Device for automatically collecting rainwater through rainwater impact
Technical Field
The invention relates to the technical field of rainwater collection and treatment, in particular to a device for automatically collecting rainwater through rainwater impact.
Background
The rainwater is a pollution-free water source, can be used to the vegetation and irrigates and recycles, and when rainy, because glazed tiles's roof both sides are equipped with the water drainage tank, the rainwater can flow to the water drainage tank inside along glazed tiles's angle, and we can install rainwater collection device in the water drainage tank bottom, just so can collect the rainwater.
The height on present glazed tiles roof is generally not high, and the leaf is on the roof floats easily under the influence of wind, and the leaf can follow the rainwater to flow together under the washing away of rainwater when rainy, and like this when collecting the rainwater, the leaf can block the filter screen to reduce the speed that the rainwater was collected.
Disclosure of Invention
The invention mainly aims to overcome the defects of the prior art and provide a device for automatically collecting rainwater through rainwater impact.
The invention is realized by adopting the following technical scheme: the utility model provides a device for carrying out rainwater automatic collection through rainwater impact, its structure includes inside processing apparatus, supporting legs, control panel, organism, pipe, catch tray, inside processing apparatus installs inside the organism, the supporting legs connects gradually that the rectangle structure is arranged in the bottom of the body, organism top and pipe bottom fixed connection, the catch tray is equipped with on the pipe top, the control panel right side is connected perpendicularly with the organism left side.
As the optimization, inside processing apparatus comprises filter screen, support underframe, inside collection frame, honeycomb duct, controlling means, side mount, impact guiding device, drainage frame, filter screen bottom both ends and support underframe top fixed connection, support the inside collection frame that is equipped with of underframe, inside collection frame top is equipped with the drainage frame, the side mount is installed in the filter screen both sides, it is connected with side mount top side laminating to strike guiding device bottom side, the inside turn-on connection in honeycomb duct left end and inside collection frame bottom, honeycomb duct right-hand member and controlling means bottom left end fixed connection.
As optimizing, strike the guiding device and constitute by water conservancy diversion frame, outer lane, dwang, interior pole, spin, connecting rod, fixed block, the spin is arranged in proper order in interior pole side according to the interval angle is the same, the inboard and spin outside swing joint in outer lane, the dwang is arranged in proper order in outer lane side according to the interval angle is the same, connecting rod one end is fixed in interior pole front side, and the other end is connected to inside the fixed block, fixed block top side and water conservancy diversion frame bottom side fixed connection.
As optimization, the dwang comprises recess, rubber bumps, the body of rod, the recess from left to right arranges in proper order inside the body of rod, body of rod right-hand member side is equipped with rubber bumps.
As optimization, the side mount comprises connecting block, filter layer, arc pole, right branch strut, the filter layer left end is equipped with the connecting block, the arc pole is installed inside the filter layer, filter layer right-hand member and right branch strut top left side fixed connection.
Preferably, the control device comprises a rotating arm, a sucker, a water outlet, a tension rod and an arc-shaped pipe, the lower right corner of the arc-shaped pipe is in conduction connection with the top end of the water outlet, the bottom end of the rotating arm is fixedly connected with the arc-shaped pipe and the top end of the tension rod, the sucker is arranged at the left end of the tension rod, and the upper side and the lower side of the sucker are in excessive fit with the inside of the bottom end of the arc-shaped pipe.
Preferably, the flow guide frames are connected into a trapezoidal structure, and the upper surface of each flow guide frame is wide and the lower surface of each flow guide frame is narrow.
Preferably, the groove is of a rectangular structure.
As optimization, the arc-shaped rod is of an arc-shaped structure and is the same as the filter layer structure.
Preferably, the filter screen is integrally surrounded into a conical structure.
Advantageous effects
The invention relates to a device for automatically collecting rainwater through rainwater impact, when in use, a collecting disc can catch rainwater flowing down from a roof drainage groove, the rainwater flows into the device through a guide pipe, leaves and water contact a filter screen and can be accumulated towards two ends of the filter screen, the leaves are large in area and light in weight, the filter screen is slow in water passing due to cleaning, the water flows down along a fixed block, due to the fixation of a flow guide frame, the impact force of the flowing water is increased, an outer ring and a rotating rod can be driven to rotate together, a rolling ball can reduce the friction force applied by the rotation of the outer ring, when the rod body rotates for the first half circle, a groove can store water to increase the whole weight, so that the rotating speed of the rod body is increased, when the rod body rotates to the bottom, the water in the groove can be emptied, the rotating speed of the rod body can be ensured to be not reduced through recycling, and meanwhile, inside the rainwater finally can enter into inside collection frame through the filter screen, and the honeycomb duct is connected to inside collection frame bottom, and we rotate the rocking arm at this time and remove the delivery port top through pull rod pulling sucking disc, and the inside water of collecting the frame at this time will be by the suction, constantly outflows after that, can improve the convenience of using like this.
Compared with the prior art, the invention has the beneficial effects that: the device can collect the rainwater that the roof flowed down through the catch tray, the catch tray area is great can prevent the water outflow, thereby the device can also increase the impact force that collects water through the water conservancy diversion frame on the fixed block and drive and strike the guiding device and operate the leaf discharge, thereby can prevent like this that the leaf from covering the filter screen and reduce the collection speed of water, the device can also be derived the inside water of collecting the frame through the siphon simultaneously, the convenience of using is improved.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural view of a device for automatically collecting rainwater through rainwater impact according to the present invention.
FIG. 2 is a schematic structural diagram of an internal processing device according to the present invention.
Fig. 3 is a schematic structural view of the impact guiding device of the present invention.
Fig. 4 is a schematic structural view of the rotating lever of the present invention.
FIG. 5 is a schematic structural view of the side fixing frame of the present invention.
Fig. 6 is a schematic structural diagram of the control device of the present invention.
In the figure: the device comprises an internal processing device 1, supporting legs 2, a control panel 3, a machine body 4, a guide pipe 5, a collecting disc 6, a filter screen 11, a supporting bottom frame 12, an internal collecting frame 13, a guide pipe 14, a control device 15, a side fixing frame 16, an impact guide device 17, a guide frame 18, a guide frame 171, an outer ring 172, a rotating rod 173, an inner rod 174, a rolling ball 175, a connecting rod 176, a fixing block 177, a groove 1731, a rubber bump 1732, a rod body 1733, a connecting block 161, a filter layer 162, an arc-shaped rod 163, a right supporting frame 164, a rotating arm 151, a sucker 152, a water outlet 153, a tension rod 154 and an.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 6, the present invention provides a technical solution of a device for automatically collecting rainwater through rainwater impact: its structure includes inside processing apparatus 1, supporting legs 2, control panel 3, organism 4, pipe 5, catch tray 6, inside processing apparatus 1 is installed inside organism 4, supporting legs 2 connect gradually and connect into the rectangle structure and arrange in organism 4 bottom, 4 tops of organism and 5 bottom fixed connection of pipe, catch tray 6 is equipped with on 5 tops of pipe, 3 right sides of control panel are connected perpendicularly with 4 left sides of organism.
The inside processing apparatus 1 comprises filter screen 11, support underframe 12, inside collection frame 13, honeycomb duct 14, controlling means 15, side mount 16, impact guiding device 17, drainage frame 18, 11 bottom both ends of filter screen and support underframe 12 top fixed connection, support underframe 12 inside and be equipped with inside collection frame 13, inside collection frame 13 top is equipped with drainage frame 18, side mount 16 is installed in filter screen 11 both sides, it is connected with 16 top side laminating of side mount to impact 17 bottom sides of guiding device, honeycomb duct 14 left end and the inside conduction connection in collection frame 13 bottom, honeycomb duct 14 right-hand member and the 15 bottom left end fixed connection of controlling means.
The impact flow guiding device 17 comprises a flow guiding frame 171, an outer ring 172, a rotating rod 173, an inner rod 174, rolling balls 175, a connecting rod 176 and a fixing block 177, wherein the rolling balls 175 are sequentially arranged on the side surface of the inner rod 174 according to the same interval angle, the inner side of the outer ring 172 is movably connected with the outer side of the rolling balls 175, the rotating rod 173 is sequentially arranged on the side surface of the outer ring 172 according to the same interval angle, one end of the connecting rod 176 is fixed on the front side of the inner rod 174, the other end of the connecting rod 176 is connected to the inside of the fixing block 177.
The rotating rod 173 is composed of a groove 1731, a rubber bump 1732 and a rod body 1733, the grooves 1731 are sequentially arranged inside the rod body 1733 from left to right, and the right end side surface of the rod body 1733 is provided with the rubber bump 1732.
Side mount 16 comprises connecting block 161, filter layer 162, arc pole 163, right branch strut 164, the filter layer 162 left end is equipped with connecting block 161, arc pole 163 is installed inside filter layer 162, filter layer 162 right-hand member and right branch strut 164 top left side fixed connection.
The control device 15 comprises a rotating arm 151, a sucker 152, a water outlet 153, a tension rod 154 and an arc-shaped pipe 155, the lower right corner of the arc-shaped pipe 155 is connected with the top end of the water outlet 153 in a conduction mode, the bottom end of the rotating arm 151 is fixedly connected with the arc-shaped pipe 155 and the top end of the tension rod 154, the sucker 152 is installed at the left end of the tension rod 154, and the upper side and the lower side of the sucker 152 are excessively matched with the inner portion of the bottom end of the arc-shaped pipe 155.
The water conservancy diversion frame 171 connects to be trapezium structure, and the higher authority is wide narrow down, and water above this is when down flowing, because fixed area's reduction, the flow of water just constantly increases, and the impact force of water will be bigger, and drive dwang 173 that can be better rotates.
Recess 1731 is the rectangle structure, and the rainwater drives dwang 173 pivoted first half circle like this, and recess 1731 can form ponding to increase dwang 173 inertia down pivoted, when dwang 173 rotated the bottom, recess 1731 was in horizontal position, and water will be emptied, just so can not increase up pivoted burden.
The arc-shaped rod 163 is of an arc-shaped structure and has the same structure as the filter layer 162, and the arc-shaped rod 163 can provide supporting force for the filter layer 162, so that the service life of the filter layer 162 is prolonged.
The filter screen 11 is integrally surrounded into a conical structure, so that water can enter the inner collecting frame 13 from the upper part of the filter screen 11, and leaves can be flushed to the bottom of the filter screen 11 by the water, thereby facilitating the subsequent treatment.
When the rainwater collecting device is used, the collecting disc 6 can catch rainwater flowing down from a roof drainage groove, the rainwater flows into the device through the guide pipe 5, leaves and water contact the filter screen 11 together and can be accumulated towards two ends of the filter screen 11, the leaves are large in area and light in weight, the filter screen 11 can slowly flow through water when being cleaned, the water flows downwards along the fixing block 177, due to the fixation of the flow guide frame 171, the impact force of the flowing water is increased to drive the outer ring 172 and the rotating rod 173 to rotate together, the rolling ball 175 can reduce the friction force received by the rotation of the outer ring 172, when the rod body 1733 rotates for the first half circle, the groove 1731 can store water to increase the whole weight, so that the rotating speed of the rod body 1733 is increased, when the rod body 1733 rotates to the bottom, the water in the groove 1731 can be emptied, the rotating speed of the rod body 1733 can be ensured to be repeatedly used, and meanwhile, the rubber bump, rainwater will finally enter into inside collection frame 13 through filter screen 11 inside, and honeycomb duct 14 is connected to inside collection frame 13 bottom, and we rotate rocking arm 151 at this moment and pass through pull rod 154 pulling sucking disc 152 and move to delivery port 153 top, and the inside water of inside collection frame 13 will be sucked out at this moment, and then constantly outflow, can improve the convenience of using like this.
Compared with the prior art, the invention has the technical progress that: the device can collect the rainwater that the roof flowed down through catch tray 6, the catch tray 6 area is great can prevent the water outflow, thereby the device can also increase the impact force that collects water through water conservancy diversion frame 171 on fixed block 177 and drive impact guiding device 17 and operate the leaf discharge, thereby can prevent like this that the leaf from covering filter screen 11 and reduce the collection speed of water, the device can also derive the inside water of inside collection frame 13 through the siphon simultaneously, improve the convenience of using.
Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.