatment device of the present invention is used, first, sewage is taken from the water inlet 65 into the interior of the frame 1 and falls into the third receiving groove 661 of the second stirring rod 66. Then, the second motor 61 is activated, so that the second stirring rod 66 is rotated, so that the sewage in the third receiving groove 661 is left-centrifuged, so that water and smaller particles enter the first filtering from the third through hole 662. In the chamber 7, the through holes of the automatic filter film 71 and the support plate 72 then enter the right side of the support plate 72. As the amount of sewage increases, more and more impurities on the left surface of the automatic filter film 71 increase, so that automatic filtration is performed. The pores in the membrane 71 are getting smaller and smaller, so that the filtration can be better filtered. The filtration of the first through hole 741 entering the second vertical rod 74 on the right side of the support plate 72 and its own barrier action cause some impurities to be filtered out, and then the sewage passes through the fourth groove 76 into the first through hole. 77, then enters the right side of the second blocker 82 in the second filter chamber 8, through which The filtration of the activated carbon passes through the filtration of the third through hole 821 of the second baffle plate 82 to the left side of the second baffle plate 82, and then mixes with the decontaminant or detergent which enters from the feed pipe 81. Decontaminating and descaling, then passing through the second through hole 83 into the third filter chamber 9, and then passing through the filtering action of the filter screen 91 and the grating 92 to enter the second receiving groove of the first stirring rod 53 In 531, the first motor 51 is then activated, so that the first stirring rod 53 is rotated, so that the liquid in the third filter chamber 9 can be stirred and precipitated, and the liquid in the second receiving groove 531 can be centrifugally moved. The larger particles remain in the second receiving groove 531 and cannot enter the third filter chamber 9. Finally, the liquid in the third filter chamber 9 is made of water above, and the bottom is made of impurities, and the upper water is discharged through the first through hole 11 and the first outlet pipe 12. The grip portion 46 is then pulled such that the first fixing block 44 is pulled out, and then the blocking plate 48 is rotated about the lower end of the first support rod 42 under the force of the gravity of the impurities until the lower end of the blocking plate 48 abuts against the first On the second horizontal portion of the positioning rod 41, the foreign matter on the blocking plate 48 is then passed through the upper surface thereof into the first receiving groove 471 of the impurity receiving box 47. So far, the use process of the biological reaction sewage treatment device of the present invention has been described.

以上所述，仅为本发明的具体实施方式，但本发明的保护范围并不局限于此，任何熟悉本技术领域的人员在本发明揭露的技术范围内，可轻易想到变化或替换，都应涵盖在本发明的保护范围之内。因此，本发明的保护范围应以所述权利要求的保护范围为准。 The above is only a specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope disclosed by the present invention. It is intended to be covered by the scope of the invention. Therefore, the scope of the invention should be determined by the scope of the appended claims.

Claims (10)

1. 一种生物反应污水处理装置,其特征在于：所述生物反应污水处理装置包括框体、位于所述框体下方的支架装置、位于所述支架装置下方的底座、设置于所述框体下方的杂质回收装置、位于所述杂质回收装置之间的第一搅拌装置、设置于所述框体上的第二搅拌装置、位于所述第二搅拌装置右侧的第一过滤室、位于所述第一过滤室下方的第二过滤室及位于所述第二过滤室下方的第三过滤室，所述框体的右表面上设有第一通孔、位于所述第一通孔右侧的第一出水管及设置于所述第一出水管上的第一阀门，所述支架装置包括第一竖直部及位于所述第一竖直部上方的第一水平部，所述杂质回收装置包括第一定位杆、位于所述第一定位杆上方的第一支撑杆、设置于所述第一支撑杆上的第一连接杆、位于所述第一连接杆左侧的第一固定块、位于所述第一固定块左侧的水平杆、位于所述水平杆左侧的握持部、位于所述握持部下方的杂质收料箱、位于所述第一连接杆上方的堵塞板及位于所述堵塞板周围的第一封闭块，所述第一搅拌装置包括第一电机、位于所述第一电机上方的第一转轴、位于所述第一转轴上方的第一搅拌杆及设置于所述第一转轴上的第一封闭环，所述第二搅拌装置包括第二电机、位于所述第二电机右侧的第一支架、位于所述第二电机下方的第二转轴、位于所述第二转轴周围的第二封闭环、位于所述第二转轴一侧的进水口、位于所述第二转轴下方的第二搅拌杆及位于所述第二搅拌杆下方的第二支撑杆，所述第一过滤室包括自动过滤膜、位于 所述自动过滤膜右侧的支撑板、位于所述支撑板右侧的第一竖杆、位于所述第一竖杆下方的第二竖杆、位于所述第一竖杆右侧的第一阻隔板、设置于所述第一阻隔板上的第四凹槽及位于所述第四凹槽下方的第一通道，所述第一过滤室与所述第二过滤室之间设有第一分隔板，所述第二过滤室与所述第三过滤室之间设有第二分隔板，所述第二分隔板上设有若干贯穿其上下表面的第二透孔，所述第二过滤室中设有进料管及第二阻隔板，所述第三过滤室内设有过滤网及位于所述过滤网下方的格栅，所述第一定位杆呈L型，所述第一定位杆包括第二竖直部及位于所述第二竖直部下方的第二水平部，所述第二竖直部的上表面与所述框体的下表面固定连接，所述第一支撑杆的上表面与所述框体的下表面固定连接，所述第一支撑杆的下端设有第一凹槽，所述第一连接杆呈L型，所述第一连接杆的一端收容于所述第一凹槽中且与所述第一支撑杆轴转连接，所述第一连接杆的另一端与所述堵塞板的下表面固定连接，所述第一固定块的下表面与所述第二水平部的上表面接触，所述第一固定块的上表面与所述堵塞板的下表面接触，所述第一竖杆的上表面与所述框体的内表面固定连接，所述第二竖杆的下表面与所述第一分隔板的上表面固定连接，所述第二竖杆上设有贯穿其左右表面的第一透孔，所述第二竖杆上表面的高度高于所述第一竖杆下表面的高度。A biological reaction sewage treatment device, comprising: a frame body, a bracket device located below the frame body, a base located below the bracket device, and a bottom portion disposed under the frame body An impurity recovery device, a first agitation device between the impurity recovery devices, a second agitation device disposed on the frame, and a first filter chamber located on a right side of the second agitation device a second filter chamber below the filter chamber and a third filter chamber located below the second filter chamber, the first surface of the frame is provided with a first through hole, and the first side of the first through hole An outlet pipe and a first valve disposed on the first outlet pipe, the bracket device includes a first vertical portion and a first horizontal portion located above the first vertical portion, and the impurity recovery device includes a first positioning rod, a first support rod located above the first positioning rod, a first connecting rod disposed on the first support rod, a first fixed block located on a left side of the first connecting rod, The first fixed block left a horizontal rod on the side, a grip portion located on the left side of the horizontal rod, an impurity receiving box located below the grip portion, a blocking plate located above the first connecting rod, and a portion located around the blocking plate a first block, the first stirring device comprising a first motor, a first rotating shaft located above the first motor, a first stirring rod above the first rotating shaft, and a first set on the first rotating shaft a closed loop, the second stirring device comprising a second motor, a first bracket located on the right side of the second motor, a second rotating shaft located below the second motor, and a second portion located around the second rotating shaft a closed ring, a water inlet on one side of the second rotating shaft, a second stirring rod located below the second rotating shaft, and a second supporting rod located below the second stirring rod, the first filtering chamber including automatic Filter membrane, located a support plate on the right side of the automatic filter membrane, a first vertical rod on the right side of the support plate, a second vertical rod located below the first vertical rod, and a first one on the right side of the first vertical rod a baffle plate, a fourth groove disposed on the first baffle plate, and a first channel located below the fourth groove, and a first space between the first filter chamber and the second filter chamber a partitioning plate, a second dividing plate is disposed between the second filtering chamber and the third filtering chamber, and the second dividing plate is provided with a plurality of second through holes penetrating the upper and lower surfaces thereof, a second filter chamber is provided with a feed pipe and a second baffle plate, and the third filter chamber is provided with a filter net and a grille located below the filter net, the first positioning rod is L-shaped, the first a positioning rod includes a second vertical portion and a second horizontal portion located below the second vertical portion, and an upper surface of the second vertical portion is fixedly coupled to a lower surface of the frame, the first The upper surface of the support rod is fixedly connected to the lower surface of the frame body, and the lower end of the first support rod is provided with a first groove, the first connection The rod is L-shaped, and one end of the first connecting rod is received in the first groove and is pivotally connected to the first support rod, and the other end of the first connecting rod is lower than the blocking plate a surface fixedly connected, a lower surface of the first fixing block is in contact with an upper surface of the second horizontal portion, and an upper surface of the first fixing block is in contact with a lower surface of the blocking plate, the first vertical rod The upper surface is fixedly coupled to the inner surface of the frame, the lower surface of the second vertical rod is fixedly coupled to the upper surface of the first partitioning plate, and the second vertical rod is provided with a left and right surface thereof a first through hole, a height of an upper surface of the second vertical rod is higher than a height of a lower surface of the first vertical rod.
2. 如权利要求1所述的生物反应污水处理装置，其特征在于：所述水平杆呈圆柱体，所述水平杆水平放置，所述水平杆的右表面与所述第一固定块的左表面固定连接，所述水平杆的左表面与所述握持部的右 表面固定连接。A biological reaction sewage treatment apparatus according to claim 1, wherein said horizontal rod is in a cylindrical shape, said horizontal rod is horizontally placed, and a right surface of said horizontal rod is fixed to a left surface of said first fixed block Connecting, the left surface of the horizontal rod and the right side of the grip The surface is fixedly connected.
3. 如权利要求2所述的生物反应污水处理装置，其特征在于：所述杂质收料箱呈长方体，所述杂质收料箱的上表面向下凹陷形成第一收容槽，所述杂质收料箱位于所述第一定位杆左端的正下方。The biological reaction sewage treatment device according to claim 2, wherein the impurity receiving box has a rectangular parallelepiped shape, and an upper surface of the impurity receiving box is recessed downward to form a first receiving groove, and the impurity receiving box Located directly below the left end of the first positioning rod.
4. 如权利要求3所述的生物反应污水处理装置，其特征在于：所述堵塞板呈长方体，所述堵塞板的下表面与所述框体的下表面处于同一平面内，所述第一封闭块呈空心的长方体，所述第一封闭块的外表面与所述框体固定连接，所述第一封闭块的内表面与所述堵塞板的侧面紧密接触。The biological reaction sewage treatment device according to claim 3, wherein the blocking plate has a rectangular parallelepiped shape, and a lower surface of the blocking plate is in the same plane as a lower surface of the frame body, the first closing block A hollow rectangular parallelepiped, an outer surface of the first closing block is fixedly coupled to the frame body, and an inner surface of the first closing block is in close contact with a side surface of the blocking plate.
5. 如权利要求4所述的生物反应污水处理装置，其特征在于：所述第一转轴呈圆柱体，所述第一转轴竖直放置，所述第一转轴的下端与所述第一电机连接，所述第一转轴的上端穿过所述框体的下表面延伸至所述框体的内部。The biological reaction sewage treatment device according to claim 4, wherein the first rotating shaft is a cylinder, the first rotating shaft is vertically placed, and the lower end of the first rotating shaft is connected to the first motor. An upper end of the first rotating shaft extends through a lower surface of the frame to an inside of the frame.
6. 如权利要求5所述的生物反应污水处理装置，其特征在于：所述第一封闭环呈圆环状，所述第一封闭环的内表面与所述第一转轴的侧面紧密接触，所述第一封闭环的外表面与所述框体固定连接。A biological reaction sewage treatment apparatus according to claim 5, wherein said first closed ring has an annular shape, and an inner surface of said first closed ring is in close contact with a side surface of said first rotating shaft, said The outer surface of the first closed loop is fixedly coupled to the frame.
7. 如权利要求6所述的生物反应污水处理装置，其特征在于：所述第一搅拌杆呈圆柱体，所述第一搅拌杆的上表面向下凹陷形成第二收容槽，所述第一转轴的上表面与所述第一搅拌杆的下表面固定连接，所述第一搅拌杆的侧面上设有若干第二通孔。The biological reaction sewage treatment device according to claim 6, wherein the first stirring rod has a cylindrical shape, and the upper surface of the first stirring rod is recessed downward to form a second receiving groove, the first rotating shaft The upper surface is fixedly connected to the lower surface of the first stirring rod, and the second side of the first stirring rod is provided with a plurality of second through holes.
8. 如权利要求7所述的生物反应污水处理装置，其特征在于：所述自动过滤膜呈长方体，所述自动过滤膜竖直放置，所述自动过滤膜的侧 面与所述框体的内表面固定连接，所述自动过滤膜的下表面与所述第一分隔板的上表面固定连接。A biological reaction sewage treatment apparatus according to claim 7, wherein said automatic filtration membrane has a rectangular parallelepiped, said automatic filtration membrane being vertically placed, said side of said automatic filtration membrane The surface is fixedly connected to the inner surface of the frame, and the lower surface of the automatic filter film is fixedly connected to the upper surface of the first partition plate.
9. 如权利要求8所述的生物反应污水处理装置，其特征在于：所述支撑板呈长方体，所述支撑板的侧面与所述框体的内表面固定连接，所述支撑板的下表面与所述第一分隔板的上表面固定连接，所述自动过滤膜的右表面与所述支撑板的左表面固定连接，所述支撑板上设有若干贯穿其左右表面的通孔。The biological reaction sewage treatment device according to claim 8, wherein the support plate has a rectangular parallelepiped shape, and a side surface of the support plate is fixedly connected to an inner surface of the frame body, and a lower surface of the support plate is The upper surface of the first partitioning plate is fixedly connected, and the right surface of the automatic filtering membrane is fixedly connected to the left surface of the supporting plate, and the supporting plate is provided with a plurality of through holes penetrating the left and right surfaces thereof.
10. 如权利要求9所述的生物反应污水处理装置，其特征在于：所述第四凹槽与所述第一通道相通。 A biological reaction wastewater treatment apparatus according to claim 9, wherein said fourth groove communicates with said first passage.

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