WO2017152381A1

WO2017152381A1 - Automatic rain collection and purification device

Info

Publication number: WO2017152381A1
Application number: PCT/CN2016/075926
Authority: WO
Inventors: 张舒维
Original assignee: 张舒维
Priority date: 2016-03-09
Filing date: 2016-03-09
Publication date: 2017-09-14

Abstract

An automatic rain collection and purification device, comprising a bottom plate (1), a first collection device (2), a second collection device (3), a first filtering device (4), a sedimentation device (5), a rotation device (6), a sterilization device (7), a cylinder device (8), a heating device (9) and a cooling device (10); the bottom plate (1) is provided with a first collection tank (11), a first fixation block (12), a first filter screen (13), a second collection tank (14), a first concentration bucket (15), a second filter screen (16), a first spring (17), a first support rod (18) and a first support block (19); the first collection device (2) comprises a third collection tank (21), a first triangular block (22), a third filter screen (23), a second concentration bucket (24), a first pipe (25), a fourth collection tank (26), a second triangular block (27), a first support bracket (28) and a second pipe (29); the second collection device (3) comprises a first support plate (31), a second support bracket (32), a first cylinder (33), a first driving rod (34), a second driving rod (35), a fifth collection frame (36), a third triangular block (37), a first connection plate (38) and a second fixation block. The device may quickly and effectively collect rain water according to needs, increase sedimentation efficiency, thereby improving the purification efficiency overall.

Description

一种自动集雨及净化装置Automatic rain collecting and purifying device

技术领域Technical field

本发明涉及雨水处理技术领域，尤其是涉及一种自动集雨及净化装置。The invention relates to the technical field of rainwater treatment, in particular to an automatic rain collecting and purifying device.

背景技术Background technique

目前，由于淡水资源缺乏以及过度开采地下水导致地下水位严重下降已经成为社会普遍关注的重大问题，特别是对于我国北方地区，缺水较为严重。然而雨水资源在实际生活中却常被人忽视，或者收集到雨水资源不能够进行有效的处理。随着人们节水意识的增强，对雨水资源进行收集以及净化利用具有重要意义。At present, the serious decline of groundwater level due to the lack of fresh water resources and excessive exploitation of groundwater has become a major concern of the society. Especially for the northern part of China, water shortage is more serious. However, rainwater resources are often overlooked in real life, or rainwater resources collected cannot be effectively treated. As people's awareness of water conservation increases, it is important to collect and purify rainwater resources.

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自动集雨及净化装置。It is an object of the present invention to provide an automatic rain collecting and purifying 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：一种自动集雨及净化装置，其特征在于：所述自动集雨及净化装置包括底板、位于所述底板上方的第一收集装置、位于所述第一收集装置左右两侧的第二收集装置、位于所述第一收集装置下方的第一过滤装置、位于所述第一过滤装置下方的沉淀装置、位于所述沉淀装置下方的旋转装置、位于所述旋转装置右侧的杀菌装置、位于所述杀菌装置右侧的气缸装置、位于所述杀菌装置下方的加热装置及位于所述加热装置下方的冷却装置。In order to achieve the object of the present invention, the following technical solution is adopted: an automatic rain collecting and purifying device, characterized in that: the automatic rain collecting and purifying device comprises a bottom plate, a first collecting device located above the bottom plate, and located at the a second collecting device on the left and right sides of the first collecting device, a first filtering device located below the first collecting device, a sedimentating device located below the first filtering device, a rotating device located below the sedimentating device, a sterilizing device on the right side of the rotating device, a cylinder device located on the right side of the sterilizing device, a heating device located below the sterilizing device, and a cooling device located below the heating device.

与现有技术相比，本发明具有如下有益效果：本发明自动集雨及净化装置结构简单，使用方便，能够对雨水进行有效的收集，并且即使雨量较小时，也可以保证收集到的雨水的总量，进而使其更加具有实用性，并且将收集到的雨水进行过滤杀菌消毒，以便直接进行利用，减少对地下水等水资源的依赖，减少水资源的浪费，并且可以对其进行高温杀菌处理，杀死其中的病菌，从而可以减少疾病的产生或者传播，同时可以对收集到的雨水进行快速有效的沉淀，然后将符合需要的雨水进行快速有效的收集，提高沉淀的效率，进而提高整体的净化效率。Compared with the prior art, the invention has the following beneficial effects: the automatic rain collecting and purifying device of the invention has the advantages of simple structure, convenient use, and effective collection of rainwater, and Moreover, even if the rainfall is small, the total amount of rainwater collected can be ensured, thereby making it more practical, and the collected rainwater is filtered and sterilized for direct use, reducing dependence on water resources such as groundwater. Reduce the waste of water resources, and can be sterilized by high temperature to kill the bacteria, which can reduce the occurrence or spread of the disease, and can quickly and effectively precipitate the collected rainwater, and then carry out the rainwater that meets the needs. Fast and efficient collection, improve the efficiency of sedimentation, and thus improve the overall purification efficiency.

附图说明DRAWINGS

图1为本发明自动集雨及净化装置的结构示意图；1 is a schematic structural view of an automatic rain collecting and purifying apparatus of the present invention;

具体实施方式detailed description

如图1所示，本发明自动集雨及净化装置包括底板1、位于所述底板1上方的第一收集装置2、位于所述第一收集装置2左右两侧的第二收集装置3、位于所述第一收集装置2下方的第一过滤装置4、位于所述第一过滤装置4下方的沉淀装置5、位于所述沉淀装置5下方的旋转装置6、位于所述旋转装置6右侧的杀菌装置7、位于所述杀菌装置7右侧的气缸装置8、位于所述杀菌装置7下方的加热装置9及位于所述加热装置9下方的冷却装置10。As shown in FIG. 1 , the automatic rain collecting and purifying apparatus of the present invention comprises a bottom plate 1 , a first collecting device 2 located above the bottom plate 1 , a second collecting device 3 located at the left and right sides of the first collecting device 2 , and a first filtering device 4 below the first collecting device 2, a sedimentating device 5 located below the first filtering device 4, a rotating device 6 located below the precipitating device 5, and a right side of the rotating device 6 The sterilizing device 7, the cylinder device 8 located on the right side of the sterilizing device 7, the heating device 9 located below the sterilizing device 7, and the cooling device 10 located below the heating device 9.

如图1所示，所述底板1上设有第一收集箱11、位于所述第一收集箱11内的第一固定块12、位于所述第一固定块12上方的第一过滤网13、位于所述第一收集箱11左侧的第二收集箱14、位于所述第二收集箱14内的第一集中斗15、位于所述第一集中斗15下方的第二过滤网16、位于所述第二收集箱14下方的第一弹簧17、位于所述第一弹簧17左侧的第一支撑杆18及位于所述第一支撑块18上方的第一支撑块19。所述第一收集箱11呈空心的长方体。所述第一固定块12设有两个且分别位于所述第一收集箱11内的左右两侧，所述第一固定块12的一端与所述第一收集箱11的内表面固定连接。所述第一过滤网13的侧面与所述第一收集箱11的内表面固定连接，所述第一固定块12的上表面与所述第一过滤网13的下表面固定连接。所述第二收集箱14呈空心的长方体，所述第二收集箱14上设有位于其右表面的第一通孔141及位于其左侧的第二弹簧142，所述第二弹簧142的右端与所述第二收集箱14固定连接。所述第一集中斗15的上端与所述第二收集箱14的内表面固定连接。所述第二过滤网16呈竖直状，所述第二过滤网16的侧面与所述第二收集箱14的内表面固定连接，所述第二过滤网16的上表面与所述第一集中斗15固定连接。所述第一弹簧17设有两个且分别位于所述第二收集箱14下方的左右两侧，所述第一弹簧17的下端与所述底板1的上表面固定连接，所述第一弹簧17的上端与所述第二收集箱14固定连接。所述第一支撑杆18的下端与所述底板1固定连接，所述第一支撑杆18的上端设有第一凹槽181。所述第一支撑块19水平放置，所述第二收集箱14与所述第一支撑块19固定连接，所述第一支撑块19收容于所述第一凹槽181内且与所述第一支撑杆18轴转连接，所述第一支撑块19上设有若干个第一锯齿191。As shown in FIG. 1 , the bottom plate 1 is provided with a first collecting box 11 , a first fixing block 12 located in the first collecting box 11 , and a first filter net 13 located above the first fixing block 12 . a second collection box 14 located on the left side of the first collection box 11, a first concentration hopper 15 located in the second collection box 14, and a second filter net 16 located below the first concentration hopper 15. A first spring 17 located below the second collection box 14 , a first support rod 18 located on the left side of the first spring 17 and a first support block 19 above the first support block 18 . The first collection box 11 has a hollow rectangular parallelepiped. The first fixing block 12 is provided with two left and right sides respectively located in the first collecting box 11 On one side, one end of the first fixing block 12 is fixedly connected to the inner surface of the first collecting box 11. The side surface of the first filter net 13 is fixedly connected to the inner surface of the first collecting box 11, and the upper surface of the first fixing block 12 is fixedly connected to the lower surface of the first filter net 13. The second collecting box 14 has a hollow rectangular parallelepiped, and the second collecting box 14 is provided with a first through hole 141 at a right surface thereof and a second spring 142 at a left side thereof, the second spring 142 The right end is fixedly coupled to the second collection box 14. The upper end of the first concentrating bucket 15 is fixedly coupled to the inner surface of the second collecting box 14. The second filter net 16 has a vertical shape, and the side surface of the second filter net 16 is fixedly connected to the inner surface of the second collecting box 14 , and the upper surface of the second filter net 16 and the first surface The concentrating bucket 15 is fixedly connected. The first spring 17 is provided with two left and right sides respectively under the second collecting box 14, and the lower end of the first spring 17 is fixedly connected with the upper surface of the bottom plate 1, the first spring The upper end of the 17 is fixedly coupled to the second collection box 14. The lower end of the first support rod 18 is fixedly connected to the bottom plate 1 , and the upper end of the first support rod 18 is provided with a first recess 181 . The first support block 19 is horizontally placed, the second collection box 14 is fixedly connected to the first support block 19, and the first support block 19 is received in the first recess 181 and A support rod 18 is pivotally connected, and the first support block 19 is provided with a plurality of first serrations 191.

如图1所示，所述第一收集装置2包括第三收集箱21、位于所述第三收集箱21内的第一三角块22、位于所述第一三角块22上方的第三过滤网23、位于所述第三过滤网23上方的第二集中斗24、位于所述第二集中斗24上方的第一管道25、位于所述第一管道25上方的第四收集箱26、位于所述第四收集箱26内的第二三角块27、位于所述第四收集箱26下方的第一支架28、位于所述第三收集箱21下方的第二管道29。所述第三收集箱21呈空心的长方体，所述第三收集箱21上设有位于其下表面的第二通孔211。所述第一三角块22设有两个且分别位于所述第三收集箱21内的左右两侧，所述第一三角块22与所述第三收集箱21的内表面固定连接，所述第一三角块22的上表面呈倾斜状，从而可以将雨水集中到所述第三收集箱21的中间部分。所述第三过滤网23呈水平状，所述第三过滤网23的侧面与所述第一三角块22与所述第三收集箱21固定连接。所述第二集中斗24的上端与所述第三收集箱21的内表面固定连接。所述第一管道25的下端与所述第二集中斗24的内表面固定连接，所述第一管道25上设有贯穿其左右表面的第二凹槽251，使得雨水经过第二凹槽251进入到所述第一管道25内。所述第四收集箱26呈空心的长方体，所述第四收集箱26的下表面设有第三通孔261，所述第一管道25的上端对准所述第三通孔261且与所述第四收集箱26的下表面固定连接。所述第二三角块27设有两个且分别位于所述第四收集箱26内，所述第二三角块27的横截面呈三角形，所述第二三角块27与所述第四收集箱26的内表面固定连接。所述第一支架28设有两个且分别位于所述第一管道25的左右两侧，所述第一支架28的一端与所述第一管道25的侧面固定连接，所述第一支架28的另一端与所述第四收集箱26的下表面固定连接。所述第二管道29的上端对准所述第二通孔211且与所述第三收集箱21的下表面固定连接。As shown in FIG. 1 , the first collecting device 2 includes a third collecting box 21 , a first triangular block 22 located in the third collecting box 21 , and a third filter net located above the first triangular block 22 . a second concentrating bucket 24 located above the third filter net 23, a first duct 25 located above the second concentrating bucket 24, a fourth collecting box 26 located above the first duct 25, located at the The second triangular block 27 in the fourth collecting box 26, the first bracket 28 located below the fourth collecting box 26, and the second duct 29 located below the third collecting box 21. The third collecting box 21 has a hollow rectangular parallelepiped, and the third collecting box 21 is provided with a second through hole 211 on a lower surface thereof. The first The triangular block 22 is provided with two left and right sides respectively located in the third collecting box 21, and the first triangular block 22 is fixedly connected with the inner surface of the third collecting box 21, the first triangular block The upper surface of the 22 is inclined so that rainwater can be concentrated to the intermediate portion of the third collection box 21. The third filter net 23 is horizontal, and the side surface of the third filter net 23 and the first triangular block 22 are fixedly connected to the third collecting box 21 . The upper end of the second concentrating bucket 24 is fixedly coupled to the inner surface of the third collecting box 21. The lower end of the first duct 25 is fixedly connected to the inner surface of the second concentrating bucket 24, and the first duct 25 is provided with a second recess 251 extending through the left and right surfaces thereof so that rainwater passes through the second recess 251. Entering into the first conduit 25. The fourth collecting box 26 has a hollow rectangular parallelepiped, and the lower surface of the fourth collecting box 26 is provided with a third through hole 261, and the upper end of the first duct 25 is aligned with the third through hole 261 and The lower surface of the fourth collection box 26 is fixedly connected. The second triangular block 27 is provided in two and respectively located in the fourth collecting box 26, the second triangular block 27 has a triangular cross section, and the second triangular block 27 and the fourth collecting box The inner surface of 26 is fixedly connected. The first bracket 28 is disposed at two sides and is respectively located on the left and right sides of the first duct 25, and one end of the first bracket 28 is fixedly connected to the side of the first duct 25, and the first bracket 28 is The other end is fixedly coupled to the lower surface of the fourth collection bin 26. The upper end of the second duct 29 is aligned with the second through hole 211 and is fixedly connected to the lower surface of the third collecting box 21.

如图1所示，所述第二收集装置3设有两个且分别位于所述第三收集箱21的左右两侧，所述第二收集装置3包括第一支撑板31、位于所述第一支撑板31下方的第二支架32、位于所述第一支撑板31上方的第一气缸33、位于所述第一气缸33上方的第一推动杆34、位于所述第一推动杆34上方的第二推动杆35、位于所述第二推动杆35上方的第五收集框36、设置于所述第五收集框36内的第三三角块37、设置于所述第五收集框36上的第一连接板38及位于所述第一连接板38下方的第二固定块。所述第一支撑板31的一端与所述第三收集箱21的侧面固定连接。所述第二支架32的一端与所述第三收集箱21的下表面固定连接，所述第二支架32的另一端与所述第一支撑板31固定连接。所述第一气缸33的下表面与所述第一支撑板31的上表面固定连接。所述第一推动杆34的下端与所述第一气缸33连接，所述第一推动杆34的上端与所述第二推动杆35的下端轴转连接。所述第二推动杆35的上端与所述第五收集框36的下表面固定连接。所述第五收集框36呈空心的长方体，所述第二固定块的侧面与所述第三收集箱21固定连接，所述第五收集框36与所述第二固定块轴转连接。所述第三三角块37的横截面呈三角形，所述第三三角块37与所述第五收集框36的内表面固定连接。所述第一连接板38的一端与所述第五收集框36固定连接。As shown in FIG. 1 , the second collecting device 3 is disposed at two sides and is respectively located on the left and right sides of the third collecting box 21 , and the second collecting device 3 includes a first supporting plate 31 located at the first a second bracket 32 below the support plate 31, a first cylinder 33 located above the first support plate 31, a first push rod 34 located above the first cylinder 33, above the first push rod 34 a second push rod 35, a fifth collecting frame 36 located above the second push rod 35, and a first set in the fifth collecting frame 36 a third triangular block 37, a first connecting plate 38 disposed on the fifth collecting frame 36, and a second fixed block located below the first connecting plate 38. One end of the first support plate 31 is fixedly connected to a side surface of the third collection box 21 . One end of the second bracket 32 is fixedly connected to the lower surface of the third collecting box 21 , and the other end of the second bracket 32 is fixedly connected to the first supporting board 31 . The lower surface of the first cylinder 33 is fixedly coupled to the upper surface of the first support plate 31. A lower end of the first push rod 34 is coupled to the first cylinder 33, and an upper end of the first push rod 34 is pivotally coupled to a lower end of the second push rod 35. An upper end of the second push rod 35 is fixedly coupled to a lower surface of the fifth collecting frame 36. The fifth collecting frame 36 is a hollow rectangular parallelepiped, the side of the second fixing block is fixedly connected to the third collecting box 21, and the fifth collecting frame 36 is pivotally connected to the second fixing block. The third triangular block 37 has a triangular cross section, and the third triangular block 37 is fixedly connected to the inner surface of the fifth collecting frame 36. One end of the first connecting plate 38 is fixedly connected to the fifth collecting frame 36.

如图1所示，所述第一过滤装置4包括第一过滤框41、位于所述第一过滤框41上方第一固定斗42、位于所述第一固定斗42上方的第一连接杆43、位于所述第一过滤框41内的第四过滤网44、位于所述第四过滤网44下方的第一支撑轴45、设置于所述第一支撑轴45上的第五过滤网46、位于所述第一支撑轴45左侧的第六过滤网47、位于所述第六过滤网47左侧的第一海绵块48、位于所述第一海绵块48下方的第七过滤网49及位于所述第一过滤框41内的倒流块40。所述第一过滤框41的横截面呈Z字形，所述第一过滤框41上设有第一斜杆411、设置于所述第一过滤框41上的第一横板412、位于所述第一横板412上方的第一竖杆413、第三支架414、位于所述第一横板412下方的第一支撑环415，所述第一斜杆411的两端与所述第一过滤框41固定连接。所述第一过滤框41贯穿所述第一横板412的上下表面且与其固定连接。所述第一竖杆412的上端与所述第一过滤框41固定连接，所述第一竖杆413的下端与所述第一横板412固定连接。所述第三支架414的一端与所述第一横板412固定连接，所述第三支架414的另一端与所述第一过滤框41固定连接。所述第一支撑环415呈横截面为圆环的柱体，所述第一支撑环415的上表面与所述第一横板412的下表面固定连接。所述第一固定斗42的横截面呈空心的等腰梯形，所述第一固定斗42的下表面与所述第一过滤框41的上表面固定连接，所述第一固定斗42的内部与所述第一过滤框41的内部相通，所述第一固定斗42的上端与所述第二管道29固定连接。所述第一连接杆43设有两个且分别位于所述第二管道29的左右两侧，所述第一连接杆43呈竖直状，所述第一连接杆43的上端与所述第三收集箱21的下表面固定连接，所述第一连接杆43的下端与所述第一固定斗42固定连接。所述第四过滤网44的侧面与所述第一过滤框41的内表面固定连接。所述第一支撑轴45与所述第一过滤框41固定连接。所述第五过滤网46设有两个且分别位于所述第一支撑轴45的左右两侧，所述第五过滤网46呈倾斜状，所述第五过滤网46的下端与所述第一支撑轴45固定连接，使得位于左右两侧的第五过滤网46呈V字形，从而可以对被所述第四过滤网44过滤的雨水进行再次过滤，并且可以将其中的杂质集中到第五过滤网46与第一支撑轴45之间，并且沉淀在其中，并且水流较大时，可以使得水流经过第五过滤网46的上端往两侧流动，防止压力过大导致第五过滤网46被损坏。所述第六过滤网47呈倾斜状，所述第六过滤网47的侧面与所述第一过滤框41的内表面固定连接，从而可以使得杂质集中到第六过滤网47的下端，从而可以保证其上端的过滤效果。所述第一海绵块 48的侧面与所述第一过滤框41的内表面固定连接。所述第七过滤网49的侧面与所述第一过滤框41的内表面固定连接，所述第七过滤网49与所述第一海绵块48之间放置有活性炭。所述倒流块40与所述第一过滤框41的内表面固定连接。As shown in FIG. 1 , the first filter device 4 includes a first filter frame 41 , a first fixed hopper 42 above the first filter frame 41 , and a first connecting rod 43 located above the first fixed hopper 42 . a fourth filter net 44 located in the first filter frame 41, a first support shaft 45 located below the fourth filter net 44, a fifth filter net 46 disposed on the first support shaft 45, a sixth filter net 47 located on the left side of the first support shaft 45, a first sponge block 48 located on the left side of the sixth filter net 47, a seventh filter net 49 located below the first sponge block 48, and A backflow block 40 located in the first filter frame 41. The first filter frame 41 has a zigzag cross section, and the first filter frame 41 is provided with a first diagonal bar 411, and a first horizontal plate 412 disposed on the first filter frame 41. a first vertical rod 413 above the first horizontal plate 412, a third bracket 414, a first support ring 415 located below the first horizontal plate 412, two ends of the first diagonal rod 411 and the first filter Block 41 is fixedly connected. The first filter frame 41 runs through The upper and lower surfaces of the first horizontal plate 412 are described and fixedly connected thereto. The upper end of the first vertical rod 412 is fixedly connected to the first filter frame 41, and the lower end of the first vertical rod 413 is fixedly connected to the first horizontal plate 412. One end of the third bracket 414 is fixedly connected to the first horizontal plate 412 , and the other end of the third bracket 414 is fixedly connected to the first filter frame 41 . The first support ring 415 is a cylinder having a circular cross section, and an upper surface of the first support ring 415 is fixedly connected to a lower surface of the first horizontal plate 412. The cross section of the first fixed hopper 42 is a hollow isosceles trapezoid, and the lower surface of the first fixed hopper 42 is fixedly connected to the upper surface of the first filter frame 41, and the inside of the first fixed hopper 42 The upper end of the first fixed hopper 42 is fixedly connected to the second duct 29 in communication with the inside of the first filter frame 41. The first connecting rod 43 is provided with two and respectively located on the left and right sides of the second duct 29, the first connecting rod 43 is vertical, and the upper end of the first connecting rod 43 is opposite to the first The lower surface of the three collecting boxes 21 is fixedly connected, and the lower end of the first connecting rod 43 is fixedly connected to the first fixed hopper 42. The side surface of the fourth filter net 44 is fixedly connected to the inner surface of the first filter frame 41. The first support shaft 45 is fixedly connected to the first filter frame 41. The fifth filter net 46 is provided with two and respectively located on the left and right sides of the first support shaft 45, the fifth filter net 46 is inclined, and the lower end of the fifth filter net 46 is opposite to the first A support shaft 45 is fixedly connected such that the fifth filter nets 46 on the left and right sides are V-shaped, so that the rainwater filtered by the fourth filter net 44 can be filtered again, and the impurities therein can be concentrated to the fifth. Between the filter net 46 and the first support shaft 45, and precipitated therein, and when the water flow is large, the water flow can be caused to flow to the both sides through the upper end of the fifth filter net 46, preventing the excessive pressure from causing the fifth filter net 46 to be damage. The sixth filter net 47 is inclined, and the side surface of the sixth filter net 47 is fixedly connected to the inner surface of the first filter frame 41, so that impurities can be concentrated to the lower end of the sixth filter net 47, so that Guarantee the filtering effect at the top. The first sponge block The side surface of the 48 is fixedly coupled to the inner surface of the first filter frame 41. The side surface of the seventh filter net 49 is fixedly connected to the inner surface of the first filter frame 41, and the activated carbon is placed between the seventh filter net 49 and the first sponge block 48. The backflow block 40 is fixedly connected to the inner surface of the first filter frame 41.

如图1所示，所述沉淀装置5包括沉淀框51、位于所述沉淀框51上方的第三集中斗52、位于所述沉淀框51周围的挡框53、位于所述沉淀框51内的过滤斗54、位于所述过滤斗54下方的过滤环55、位于所述过滤环55内的分流块56、位于所述沉淀框51周围的收集环57、设置于所述收集环57上的第一固定环58、位于所述收集环57下方的挡环59及位于所述收集环57上方的第二固定环50。所述沉淀框51上设有若干第四通孔511。所述第三集中斗52的上端与所述第一过滤框41固定连接，所述第三集中斗52的下表面与所述沉淀框51的上表面滑动连接，所述第一过滤框41的下端延伸至所述第三集中斗52的内部。所述挡框53呈环状，所述挡框53的下表面呈倾斜状，所述挡框53的内表面与所述第三集中斗52固定连接，所述挡框53的内表面与所述沉淀框51的外表面滑动连接，使得所述第三集中斗52与所述挡框53可以一起相对所述沉淀框51旋转，所述挡框53的下表面设有若干第五通孔531，所述第一支撑环415的下表面与所述挡框53的上表面固定连接，所述过滤斗54的上端与所述沉淀框51的内表面固定连接，从而可以对雨水进行过滤，并且可以将杂质集中到沉淀框51的中间。所述过滤环55的横截面呈圆环状，所述过滤环55的下表面与所述沉淀框51的内表面固定连接，所述过滤环55的上端与所述过滤斗54的下表面固定连接，从而可以将杂质集中到过滤环55内。所述分流块56呈圆锥体，所述分流块56的下表面与所述沉淀框51的内表面固定连接，从而可以将雨水集中到周围，方便过滤斗54及过滤环55在旋转时对水进行过滤。所述收集环57呈环状，所述收集环57水平放置，所述收集环57的横截面呈空心的等腰梯形，所述收集环57位于所述第五通孔531的下方，使得从所述第五通孔531流出的雨水进入到收集环57内。所述第一固定环58的内表面与所述沉淀框51的外表面固定连接，所述第一固定环58的外表面与所述收集环57固定连接。所述挡环59呈环状，所述挡环59的横截面呈弯曲状，所述挡环59的上端与所述收集环57的外表面固定连接。所述第二固定环50的内表面与所述沉淀框51的外表面固定连接，所述第二固定环50的下表面与所述收集环57的上表面固定连接。As shown in FIG. 1 , the sedimentation device 5 includes a precipitation frame 51 , a third concentration hopper 52 located above the precipitation frame 51 , a baffle 53 located around the precipitation frame 51 , and located in the precipitation frame 51 . a filter bucket 54, a filter ring 55 located below the filter bucket 54, a flow dividing block 56 located in the filter ring 55, a collecting ring 57 located around the precipitation frame 51, and a first portion disposed on the collecting ring 57 A retaining ring 58 , a retaining ring 59 located below the collecting ring 57 and a second retaining ring 50 above the collecting ring 57 . A plurality of fourth through holes 511 are defined in the precipitation frame 51. The upper end of the third concentrating hopper 52 is fixedly connected to the first filter frame 41, and the lower surface of the third concentrating hopper 52 is slidably connected to the upper surface of the precipitation frame 51, and the first filter frame 41 is The lower end extends to the inside of the third concentrating bucket 52. The frame 53 is annular, and the lower surface of the frame 53 is inclined. The inner surface of the frame 53 is fixedly connected to the third concentrating bucket 52. The inner surface of the frame 53 is The outer surface of the precipitation frame 51 is slidably connected, so that the third concentrating bucket 52 and the blocking frame 53 can rotate together with respect to the precipitation frame 51. The lower surface of the blocking frame 53 is provided with a plurality of fifth through holes 531. The lower surface of the first support ring 415 is fixedly connected to the upper surface of the baffle frame 53, and the upper end of the filter bucket 54 is fixedly connected to the inner surface of the precipitation frame 51, so that rainwater can be filtered, and The impurities can be concentrated in the middle of the precipitation frame 51. The filter ring 55 has a circular cross section, the lower surface of the filter ring 55 is fixedly connected to the inner surface of the precipitation frame 51, and the upper end of the filter ring 55 is fixed to the lower surface of the filter bucket 54. The connections are such that impurities can be concentrated into the filter ring 55. The flow dividing block 56 is a cone, and the lower surface of the flow dividing block 56 is fixed to the inner surface of the precipitation frame 51. In order to concentrate the rainwater around, the filter bucket 54 and the filter ring 55 are allowed to filter the water as it rotates. The collecting ring 57 is annular, the collecting ring 57 is horizontally placed, the collecting ring 57 has a hollow isosceles trapezoidal cross section, and the collecting ring 57 is located below the fifth through hole 531, so that The rainwater flowing out of the fifth through hole 531 enters the collecting ring 57. The inner surface of the first fixing ring 58 is fixedly connected to the outer surface of the precipitation frame 51, and the outer surface of the first fixing ring 58 is fixedly connected to the collecting ring 57. The retaining ring 59 is annular, and the cross-section of the retaining ring 59 is curved. The upper end of the retaining ring 59 is fixedly connected to the outer surface of the collecting ring 57. The inner surface of the second fixing ring 50 is fixedly connected to the outer surface of the precipitation frame 51, and the lower surface of the second fixing ring 50 is fixedly connected to the upper surface of the collecting ring 57.

如图1所示，所述旋转装置6包括第一电机61、位于所述第一电机61上方的第一转轴62、位于所述第一电机61左右两侧的第四支架63、位于所述第一电机61下方的第二支撑杆64、位于所述第二支撑杆64左右两侧的第三支撑杆65、位于所述第三支撑杆65下方的第一框体66、位于所述第一框体66内的第八过滤网67、位于所述第一框体66下方的第四支撑杆68、位于所述第四支撑杆68下方的第一垫板69及位于所述第四支撑杆68右侧的第二竖杆60。所述第一电机61与电源电性连接。所述第一转轴62的下端与所述第一电机61连接，所述第一转轴62的上端与所述沉淀框51的下表面固定连接。所述第四支架63设有两个且分别位于所述第一电机61的左右两侧，所述第四支架63呈L型，所述第四支架63的一端与所述第一电机61的侧面固定连接，所述第四支架63的另一端顶靠在所述沉淀框51的下表面上且与其滑动连接。所述第二支撑杆64的上端与所述第一电机61的下表面固定连接，所述第二支撑杆64的下端与所述第一框体66的内表面固定连接，所述第二支撑杆64 的下端设有第三凹槽641，所述第三凹槽641贯穿所述第二支撑杆64的左右表面。所述第三支撑杆65设有两个且分别位于所述第二支撑杆64的左右两侧，所述第三支撑杆65的上端与所述第四支架63固定连接，所述第三支撑杆65的下端与所述第一框体66的内表面固定连接，所述第三支撑杆65的下端设有第四凹槽651，所述第四凹槽651贯穿所述第三支撑杆65的左右表面。所述第一框体66的横截面呈空心的直角梯形，所述第一框体66的下表面呈倾斜状，所述第一框体66的右表面设有第六通孔661。所述第八过滤网67的横截面呈弯曲状，所述第八过滤网67的下端与所述第一框体66的内表面固定连接，从而可以对雨水进行再次过滤。所述第四支撑杆68的上端与所述第一框体66固定连接，所述第四支撑杆68的下端与所述第一垫板69固定连接，所述第四支撑杆68上设有位于其右侧的第一横杆681、位于所述第一横杆681右侧的第五支架682及位于所述第五支架682下方的第二斜杆683，所述第一横杆681呈水平状，所述第一横杆681的左端与所述第四支撑杆68的右表面固定连接，所述第一横杆681的右端与所述第五支架682的左表面固定连接。所述第五支架682呈L型，所述第五支架682的一端与所述第一框体66的下表面固定连接，所述第五支架682的另一端呈水平状且与所述第二竖杆60的左表面固定连接，所述第二斜杆683的上端与所述第五支架682固定连接，所述第二斜杆683的下端与所述第一垫板69的上表面固定连接。所述第二竖杆60的上端与所述第一框体66的下表面固定连接，所述第二竖杆60的下端设有第五凹槽601、收容于所述第五凹槽601内的第一滚轮602及设置于所述第一滚轮602上的第二锯齿603，所述第一滚轮602收容于所述第五凹槽601内且与所述第二竖杆60轴转连接，所述第二锯齿 603设有若干个且均匀分布在所述第一滚轮602上，所述第二锯齿603与所述第一锯齿191相互配合，进而可以带动所述第一支撑块19旋转，所述第一滚轮602与电机连接。As shown in FIG. 1, the rotating device 6 includes a first motor 61, a first rotating shaft 62 located above the first motor 61, and a fourth bracket 63 located at the left and right sides of the first motor 61. a second support rod 64 below the first motor 61, a third support rod 65 located on the left and right sides of the second support rod 64, and a first frame 66 located below the third support rod 65. An eighth filter 67 in a frame 66, a fourth support rod 68 located below the first frame 66, a first pad 69 located below the fourth support bar 68, and the fourth support The second vertical rod 60 on the right side of the rod 68. The first motor 61 is electrically connected to a power source. The lower end of the first rotating shaft 62 is connected to the first motor 61, and the upper end of the first rotating shaft 62 is fixedly connected to the lower surface of the precipitation frame 51. The fourth bracket 63 is disposed at two sides and is respectively located on the left and right sides of the first motor 61. The fourth bracket 63 is L-shaped, and one end of the fourth bracket 63 is opposite to the first motor 61. The other side of the fourth bracket 63 abuts against and is slidably coupled to the lower surface of the precipitation frame 51. The upper end of the second support rod 64 is fixedly connected to the lower surface of the first motor 61, and the lower end of the second support rod 64 is fixedly connected to the inner surface of the first frame 66, the second support Rod 64 The lower end is provided with a third groove 641 which penetrates the left and right surfaces of the second support rod 64. The third support rod 65 is disposed at two sides and is respectively located on the left and right sides of the second support rod 64. The upper end of the third support rod 65 is fixedly connected to the fourth bracket 63, and the third support The lower end of the rod 65 is fixedly connected to the inner surface of the first frame 66, and the lower end of the third support rod 65 is provided with a fourth groove 651. The fourth groove 651 extends through the third support rod 65. The left and right surfaces. The first frame body 66 has a hollow right-angled trapezoidal shape, the lower surface of the first frame body 66 is inclined, and the right surface of the first frame body 66 is provided with a sixth through hole 661. The eighth filter mesh 67 has a curved cross section, and the lower end of the eighth filter mesh 67 is fixedly coupled to the inner surface of the first frame body 66, so that rainwater can be filtered again. The upper end of the fourth support rod 68 is fixedly connected to the first frame body 66, the lower end of the fourth support rod 68 is fixedly connected to the first backing plate 69, and the fourth support rod 68 is provided on the fourth support rod 68. a first cross bar 681 on the right side thereof, a fifth bracket 682 on the right side of the first cross bar 681, and a second diagonal bar 683 located below the fifth bracket 682. The first cross bar 681 is Horizontally, the left end of the first crossbar 681 is fixedly connected to the right surface of the fourth support bar 68, and the right end of the first crossbar 681 is fixedly connected to the left surface of the fifth bracket 682. The fifth bracket 682 is L-shaped, one end of the fifth bracket 682 is fixedly connected to the lower surface of the first frame 66, and the other end of the fifth bracket 682 is horizontal and the second The left end of the vertical rod 60 is fixedly connected, the upper end of the second diagonal rod 683 is fixedly connected to the fifth bracket 682, and the lower end of the second diagonal rod 683 is fixedly connected to the upper surface of the first backing plate 69. . The upper end of the second vertical rod 60 is fixedly connected to the lower surface of the first frame 66, and the lower end of the second vertical rod 60 is provided with a fifth recess 601 and is received in the fifth recess 601. a first roller 602 and a second saw tooth 603 disposed on the first roller 602. The first roller 602 is received in the fifth groove 601 and is pivotally connected to the second vertical rod 60. The second sawtooth a plurality of 603s are disposed on the first roller 602, and the second saw teeth 603 cooperate with the first saw teeth 191 to further rotate the first support block 19, the first roller 602 is connected to the motor.

如图1所示，所述杀菌装置7包括杀菌框71、位于所述杀菌框71左侧的第三管道72、位于所述杀菌框71内的第九过滤网73、位于所述第九过滤网73右侧的玻璃罩74、位于所述玻璃罩74内的紫外线灯75、位于所述杀菌框71上方的电源76、位于所述杀菌框71内的轨道架77、位于所述杀菌框71下方的第四管道78、设置于所述第四管道78上的第一阀门79及位于所述第四管道78左右两侧的第五支撑杆70。所述杀菌框71呈空心的长方体，所述杀菌框71上设有位于其左表面的第七通孔711、位于其下表面的第八通孔712。所述第三管道72的一端对准所述第七通孔711且与所述杀菌框71的左表面固定连接，所述第三管道72的另一端对准所述第一通孔141且与所述第二收集箱14的右表面固定连接，所述第二管道72上设有第一水泵722、第二阀门721、位于所述第一水泵722下方的第二横杆723、位于所述第二横杆723上方的第三横杆724、位于所述第二阀门721上方的第四横杆725、位于所述第四横杆725下方的第三斜杆726、位于所述第四横杆725上方的第三竖杆727及位于所述第三竖杆727左侧的第五横杆728，所述第二横杆723的左端与所述第一框体66的右表面固定连接，所述第三管道72贯穿所述第二横杆723的上下表面且与其固定连接，从而对所述第三管道72起到固定的作用。所述第三横杆724的左端与所述第三管道72固定连接。所述第四横杆725的右端与所述杀菌框71的左表面固定连接，所述第四横杆725的左端与所述第一过滤框41的右表面固定连接，所述第三管道72贯穿所述第四横杆725的上下表面且与其固定连接。所述第三斜杆726的下端与所述第一过滤框41的右表面固定连接，所述第三斜杆726的上端与所述第四横杆725的下表面固定连接。所述第三竖杆727的下端与所述第四横杆725的上表面固定连接，所述第三竖杆727的上端与所述第二支架32的下表面固定连接。所述第五横杆728的右端与所述第三竖杆727的左表面固定连接，所述第五横杆728的左端与所述第一过滤框41的右表面固定连接。所述第九过滤网73呈空心的半球状，所述第九过滤网73的左表面与所述杀菌框71的内表面固定连接，所述第九过滤网73位于所述第七通孔711的右侧。所述玻璃罩74呈空心半球状，所述玻璃罩74采用透明玻璃制成，所述玻璃罩74的上表面与所述杀菌框71的内表面固定连接。所述紫外线灯75与电源76电性连接。所述轨道架77呈L型，所述轨道架77的两端与所述杀菌框71的内表面固定连接。所述第四管道78的上端对准所述第八通孔712且与所述杀菌框71的下表面固定连接。所述第五支撑杆70设有两个且分别位于所述第四管道78的左右两侧，所述第五支撑杆70的上端与所述杀菌框71的下表面固定连接。As shown in FIG. 1, the sterilizing device 7 includes a sterilization frame 71, a third pipe 72 located on the left side of the sterilization frame 71, a ninth filter 73 located in the sterilization frame 71, and the ninth filter. a glass cover 74 on the right side of the net 73, an ultraviolet lamp 75 located in the glass cover 74, a power source 76 located above the sterilization frame 71, a rail frame 77 located in the sterilization frame 71, and the sterilization frame 71. The lower fourth pipe 78, the first valve 79 disposed on the fourth pipe 78, and the fifth support rod 70 on the left and right sides of the fourth pipe 78. The sterilization frame 71 has a hollow rectangular parallelepiped, and the sterilization frame 71 is provided with a seventh through hole 711 on the left surface thereof and an eighth through hole 712 on the lower surface thereof. One end of the third duct 72 is aligned with the seventh through hole 711 and is fixedly connected to the left surface of the sterilization frame 71, and the other end of the third duct 72 is aligned with the first through hole 141 and The second surface of the second collecting tank 14 is fixedly connected, and the second pipe 72 is provided with a first water pump 722, a second valve 721, and a second crossbar 723 located below the first water pump 722. a third crossbar 724 above the second crossbar 723, a fourth crossbar 725 above the second valve 721, and a third diagonal bar 726 below the fourth crossbar 725, located in the fourth crossbar a third vertical rod 727 above the rod 725 and a fifth cross rod 728 located on the left side of the third vertical rod 727. The left end of the second cross rod 723 is fixedly connected to the right surface of the first frame 66. The third duct 72 penetrates the upper and lower surfaces of the second crossbar 723 and is fixedly connected thereto, thereby fixing the third duct 72. The left end of the third crossbar 724 is fixedly coupled to the third duct 72. The right end of the fourth crossbar 725 is fixedly connected to the left surface of the sterilization frame 71, and the left end of the fourth crossbar 725 is fixedly connected to the right surface of the first filter frame 41, and the third conduit 72 is Through the upper and lower surfaces of the fourth crossbar 725 and fixed thereto Make a connection. The lower end of the third diagonal rod 726 is fixedly connected to the right surface of the first filter frame 41, and the upper end of the third diagonal rod 726 is fixedly connected to the lower surface of the fourth horizontal rod 725. The lower end of the third vertical rod 727 is fixedly connected to the upper surface of the fourth horizontal rod 725, and the upper end of the third vertical rod 727 is fixedly connected to the lower surface of the second bracket 32. The right end of the fifth crossbar 728 is fixedly connected to the left surface of the third vertical rod 727, and the left end of the fifth crossbar 728 is fixedly connected to the right surface of the first filter frame 41. The ninth filter net 73 is in a hollow hemisphere shape, and the left surface of the ninth filter net 73 is fixedly connected to the inner surface of the sterilizing frame 71, and the ninth filter net 73 is located in the seventh through hole 711. On the right side. The cover glass 74 has a hollow hemispherical shape, and the cover glass 74 is made of transparent glass. The upper surface of the cover glass 74 is fixedly connected to the inner surface of the sterilization frame 71. The ultraviolet lamp 75 is electrically connected to the power source 76. The rail frame 77 is L-shaped, and both ends of the rail frame 77 are fixedly connected to the inner surface of the sterilization frame 71. The upper end of the fourth duct 78 is aligned with the eighth through hole 712 and is fixedly connected to the lower surface of the sterilization frame 71. The fifth support rod 70 is disposed at two sides and is respectively located on the left and right sides of the fourth duct 78. The upper end of the fifth support rod 70 is fixedly connected to the lower surface of the sterilization frame 71.

如图1所示，所述气缸装置8包括第二气缸81、位于所述第二气缸81左侧的第三推动杆82、位于所述杀菌框71右侧的第一定位柱83、位于所述第一定位柱83内的第四推动杆84、位于所述第二气缸81上方的第六支架85、位于所述第二气缸81下方的第七支架86、位于所述第七支架86左侧的第四斜杆87、位于所述第四推动杆84下方的第十过滤网88、位于所述第十过滤网88下方的第三弹簧89。所述第三推动杆82呈长方体，所述第三推动杆82水平放置，所述第三推动杆82的右端与所述第二气缸81连接。所述第一定位柱83的左表面与所述杀菌框71的右表面固定连接，所述第一定位柱83上设有贯穿其左右表面的第一通道，所述第一通道呈长方体状，所述第三推动杆82的左端收容于所述第一通道内且可以在所述第一通道内左右移动。所述第四推动杆84采用弹性材料制成，所述第四推动杆84的的上端收容于所述第一通道内且与所述第一定位柱83滑动连接，所述第四推动杆84贯穿所述杀菌框71的右表面且与其滑动连接，所述第四推动杆84的下端延伸至所述杀菌框71内且顶靠在所述轨道架77上。所述第六支架85的一端与所述第二气缸81的上表面固定连接，所述第六支架85的另一端与所述杀菌框71的右表面固定连接，所述第六支架85上设有第二连接杆851，所述第二连接杆851的上端与所述第六支架85固定连接，所述第二连接杆851的下端与所述第一定位柱83的上表面固定连接。所述第七支架86的一端与所述第二气缸81的下表面固定连接，所述第七支架86的另一端与所述第四斜杆87固定连接。所述第四斜杆87的一端与所述第一定位柱83固定连接，所述第四斜杆87的另一端与所述杀菌框71固定连接。所述第十过滤网88的侧面与所述杀菌框71的内表面滑动连接，所述轨道架77贯穿所述第十过滤网88的上下表面且与其滑动连接。所述第三弹簧89设有若干个且左右依次排列，所述第三弹簧89的下端与所述杀菌框71的内表面固定连接，所述第三弹簧89的上端与所述第十过滤网88的固定连接。As shown in FIG. 1, the cylinder device 8 includes a second cylinder 81, a third push rod 82 located on the left side of the second cylinder 81, and a first positioning post 83 located on the right side of the sterilization frame 71. a fourth push rod 84 in the first positioning post 83, a sixth bracket 85 located above the second cylinder 81, a seventh bracket 86 located below the second cylinder 81, and a left side of the seventh bracket 86 A fourth inclined rod 87 on the side, a tenth filter net 88 located below the fourth push rod 84, and a third spring 89 located below the tenth filter net 88. The third push rod 82 has a rectangular parallelepiped shape, the third push rod 82 is horizontally placed, and the right end of the third push rod 82 is connected to the second cylinder 81. The left surface of the first positioning post 83 is fixedly connected to the right surface of the sterilization frame 71, the first The positioning post 83 is provided with a first passage extending through the left and right surfaces thereof. The first passage has a rectangular parallelepiped shape, and the left end of the third push rod 82 is received in the first passage and can be in the first passage. Move left and right. The fourth push rod 84 is made of an elastic material, and the upper end of the fourth push rod 84 is received in the first passage and is slidably connected to the first positioning post 83. The fourth push rod 84 is slidably connected to the first positioning rod 84. Through the right surface of the sterilization frame 71 and slidingly connected thereto, the lower end of the fourth push rod 84 extends into the sterilization frame 71 and abuts against the rail frame 77. One end of the sixth bracket 85 is fixedly connected to the upper surface of the second cylinder 81, and the other end of the sixth bracket 85 is fixedly connected to the right surface of the sterilization frame 71, and the sixth bracket 85 is provided. There is a second connecting rod 851. The upper end of the second connecting rod 851 is fixedly connected to the sixth bracket 85. The lower end of the second connecting rod 851 is fixedly connected to the upper surface of the first positioning post 83. One end of the seventh bracket 86 is fixedly connected to the lower surface of the second cylinder 81, and the other end of the seventh bracket 86 is fixedly connected to the fourth diagonal rod 87. One end of the fourth diagonal rod 87 is fixedly connected to the first positioning post 83, and the other end of the fourth diagonal rod 87 is fixedly connected to the sterilization frame 71. The side surface of the tenth filter net 88 is slidably connected to the inner surface of the sterilization frame 71, and the rail frame 77 penetrates the upper and lower surfaces of the tenth filter net 88 and is slidably coupled thereto. The third spring 89 is disposed in a plurality of positions and arranged in the left and right direction, and the lower end of the third spring 89 is fixedly connected to the inner surface of the sterilization frame 71, and the upper end of the third spring 89 and the tenth filter Fixed connection of 88.

如图1所示，所述加热装置9包括加热框91、位于所述加热框91内的第二海绵块92、位于所述第二海绵块92下方的第一弯曲板93、位于所述第一弯曲板93下方的第六支撑杆94、位于所述第六支撑杆94下方的第二支撑板95、位于所述第二支撑板95下方的散热框96、位于所述散热框96下方的第七支撑杆97、位于所述加热框91下方的第五管道98、位于所述加热框91左侧的第三连接杆99 及位于所述加热框91右侧的第八支架90。所述加热框91呈空心的圆柱体，所述加热框91上设有、第九通孔911、位于其下表面的第十通孔912，所述第四管道78的下端对准所述第九通孔911且与所述加热框91的上表面固定连接，所述第五支撑杆70的下端与所述加热框91固定连接。所述第二海绵块92位于所述第九通孔911的正下方，所述第二海绵块92的上表面与所述加热框91的内表面固定连接。所述第一弯曲板93呈横截面为半圆环状的柱体，所述第二海绵块92的下表面与所述第一弯曲板93的上表面固定连接，所述第一弯曲板93的下表面与所述第二支撑板95的上表面固定连接。所述第二支撑板95的侧面与所述加热框91的内表面固定连接，所述第二支撑板95上设有贯穿其上下表面的第十一通孔951。所述第六支撑杆94设有两个且分别位于所述第一弯曲板93内的左右两侧，所述第六支撑杆94的下端与所述第二支撑板95的上表面固定连接，所述第六支撑杆94的上端与所述第一弯曲板93的内表面固定连接。所述散热框96呈空心的长方体，所述散热框96的上表面与所述第二支撑板95的下表面固定连接，所述散热框96采用导热材料制成，所述散热框96内设有加热棒961，所述加热棒961与电源76电性连接，使得所述加热棒961可以进行加热。所述第七支撑杆97设有两个且分别位于所述散热框96下方的左右两侧，所述第七支撑杆97的上端与所述散热框96的下表面固定连接，所述第七支撑杆97的下端与所述加热框91的内表面固定连接，所述第七支撑杆97的下端设有第六凹槽971，所述第六凹槽971贯穿所述第七支撑杆97的左右表面。所述第五管道98的上端对准所述第十通孔912且与所述加热框91的下表面固定连接，所述第五管道98上设有第三阀门981。所述第三连接杆99的右端与所述加热框91的侧面固定连接，所述第三连接杆99的左端与所述第一水泵722固定连接。所述第八支架90的一端与所述加热框91的侧面固定连接，所述第八支架90的另一端呈水平状。As shown in FIG. 1, the heating device 9 includes a heating frame 91, a second sponge block 92 located in the heating frame 91, and a first curved plate 93 located below the second sponge block 92. a sixth support rod 94 below the curved plate 93, a second support plate 95 under the sixth support rod 94, a heat dissipation frame 96 located below the second support plate 95, and a lower portion of the heat dissipation frame 96 a seventh support rod 97, a fifth duct 98 located below the heating frame 91, and a third connecting rod 99 located on the left side of the heating frame 91 And an eighth bracket 90 located on the right side of the heating frame 91. The heating frame 91 is a hollow cylinder. The heating frame 91 is provided with a ninth through hole 911 and a tenth through hole 912 at a lower surface thereof. The lower end of the fourth pipe 78 is aligned with the first hole. The nine through holes 911 are fixedly connected to the upper surface of the heating frame 91, and the lower end of the fifth support rod 70 is fixedly coupled to the heating frame 91. The second sponge block 92 is located directly below the ninth through hole 911, and the upper surface of the second sponge block 92 is fixedly connected to the inner surface of the heating frame 91. The first curved plate 93 is a cylinder having a semi-annular cross section, and a lower surface of the second sponge block 92 is fixedly connected to an upper surface of the first curved plate 93, and the first curved plate 93 is The lower surface is fixedly coupled to the upper surface of the second support plate 95. The side surface of the second support plate 95 is fixedly connected to the inner surface of the heating frame 91, and the second support plate 95 is provided with an eleventh through hole 951 extending through the upper and lower surfaces thereof. The sixth support rod 94 is provided with two left and right sides respectively located in the first curved plate 93, and the lower end of the sixth support rod 94 is fixedly connected with the upper surface of the second support plate 95. An upper end of the sixth support rod 94 is fixedly coupled to an inner surface of the first curved plate 93. The heat dissipation frame 96 has a hollow rectangular parallelepiped, and the upper surface of the heat dissipation frame 96 is fixedly connected to the lower surface of the second support plate 95. The heat dissipation frame 96 is made of a heat conductive material, and the heat dissipation frame 96 is internally provided. There is a heating rod 961 which is electrically connected to the power source 76 so that the heating rod 961 can be heated. The seventh support rods 97 are disposed on the left and right sides of the heat dissipation frame 96, and the upper ends of the seventh support rods 97 are fixedly connected to the lower surface of the heat dissipation frame 96. The lower end of the support rod 97 is fixedly connected to the inner surface of the heating frame 91, and the lower end of the seventh support rod 97 is provided with a sixth groove 971, and the sixth groove 971 extends through the seventh support rod 97. Left and right surfaces. The upper end of the fifth duct 98 is aligned with the tenth through hole 912 and is fixedly connected to the lower surface of the heating frame 91, and the fifth duct 98 is provided with a third valve 981. The right end of the third connecting rod 99 and the side of the heating frame 91 The left end of the third connecting rod 99 is fixedly connected to the first water pump 722. One end of the eighth bracket 90 is fixedly connected to the side surface of the heating frame 91, and the other end of the eighth bracket 90 is horizontal.

如图1所示，所述冷却装置10包括冷却箱101、位于所述冷却箱101内的第一冷却框102、位于所述第一冷却框102内的第一冷却管103、位于所述第一冷却框102下方的第八支撑杆104、位于所述第八支撑杆104下方的第二冷却框105、收容于所述第二冷却框105下方的第二冷却管106、位于所述冷却箱101下方的第六管道107及设置于所述第六管道107上的第四阀门108。所述冷却箱101呈空心的长方体，所述冷却箱101的下表面设有第一圆孔。所述第二冷却框105呈空心的长方体，所述第二冷却框105的下表面与所述冷却箱101的内表面固定连接，所述第二冷却框105采用导热材料制成。所述第二冷却管106设有若干个且均匀分布在所述第二冷却框105内，所述第二冷却管106内流通有水。所述第八支撑杆104设有两个且分别位于所述第二冷却框105上方的左右两侧，所述第八支撑杆104的下端与所述第二冷却框105的上表面固定连接，所述第八支撑杆104的上端与所述第一冷却框102的下表面固定连接。所述第一冷却框102呈空心的圆柱体，所述第一冷却框102水平放置，所述第一冷却框102采用导热材料制成。所述第一水管103设有若干个且均匀分布在所述第一冷却框102。所述第六管道107设有两个且分别位于所述冷却箱101下方的左右两侧，所述第六管道107的上端对准所述第一圆孔且与所述冷却箱101的下表面固定连接。所述第二横杆723及第三横杆724的右端与所述冷却箱101的左表面固定连接。As shown in FIG. 1 , the cooling device 10 includes a cooling box 101 , a first cooling frame 102 located in the cooling box 101 , and a first cooling pipe 103 located in the first cooling frame 102 . An eighth support rod 104 below the cooling frame 102, a second cooling frame 105 located below the eighth support rod 104, and a second cooling tube 106 received under the second cooling frame 105, located in the cooling box A sixth duct 107 below the 101 and a fourth valve 108 disposed on the sixth duct 107. The cooling box 101 has a hollow rectangular parallelepiped, and a lower surface of the cooling box 101 is provided with a first circular hole. The second cooling frame 105 has a hollow rectangular parallelepiped, a lower surface of the second cooling frame 105 is fixedly connected to an inner surface of the cooling box 101, and the second cooling frame 105 is made of a heat conductive material. The second cooling pipe 106 is provided in a plurality and uniformly distributed in the second cooling frame 105, and water is circulated in the second cooling pipe 106. The eighth support rod 104 is disposed on the left and right sides of the second cooling frame 105, and the lower end of the eighth support rod 104 is fixedly connected to the upper surface of the second cooling frame 105. An upper end of the eighth support rod 104 is fixedly coupled to a lower surface of the first cooling frame 102. The first cooling frame 102 is a hollow cylinder, the first cooling frame 102 is horizontally placed, and the first cooling frame 102 is made of a heat conductive material. The first water pipe 103 is provided with several and evenly distributed on the first cooling frame 102. The sixth duct 107 is provided with two left and right sides respectively located below the cooling box 101, and an upper end of the sixth duct 107 is aligned with the first circular hole and with a lower surface of the cooling box 101 Fixed connection. The right ends of the second rail 723 and the third rail 724 are fixedly coupled to the left surface of the cooling box 101.

如图1所示，所述自动集雨及净化装置使用时，当雨量较大时，可以不用启动第一气缸33，从而通过第四收集箱26及第二集中斗24完成对雨水的收集，进入到第四收集箱26内的雨水经过第二三角块27的集中作用进入到第一管道25内，然后进入到第三收集箱21内，同时可以通过第二集中斗24将雨水集中到第三收集箱21内，从而可以实现对雨水的分流量回收，反之水压过大，并且防止水流过大导致的排水困难，更大效率的集中雨水；当雨量较大时，可以启动第一气缸33，使得第一推动杆34及第二推动杆35向上推动第五收集框36，将第五收集框36处于水平状态，进而使得第五收集框36与雨水接触的面积最大，可以尽快的收集满雨水，然后使得第一气缸33带动第一推动杆34及第二推动杆35向上推动第五收集框36继续向上移动，使得第五收集框36内的水倒入到第二集中斗24内，然后经过第二凹槽251进入到第三收集21内，然后经过第二管道29进入到所述第一过滤框21内，然后经过第四过滤网44的过滤后进入到下方，由于第五过滤网46呈V字形，使得部分水经过第五过滤网46的两端直接流动到下方，然后部分集中到第五过滤网46之间，经过第五过滤网46的过滤后进入到下方，同时其中的杂质集中到第五过滤网46之间，从而可以将水流分成若干部分，减小水流的压力，防止其对第五过滤网46造成的损坏。然后经过倒流块40的导流作用向左侧流动，然后经过第六过滤网47的过滤后向下流动，然后经过第一海绵块48及第七过滤网49的过滤后进入到沉淀框51内，经过过滤斗54的过滤后进入到下方，其中杂质进入到过滤环55之间，并且分布在所述分流块56的周围，然后启动第一电机61，使得沉淀框51开始旋转，此时第三集中斗52及挡框53固定不动且与所述沉淀框51发生滑动，所述沉淀框51内的水开始做离心运动，并对其进行沉淀作用，由于杂质处于过滤环55内，使得杂质开始在过滤环55内表面上向上流动，并且由于过滤斗54的设置，使得杂质集中在过滤斗54的下方而不会向上移动，并且雨水开始向上流动，当雨水达到第四通孔511的高度时，雨水经过第四通孔511进入到挡框53内，经过第五通孔531进入到收集环57内，然后经过挡环59的集中作用，将雨水集中到第一框体66内，然后第二支撑杆64及第三支撑杆65左侧的雨水经过第三凹槽641及第四凹槽651流动到右侧，然后经过第八过滤网67的过滤后，经过第六通孔661进入到第一集中斗15的集中作用进入到第二收集箱14内，然后启动与第一滚轮602连接的电机，使得第一滚轮602旋转，进而通过第二锯齿603及第一锯齿191的配合，使得第一支撑块19顺时针旋转，进而使得第二收集箱14顺时针旋转，使得第二收集箱14内的水集中到第二收集箱14内的右侧，经过第二过滤网16的过滤后经过第一通孔141进入到第三管道72内，然后启动第一气泵722并且打开第二阀门721，使得雨水进入到杀菌框71内，然后经过第九过滤网73的过滤后集中到杀菌框71内的下方，然后启动紫外线灯75，使其发出紫外线，并且经过玻璃罩74照在雨水上对其进行杀菌。同时启动第二气缸81，使得第三推动杆82向左推动第四推动杆84，使得第四推动杆84发生变形并向下顶压第十过滤网88，使得第十过滤网88向下移动，然后第二气缸81使得第三推动杆82向右移动，然后第三弹簧89向上顶压第十过滤网88，使得第十过滤网88向上移动，进而使得第四推动杆84向上移动并发生弹性变形，使得第十过滤网88不断的上下移动，进而使得水流不断的上下移动，从而使得紫外线对其进行杀菌的效果更好，防止水面下方的水无法经过紫外线的杀菌处理。杀菌完毕后，打开第一阀门79，使得杀菌框71内的雨水进入到第四管道78内，然后进入到加热框91内，经过第二海绵块92的过滤后向两侧流动，并且顺着第一弯曲板93的上表面向两侧流动，此时启动加热棒961，使得加热框91内温度上升，进而可以对加热框91内的水进行加热以便进行杀菌消毒，然后由于雨水分布在散热框96及第一弯曲板93的周围，使得其与散热框96接触的面积较大，进而使得加热较快，减少能源的浪费。然后打开第三阀门981，使得加热框91内的水进入到第五管道98内，然后进入到冷却箱101内，此时第一冷却管103及第二冷却管106内流通有水，从而可以对冷却箱101内的水进行冷却，由于第一冷却框102及第二冷却框105的设置，使得其与水的接触面积较大，进而使得冷却效果更显著，并且冷却的效率更高，待冷却完毕后，打开第四阀门108进入到第六管道107内，然后进入到第一收集箱11内，并且经过第一过滤网13的过滤后进入到第一收集箱11的底部。至此，本发明自动集雨及净化装置使用过程描述完毕。 As shown in FIG. 1 , when the automatic rain collecting and purifying device is used, when the rainfall is large, The first cylinder 33 may not be activated, so that the collection of rainwater is completed by the fourth collection box 26 and the second concentration hopper 24, and the rainwater entering the fourth collection box 26 passes through the concentration of the second triangular block 27 to enter the first The inside of the pipe 25 is then entered into the third collecting box 21, and the rainwater can be concentrated into the third collecting box 21 through the second concentrating bucket 24, so that the partial flow recovery of the rainwater can be realized, and the water pressure is too large, and Preventing drainage difficulties caused by excessive water flow, more concentrated rainwater; when the rainfall is large, the first cylinder 33 can be activated, so that the first push rod 34 and the second push rod 35 push the fifth collection frame 36 upward, The fifth collecting frame 36 is in a horizontal state, so that the area of the fifth collecting frame 36 contacting with the rainwater is maximized, and the rainwater can be collected as soon as possible, and then the first cylinder 33 drives the first pushing rod 34 and the second pushing rod 35 to push up. The fifth collecting frame 36 continues to move upward, so that the water in the fifth collecting frame 36 is poured into the second concentrating bucket 24, then enters the third collection 21 through the second recess 251, and then passes through the second tube. 29 enters the first filter frame 21, and then passes through the filtration of the fourth filter 44 to enter below. Since the fifth filter 46 has a V shape, a part of the water flows directly through both ends of the fifth filter 46. Down to the bottom, then partially concentrated between the fifth filter nets 46, filtered through the fifth filter net 46, and then the impurities therein are concentrated between the fifth filter nets 46, so that the water flow can be divided into several parts. The pressure of the water flow is reduced to prevent damage to the fifth filter 46. Then, it flows to the left side through the flow guiding action of the backflow block 40, then flows downward through the filtration of the sixth filter mesh 47, and then passes through the filtration of the first sponge block 48 and the seventh filter mesh 49 to enter the precipitation frame 51. After filtering through the filter hopper 54, the lower portion enters the filter ring 55 and is distributed around the flow dividing block 56, and then the first motor 61 is activated, so that the precipitation frame 51 starts to rotate. The three concentrating bucket 52 and the retaining frame 53 are fixed and slide with the precipitation frame 51, and the water in the precipitation frame 51 starts to perform centrifugal movement and precipitates, since the impurities are in the filter ring 55, The impurities start to flow upward on the inner surface of the filter ring 55, and due to the arrangement of the filter hopper 54, the impurities are concentrated below the filter hopper 54 without moving upward, and the rain starts to flow upward when the rain reaches the fourth through hole 511. When the height is high, the rainwater enters the frame 53 through the fourth through hole 511, enters the collecting ring 57 through the fifth through hole 531, and then concentrates the rainwater into the first frame 66 through the concentrated action of the retaining ring 59. Then, the rainwater on the left side of the second support rod 64 and the third support rod 65 flows to the right side through the third groove 641 and the fourth groove 651, and then passes through the eighth filter mesh 67 and passes through the sixth through hole. The 661 enters the concentrated action of the first concentrating bucket 15 into the second collecting box 14, and then activates the motor connected to the first roller 602, so that the first roller 602 rotates, and then passes through the second sawtooth 603 and the first sawtooth 191. Cooperating, the first support block 19 is rotated clockwise, so that the second collecting box 14 rotates clockwise, so that the water in the second collecting box 14 is concentrated to the right side in the second collecting box 14, passing through the second filter net 16 Filtered after the first A through hole 141 enters the third duct 72, and then the first air pump 722 is activated and the second valve 721 is opened, so that the rainwater enters the sterilization frame 71, and then is filtered by the ninth filter 73 and concentrated in the sterilization frame 71. Below, the ultraviolet lamp 75 is then activated to emit ultraviolet light, and it is sterilized by the glass cover 74 on the rain. At the same time, the second cylinder 81 is activated, so that the third push rod 82 pushes the fourth push rod 84 to the left, so that the fourth push rod 84 is deformed and presses the tenth filter net 88 downward, so that the tenth filter net 88 moves downward. Then, the second cylinder 81 causes the third push rod 82 to move to the right, and then the third spring 89 presses up on the tenth filter net 88, so that the tenth filter net 88 moves upward, thereby causing the fourth push rod 84 to move upward and occur. The elastic deformation causes the tenth filter 88 to continuously move up and down, thereby continuously moving the water flow up and down, so that the ultraviolet light sterilizes it better, preventing the water below the water surface from being sterilized by ultraviolet rays. After the sterilization is completed, the first valve 79 is opened, so that the rainwater in the sterilization frame 71 enters the fourth pipe 78, and then enters. In the heating frame 91, after filtering by the second sponge block 92, it flows to both sides, and flows along the upper surface of the first curved plate 93 to both sides. At this time, the heating rod 961 is activated, so that the temperature in the heating frame 91 rises. In addition, the water in the heating frame 91 can be heated for sterilization and disinfection, and then the rainwater is distributed around the heat dissipation frame 96 and the first curved plate 93, so that the contact area with the heat dissipation frame 96 is large, thereby making the heating more Fast, reduce energy waste. Then, the third valve 981 is opened, so that the water in the heating frame 91 enters the fifth pipe 98, and then enters the cooling tank 101. At this time, water flows in the first cooling pipe 103 and the second cooling pipe 106, so that The water in the cooling box 101 is cooled. Due to the arrangement of the first cooling frame 102 and the second cooling frame 105, the contact area with water is large, so that the cooling effect is more remarkable, and the cooling efficiency is higher. After the cooling is completed, the fourth valve 108 is opened to enter the sixth duct 107, then enters the first collection tank 11, and passes through the filtration of the first filter 13 to enter the bottom of the first collection tank 11. So far, the use process of the automatic rain collecting and purifying device of the present invention has been described.

Claims

一种自动集雨及净化装置，其特征在于：所述自动集雨及净化装置包括底板、位于所述底板上方的第一收集装置、位于所述第一收集装置左右两侧的第二收集装置、位于所述第一收集装置下方的第一过滤装置、位于所述第一过滤装置下方的沉淀装置、位于所述沉淀装置下方的旋转装置、位于所述旋转装置右侧的杀菌装置、位于所述杀菌装置右侧的气缸装置、位于所述杀菌装置下方的加热装置及位于所述加热装置下方的冷却装置，所述底板上设有第一收集箱、位于所述第一收集箱内的第一固定块、位于所述第一固定块上方的第一过滤网、位于所述第一收集箱左侧的第二收集箱、位于所述第二收集箱内的第一集中斗、位于所述第一集中斗下方的第二过滤网、位于所述第二收集箱下方的第一弹簧、位于所述第一弹簧左侧的第一支撑杆及位于所述第一支撑块上方的第一支撑块，所述第一收集装置包括第三收集箱、位于所述第三收集箱内的第一三角块、位于所述第一三角块上方的第三过滤网、位于所述第三过滤网上方的第二集中斗、位于所述第二集中斗上方的第一管道、位于所述第一管道上方的第四收集箱、位于所述第四收集箱内的第二三角块、位于所述第四收集箱下方的第一支架、位于所述第三收集箱下方的第二管道，所述第二收集装置包括第一支撑板、位于所述第一支撑板下方的第二支架、位于所述第一支撑板上方的第一气缸、位于所述第一气缸上方的第一推动杆、位于所述第一推动杆上方的第二推动杆、位于所述第二推动杆上方的第五收集框、设置于所述第五收集框内的第三三角块、设置于所述第五收集框上的第一连接板及位于所述第一连接板下方的第二固定块，所述第一过滤装置包括第一过滤框、位于所述第一过滤框上方第一固定斗、位于所述第一固定斗上方的第一连接杆、位于所述第一过滤框内的第四过滤网、位于所述第四过滤网下方的第一支撑轴、设置于所述第一支撑轴上的第五过滤网、位于所述第一支撑轴左侧的第六过滤网、位于所述第六过滤网左侧的第一海绵块、位于所述第一海绵块下方的第七过滤网及位于所述第一过滤框内的倒流块，所述沉淀装置包括沉淀框、位于所述沉淀框上方的第三集中斗、位于所述沉淀框周围的挡框、位于所述沉淀框内的过滤斗、位于所述过滤斗下方的过滤环、位于所述过滤环内的分流块、位于所述沉淀框周围的收集环、设置于所述收集环上的第一固定环、位于所述收集环下方的挡环及位于所述收集环上方的第二固定环，所述旋转装置包括第一电机、位于所述第一电机上方的第一转轴、位于所述第一电机左右两侧的第四支架、位于所述第一电机下方的第二支撑杆、位于所述第二支撑杆左右两侧的第三支撑杆、位于所述第三支撑杆下方的第一框体、位于所述第一框体内的第八过滤网、位于所述第一框体下方的第四支撑杆、位于所述第四支撑杆下方的第一垫板及位于所述第四支撑杆右侧的第二竖杆，所述杀菌装置包括杀菌框、位于所述杀菌框左侧的第三管道、位于所述杀菌框内的第九过滤网、位于所述第九过滤网右侧的玻璃罩、位于所述玻璃罩内的紫外线灯、位于所述杀菌框上方的电源、位于所述杀菌框内的轨道架、位于所述杀菌框下方的第四管道、设置于所述第四管道上的第一阀门及位于所述第四管道左右两侧的第五支撑杆，所述气缸装置包括第二气缸、位于所述第二气缸左侧的第三推动杆、位于所述杀菌框右侧的第一定位柱、位于所述第一定位柱内的第四推动杆、位于所述第二气缸上方的第六支架、位于所述第二气缸下方的第七支架、位于所述第七支架左侧的第四斜杆、位于所述第四推动杆下方的第十过滤网、位于所述第十过滤网下方的第三弹簧，所述加热装置包括加热框、位于所述加热框内的第二海绵块、位于所述第二海绵块下方的第一弯曲板、位于所述第一弯曲板下方的第六支撑杆、位于所述第六支撑杆下方的第二支撑板、位于所述第二支撑板下方的散热框、位于所述散热框下方的第七支撑杆、位于所述加热框下方的第五管道、位于所述加热框左侧的第三连接杆及位于所述加热框右侧的第八支架，所述冷却装置包括冷却箱、位于所述冷却箱内的第一冷却框、位于所述第一冷却框内的第一冷却管、位于所述第一冷却框下方的第八支撑杆、位于所述第八支撑杆下方的第二冷却框、收容于所述第二冷却框下方的第二冷却管、位于所述冷却箱下方的第六管道及设置于所述第六管道上的第四阀门。An automatic rain collecting and purifying device, characterized in that: the automatic rain collecting and purifying device comprises a bottom plate, a first collecting device located above the bottom plate, and a second collecting device located at left and right sides of the first collecting device a first filtering device located below the first collecting device, a precipitating device located below the first filtering device, a rotating device located below the precipitating device, a sterilization device located on the right side of the rotating device, located at the a cylinder device on the right side of the sterilization device, a heating device located below the sterilization device, and a cooling device located below the heating device, wherein the bottom plate is provided with a first collection box and a first one located in the first collection box a fixing block, a first filter net located above the first fixing block, a second collecting box located at a left side of the first collecting box, and a first collecting bucket located in the second collecting box, located at the a second filter below the first concentration bin, a first spring located below the second collection bin, a first support bar located on the left side of the first spring, and the first support The first support block above, the first collecting device comprises a third collecting box, a first triangular block located in the third collecting box, a third filter net located above the first triangular block, located at the a second concentrating bucket on the third filter net, a first pipe above the second concentrating bucket, a fourth collecting bin above the first pipe, and a second triangular block located in the fourth collecting bin a first bracket located below the fourth collection box, a second duct located below the third collection box, the second collection device includes a first support plate, and a second portion below the first support plate a bracket, a first cylinder above the first support plate, a first push rod above the first cylinder, a second push rod above the first push rod, above the second push rod Fifth collection a third triangular block disposed in the fifth collection frame, a first connecting plate disposed on the fifth collecting frame, and a second fixed block located below the first connecting plate, the first The filter device includes a first filter frame, a first fixed hopper above the first filter frame, a first connecting rod above the first fixed hopper, a fourth filter located in the first filter frame, and a first support shaft below the fourth filter net, a fifth filter net disposed on the first support shaft, a sixth filter net located on the left side of the first support shaft, and the sixth filter net a first sponge block on the left side, a seventh filter net located below the first sponge block, and a reverse flow block located in the first filter frame, the sedimentation device including a precipitation frame, and a portion above the precipitation frame a three-concentration bucket, a stop frame located around the precipitation frame, a filter bucket located in the sedimentation frame, a filter ring located below the filter bucket, a flow dividing block located in the filter ring, and located around the sedimentation frame Collection ring disposed on the collection ring a first retaining ring, a retaining ring located below the collecting ring, and a second retaining ring located above the collecting ring, the rotating device comprising a first motor, a first rotating shaft located above the first motor, located at the a fourth bracket on the left and right sides of the first motor, a second support rod located below the first motor, and a third support rod on the left and right sides of the second support rod, located below the third support rod a first frame, an eighth filter positioned in the first frame, a fourth support bar located below the first frame, a first pad located below the fourth support bar, and the first plate a second vertical rod on the right side of the support rod, the sterilizing device comprises a sterilization frame, a third pipe located on the left side of the sterilization frame, a ninth filter net located in the sterilization frame, and the ninth filter net a glass cover on the right side, an ultraviolet lamp located in the glass cover, a power source located above the sterilization frame, a rail frame located in the sterilization frame, and a fourth pipe located below the sterilization frame, disposed in the Fourth tube a first valve on the track and a fifth support bar on the left and right sides of the fourth pipe, the cylinder device comprising a second cylinder, a third push rod located on the left side of the second cylinder, located at the right of the sterilization frame a first positioning post on the side, a fourth push rod located in the first positioning post, a sixth bracket above the second cylinder, a seventh bracket located below the second cylinder, located at the seventh a fourth diagonal rod on the left side of the bracket, a tenth filter net located below the fourth push rod, a third spring located below the tenth filter net, the heating device includes a heating frame, and is located in the heating frame a second sponge block, a first curved plate located below the second sponge block, a sixth support rod located below the first curved plate, a second support plate located below the sixth support rod, located at the a heat dissipation frame below the second support plate, a seventh support bar located below the heat dissipation frame, a fifth pipe located below the heating frame, a third connecting rod located at a left side of the heating frame, and the heating The eighth bracket on the right side of the box, The cooling device includes a cooling box, a first cooling frame located in the cooling box, a first cooling pipe located in the first cooling frame, and an eighth support bar located below the first cooling frame, located at the a second cooling frame below the support rod, a second cooling tube received under the second cooling frame, a sixth pipe located below the cooling box, and a fourth valve disposed on the sixth pipe.
如权利要求1所述的自动集雨及净化装置，其特征在于：所述第一固定块的一端与所述第一收集箱的内表面固定连接，所述第一过滤网的侧面与所述第一收集箱的内表面固定连接，所述第二收集箱上设有第一通孔及第二弹簧，所述第二弹簧的右端与所述第二收集箱的左表面固定连接，所述第一集中斗的上端与所述第二收集箱的内表面固定连接，所述第二过滤网的侧面与所述第二收集箱的内表面固定连接，所述第二过滤网的上表面与所述第一集中斗固定连接，所述第一弹簧的下端与所述底板固定连接，所述第一弹簧的上端与所述第二收集箱固定连接，所述第一支撑杆的上端设有第一凹槽，所述第二收集箱与所述第一支撑块固定连接，所述第一支撑块收容于所述第一凹槽内且与所述第一支撑杆轴转连接，所述第一支撑块上设有第一锯齿。The automatic rain collecting and purifying apparatus according to claim 1, wherein one end of the first fixing block is fixedly connected to an inner surface of the first collecting box, and a side of the first filter net is The inner surface of the first collecting box is fixedly connected, the second collecting box is provided with a first through hole and a second spring, and the right end of the second spring is fixedly connected with the left surface of the second collecting box, An upper end of the first concentrating bucket is fixedly connected to an inner surface of the second collecting box, and a side of the second filter net is fixedly connected to an inner surface of the second collecting box, The upper surface of the second filter is fixedly connected to the first concentrating bucket, the lower end of the first spring is fixedly connected to the bottom plate, and the upper end of the first spring is fixedly connected with the second collecting box. a first groove is disposed at an upper end of the first support rod, and the second collection box is fixedly connected to the first support block, and the first support block is received in the first groove and is The first support rod is pivotally connected, and the first support block is provided with a first saw tooth.
如权利要求2所述的自动集雨及净化装置，其特征在于：所述第三收集箱上设有第二通孔，所述第一三角块与所述第三收集箱的内表面固定连接，所述第三过滤网的侧面与所述第一三角块与所述第三收集箱固定连接，所述第二集中斗的上端与所述第三收集箱的内表面固定连接，所述第一管道的下端与所述第二集中斗的内表面固定连接，所述第一管道上设有贯穿其左右表面的第二凹槽，所述第四收集箱的下表面设有第三通孔，所述第一管道的上端对准所述第三通孔且与所述第四收集箱的下表面固定连接，所述第二三角块与所述第四收集箱的内表面固定连接，所述第二管道的上端对准所述第二通孔且与所述第三收集箱的下表面固定连接。The automatic rain collecting and purifying apparatus according to claim 2, wherein the third collecting box is provided with a second through hole, and the first triangular block is fixedly connected with the inner surface of the third collecting box. The side of the third filter is fixedly connected to the first triangular block and the third collecting box, and the upper end of the second collecting bucket is fixedly connected with the inner surface of the third collecting box. a lower end of a pipe is fixedly connected to an inner surface of the second concentrating bucket, the first pipe is provided with a second groove extending through the left and right surfaces thereof, and the lower surface of the fourth collecting box is provided with a third through hole The upper end of the first pipe is aligned with the third through hole and is fixedly connected with the lower surface of the fourth collecting box, and the second triangular block is fixedly connected with the inner surface of the fourth collecting box. The upper end of the second duct is aligned with the second through hole and is fixedly connected to the lower surface of the third collecting box.
如权利要求3所述的自动集雨及净化装置，其特征在于：所述第一支撑板的一端与所述第三收集箱的侧面固定连接，所述第一气缸的下表面与所述第一支撑板固定连接，所述第一推动杆的下端与所述第一气缸连接，所述第一推动杆的上端与所述第二推动杆的下端轴转连接，所述第二推动杆的上端与所述第五收集框固定连接，所述第二固定块的侧面与所述第三收集箱固定连接，所述第五收集框与所述第二固定块轴转连接，所述第三三角块与所述第五收集框的内表面固定连接，所述第一连接板的一端与所述第五收集框固定连接。The automatic rain collecting and purifying apparatus according to claim 3, wherein one end of the first supporting plate is fixedly connected to a side surface of the third collecting box, and a lower surface of the first cylinder is opposite to the first a support plate is fixedly connected, a lower end of the first push rod is connected to the first cylinder, an upper end of the first push rod is pivotally connected to a lower end of the second push rod, and the second push rod is The upper end is fixedly connected to the fifth collecting frame, the side of the second fixing block is fixedly connected to the third collecting box, and the fifth collecting frame is pivotally connected to the second fixing block, the third a triangular block is fixed to the inner surface of the fifth collecting frame One end of the first connecting plate is fixedly connected to the fifth collecting frame.
如权利要求4所述的自动集雨及净化装置，其特征在于：所述第一过滤框上设有第一斜杆、第一横板、位于所述第一横板上方的第一竖杆、第三支架、位于所述第一横板下方的第一支撑环，所述第一斜杆的两端与所述第一过滤框固定连接，所述第一过滤框贯穿所述第一横板的上下表面且与其固定连接，所述第一固定斗的下表面与所述第一过滤框的上表面固定连接，所述第一固定斗的上端与所述第二管道固定连接，所述第四过滤网的侧面与所述第一过滤框的内表面固定连接，所述第一支撑轴与所述第一过滤框固定连接，所述第五过滤网的下端与所述第一支撑轴固定连接，所述第六过滤网的侧面与所述第一过滤框的内表面固定连接，所述第一海绵块的侧面与所述第一过滤框的内表面固定连接，所述第七过滤网的侧面与所述第一过滤框的内表面固定连接，所述倒流块与所述第一过滤框的内表面固定连接。The automatic rain collecting and purifying apparatus according to claim 4, wherein the first filter frame is provided with a first diagonal rod, a first horizontal plate, and a first vertical rod located above the first horizontal plate. a third support, a first support ring located below the first horizontal plate, the two ends of the first diagonal bar are fixedly connected to the first filter frame, and the first filter frame runs through the first horizontal frame a lower surface of the first fixed hopper is fixedly connected to an upper surface of the first filter frame, and an upper end of the first fixed hopper is fixedly connected to the second pipe, The side of the fourth filter is fixedly connected to the inner surface of the first filter frame, the first support shaft is fixedly connected to the first filter frame, and the lower end of the fifth filter and the first support shaft a fixed connection, a side of the sixth filter is fixedly connected to an inner surface of the first filter frame, a side of the first sponge block is fixedly connected to an inner surface of the first filter frame, and the seventh filter is The side of the net is fixedly connected to the inner surface of the first filter frame, The backflow block is fixedly coupled to an inner surface of the first filter frame.
如权利要求5所述的自动集雨及净化装置，其特征在于：所述沉淀框上设有若干第四通孔，所述第三集中斗的上端与所述第一过滤框固定连接，所述第三集中斗的下表面与所述沉淀框的上表面滑动连接，所述挡框的下表面呈倾斜状，所述挡框的内表面与所述第三集中斗的外表面固定连接，所述挡框的内表面与所述沉淀框的外表面滑动连接，所述挡框的下表面设有若干第五通孔，所述第一支撑环的下表面与所述挡框的上表面固定连接，所述过滤斗的上端与所述沉淀框的内表面固定连接，所述过滤环的下表面与所述沉淀框的内表面固定连接，所述过滤环的上端与所述过滤斗的下表面固定连接，所述分流块的下表面与所述沉淀框的内表面固定连接，所述第一固定环的内表面与所述沉淀框的外表面固定连接，所述第一固定环的外表面与所述收集环固定连接，所述挡环的上端与所述收集环的外表面固定连接，所述第二固定环的内表面与所述沉淀框的外表面固定连接，所述第二固定环的下表面与所述收集环的上表面固定连接。The automatic rain collecting and purifying apparatus according to claim 5, wherein the precipitation frame is provided with a plurality of fourth through holes, and the upper end of the third concentration hopper is fixedly connected to the first filter frame. The lower surface of the third concentrating bucket is slidably connected to the upper surface of the sediment frame, the lower surface of the baffle is inclined, and the inner surface of the baffle is fixedly connected with the outer surface of the third concentrating bucket. An inner surface of the baffle is slidably connected to an outer surface of the precipitation frame, and a lower surface of the baffle is provided with a plurality of fifth through holes, a lower surface of the first support ring and an upper surface of the baffle a fixed connection, an upper end of the filter bucket is fixedly connected to an inner surface of the precipitation frame, a lower surface of the filter ring is fixedly connected to an inner surface of the precipitation frame, and an upper end of the filter ring is opposite to the filter bucket a lower surface fixed connection, the shunt block The lower surface is fixedly connected to the inner surface of the precipitation frame, the inner surface of the first fixing ring is fixedly connected to the outer surface of the precipitation frame, and the outer surface of the first fixing ring is fixedly connected with the collecting ring The upper end of the baffle is fixedly connected to the outer surface of the collecting ring, the inner surface of the second fixing ring is fixedly connected to the outer surface of the precipitation frame, and the lower surface of the second fixing ring is The upper surface of the collection ring is fixedly connected.
如权利要求6所述的自动集雨及净化装置，其特征在于：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与所述沉淀框固定连接，所述第二支撑杆的下端设有第三凹槽，所述第三支撑杆的下端设有第四凹槽，所述第一框体的下表面呈倾斜状，所述第一框体的右表面设有第六通孔，所述第八过滤网的下端与所述第一框体的内表面固定连接，所述第四支撑杆上设有位于其右侧的第一横杆、第五支架及位于所述第五支架下方的第二斜杆，所述第二斜杆的下端与所述第一垫板的上表面固定连接，所述第二竖杆的下端设有第五凹槽、第一滚轮及设置于所述第一滚轮上的第二锯齿，所述第一滚轮收容于所述第五凹槽内且与所述第二竖杆轴转连接。The automatic rain collecting and purifying apparatus according to claim 6, wherein a lower end of the first rotating shaft is connected to the first motor, and an upper end of the first rotating shaft is fixedly connected to the precipitation frame, a lower end of the second support rod is provided with a third recess, a lower end of the third support rod is provided with a fourth recess, a lower surface of the first frame is inclined, and a right surface of the first frame a sixth through hole is provided, the lower end of the eighth filter net is fixedly connected to the inner surface of the first frame body, and the fourth support rod is provided with a first cross bar and a fifth bracket on the right side thereof And a second diagonal rod located below the fifth bracket, a lower end of the second diagonal rod is fixedly connected to an upper surface of the first backing plate, and a lower end of the second vertical rod is provided with a fifth groove, a first roller and a second saw tooth disposed on the first roller, the first roller being received in the fifth groove and rotatably connected to the second vertical shaft.
如权利要求7所述的自动集雨及净化装置，其特征在于：所述杀菌框上设有第七通孔、第八通孔，所述第三管道的一端对准所述第七通孔且与所述杀菌框固定连接，所述第三管道的另一端对准所述第一通孔且与所述第二收集箱固定连接，所述第三管道上设有第一水泵、第二阀门，所述第九过滤网的左表面与所述杀菌框的内表面固定连接，所述玻璃罩的上表面与所述杀菌框的内表面固定连接，所述轨道架的两端与所述杀菌框的内表面固定连接，所述第四管道的上端对准所述第八通孔且与所述杀菌框的下表面固定连接。The automatic rain collecting and purifying apparatus according to claim 7, wherein the sterilization frame is provided with a seventh through hole and an eighth through hole, and one end of the third pipe is aligned with the seventh through hole. And being fixedly connected to the sterilization frame, the other end of the third pipe is aligned with the first through hole and fixedly connected with the second collection box, and the third pipe is provided with a first water pump and a second a valve, a left surface of the ninth filter screen is fixedly connected to an inner surface of the sterilization frame, and an upper surface of the glass cover is fixedly connected to an inner surface of the sterilization frame, and both ends of the track frame are The inner surface of the sterilization frame is fixedly connected, and the upper end of the fourth pipe is aligned with the The eighth through hole is fixedly connected to the lower surface of the sterilization frame.
如权利要求8所述的自动集雨及净化装置，其特征在于：所述第三推动杆的右端与所述第二气缸连接，所述第一定位柱的左表面与所述杀菌框的右表面固定连接，所述第一定位柱上设有贯穿其左右表面的第一通道，所述第三推动杆的左端收容于所述第一通道内，所述第四推动杆的的上端收容于所述第一通道内且与所述第一定位柱滑动连接，所述第四推动杆贯穿所述杀菌框的右表面且与其滑动连接，所述第四推动杆的下端延伸至所述杀菌框内且顶靠在所述轨道架上，所述第十过滤网的侧面与所述杀菌框的内表面滑动连接，所述轨道架贯穿所述第十过滤网的上下表面且与其滑动连接。The automatic rain collecting and purifying apparatus according to claim 8, wherein a right end of the third push rod is connected to the second cylinder, and a left surface of the first positioning post and a right side of the sterilization frame The first positioning post is provided with a first passage extending through the left and right surfaces thereof, the left end of the third push rod is received in the first passage, and the upper end of the fourth push rod is received in The first passage is slidably connected to the first positioning post, the fourth push rod is slidably connected to the right surface of the sterilization frame, and the lower end of the fourth push rod extends to the sterilization frame And abutting against the rail frame, the side surface of the tenth filter screen is slidably connected to the inner surface of the sterilization frame, and the rail frame passes through the upper and lower surfaces of the tenth filter net and is slidably connected thereto.
如权利要求9所述的自动集雨及净化装置，其特征在于：所述加热框上设有位于其上表面的第九通孔、位于其下表面的第十通孔，所述第四管道的下端对准所述第九通孔且与所述加热框固定连接，所述第二海绵块的上表面与所述加热框的内表面固定连接，所述第二海绵块的下表面与所述第一弯曲板固定连接，所述第一弯曲板的下表面与所述第二支撑板的上表面固定连接，所述第二支撑板的侧面与所述加热框的内表面固定连接，所述第二支撑板上设有第十一通孔，所述散热框的上表面与所述第二支撑板固定连接，所述散热框内设有加热棒，所述第七支撑杆的下端设有第六凹槽，所述第五管道的上端对准所述第十通孔且与所述加热框固定连接，所述冷却箱的下表面设有第一圆孔，所述第二冷却框的下表面与所述冷却箱的内表面固定连接，所述第六管道的上端对准所述第一圆孔且与所述冷却箱固定连接。 The automatic rain collecting and purifying apparatus according to claim 9, wherein the heating frame is provided with a ninth through hole on the upper surface thereof and a tenth through hole on the lower surface thereof, the fourth pipe The lower end of the second sponge is fixedly connected to the heating frame, the upper surface of the second sponge block is fixedly connected to the inner surface of the heating frame, and the lower surface of the second sponge block is The first curved plate is fixedly connected, the lower surface of the first curved plate is fixedly connected to the upper surface of the second supporting plate, and the side surface of the second supporting plate is fixedly connected with the inner surface of the heating frame. An eleventh through hole is disposed on the second support plate, and an upper surface of the heat dissipation frame is fixedly connected to the second support plate, a heating rod is disposed in the heat dissipation frame, and a lower end of the seventh support rod is disposed a sixth recess having an upper end aligned with the tenth through hole and fixedly connected to the heating frame, a lower surface of the cooling box being provided with a first circular hole, and the second cooling frame a lower surface fixedly coupled to an inner surface of the cooling box, the sixth conduit The upper end is aligned with the first circular hole and is fixedly coupled to the cooling box.