CN114658174A - Intelligent rainwater hopper capable of being opened when meeting water and manufacturing method thereof - Google Patents

Abstract

The invention discloses an intelligent rainwater hopper opened when meeting water and a manufacturing method thereof, belonging to the field of building construction. When the depth of water in the sump pit and the escape canal near the rainwater funnel reaches the set standard depth, touch electric capacity humidity inductor, electric capacity humidity inductor gives signal transmission to signal induction switching treater, and signal induction switching treater control starter motor, driving gear rotate and drive two first follower back to back motion, and two first follower drive two second follower back to back motion to drive two semicircular cover plate and open. The invention can prevent garbage from blocking the rainwater inlet and reduce manual cleaning. The snow cover is prevented from falling into a frozen rainwater port or freezing a rainwater pipe in winter, and the rainwater pipe does not need to be powered up for heat tracing anti-freezing measures, so that labor and materials are saved, energy is saved, environment is protected, and rainwater is drained well.

Description

Intelligent rainwater hopper capable of being opened when meeting water and manufacturing method thereof

Technical Field

The invention belongs to the field of building construction, and particularly relates to an intelligent rainwater hopper capable of being opened when meeting water and a manufacturing method thereof.

Background

With the development of the building industry, exploring an applicable, economic and reasonable green construction technology has become a key point of a project. During the use of the traditional roof gutter inlet, particularly in high-frequency activity places of the roof of people, garbage and sundries often fall into the gutter inlet to cause the blockage of the gutter inlet; in addition, the rainwater inlet is easy to freeze when snowing in winter in the north. Becomes a great problem in the field practical application. Therefore, it is highly desirable to design a water-opening intelligent rainwater funnel device, which is opened when encountering water and closed when not encountering water, so as to solve the above problems.

Disclosure of Invention

The invention aims to provide an intelligent rainwater hopper capable of being opened when meeting water and a manufacturing method thereof, so as to solve the technical problem.

Therefore, the invention provides an intelligent rainwater hopper capable of being opened when meeting water, which comprises a rainwater hopper and further comprises:

the cover plate comprises two semicircular cover plates, the two semicircular cover plates are matched with each other to form a circular cover plate, and a cover plate tooth socket is arranged at the bottom of the semicircular cover plate and is vertical to the direction of a gap between the two semicircular cover plates;

the second driven mechanism is arranged between the top of the rainwater funnel and the bottom of the semicircular cover plate, the second driven mechanism is arranged horizontally and vertical to the tooth grooves of the cover plate, and one end of the second driven mechanism is meshed with the tooth grooves of the cover plate;

the first driven mechanism is horizontally connected with the cover plate tooth grooves in a meshed mode and is parallel to the cover plate tooth grooves in a meshed mode, and one end of the first driven mechanism is connected with one end, far away from the cover plate tooth grooves, of the second driven mechanism in a meshed mode;

the output end of the motor is connected with a driving gear, and the driving gear is meshed with one end, far away from the second driven mechanism, of the first driven mechanism;

the signal induction switching processor is electrically connected with the motor;

and the capacitance humidity sensor is electrically connected with the signal induction switching processor.

Preferably, the second driven mechanism comprises two second dowel bars which are horizontally and parallelly arranged and a second driven gear connected to two ends of each second dowel bar, the second dowel bars are perpendicular to the cover plate tooth grooves, and the second driven gear at one end of each second dowel bar is meshed with the cover plate tooth grooves.

Preferably, first driven mechanism includes two first force transmission poles of level and parallel arrangement and connects the first driven gear at first force transmission pole both ends, the parallel apron tooth's socket of first force transmission pole sets up, and the first driven gear of first force transmission pole one end is connected with the second driven gear meshing of keeping away from the apron tooth's socket, and the first driven gear and the driving gear meshing of the first force transmission pole other end are connected.

Preferably, the side of the two semicircular cover plates contacting each other is provided with a closing film.

Preferably, the semicircular cover plate is a steel sheet.

Preferably, the top of the cover plate is also provided with a circular cover plate, and the circular cover plate is uniformly provided with water permeable holes.

Preferably, the rainwater funnel is a metal siphon rainwater funnel.

In addition, the invention also provides a manufacturing method of the intelligent rainwater hopper capable of being opened when meeting water, which comprises the following steps:

s1, selecting a metal siphon rainwater funnel as the rainwater funnel, fixing the capacitance humidity sensor on the side wall of the rainwater funnel, and ensuring the design height of the device by the elevation;

s2, selecting two semicircular steel sheets as semicircular cover plates, and arranging cover plate tooth grooves at the bottoms of the semicircular cover plates in a direction perpendicular to the gap between the two semicircular cover plates;

s3, mounting a second driven mechanism, a first driven mechanism and a motor;

s4, installing a signal induction switching processor and a capacitance humidity sensor;

s5, when the water depth in a water collecting pit and a drainage ditch near the rainwater funnel reaches a set standard depth, a capacitance humidity sensor is triggered, the capacitance humidity sensor transmits signals to a signal induction switching processor, the signal induction switching processor controls a starting motor, a driving gear rotates to drive two first driven mechanisms to move back to back, and the two first driven mechanisms drive two second driven mechanisms to move back to back, so that two semicircular cover plates are driven to be opened.

Preferably, the driving gear rotates in S5 and drives two first follower back to back motion, and two first followers drive two second follower back to back motion to it specifically includes to drive two semicircular cover plate openings:

s51, the driving gear rotates to drive the two first driven gears of the two first driven mechanisms close to one side of the driving gear to rotate;

s52, the two first driven gears rotate to drive the two first driven mechanisms to move back to back;

s53, the two first driven mechanisms move back to drive the two second driven gears on the side, close to the two first driven mechanisms, of the second driven mechanisms to rotate;

s54, the two second driven gears rotate to drive the two second driven mechanisms to move back to back;

s55, the two second driven mechanisms move back to drive the two semicircular cover plates to open.

Compared with the prior art, the invention has the characteristics and beneficial effects that: the invention designs an intelligent rainwater hopper which is opened when meeting water, so that a rainwater port is prevented from being blocked by garbage, and manual cleaning is reduced. The snow cover can be prevented from falling into a frozen rainwater inlet or freezing a rainwater pipe in winter, and the rainwater pipe does not need to be electrified to accompany with heat anti-freezing measures. The rainwater hopper is closed under the ordinary conditions of no water, snow and sundries, particularly in winter, and the rainwater hopper is closed under the condition of no open water, so that the antifreezing measure of the rainwater pipe is not needed. The invention can save manpower, save materials, save energy, protect environment and better drain rainwater.

Drawings

FIG. 1 is a schematic view of an intelligent rain scoop opened in the presence of water;

FIG. 2 is a schematic diagram showing the connection relationship between the components of the intelligent rain water bucket which is opened when encountering water;

fig. 3 is a schematic view of a connection relationship between the driving gear, the first driven mechanism and the second driven mechanism.

The attached drawings are marked as follows: 1-a rainwater funnel, 2-a semicircular cover plate, 3-a cover plate tooth groove, 4-a motor, 5-a signal induction opening and closing processor, 6-a capacitance humidity sensor, 7-a second driven mechanism, 71-a second dowel bar, 72-a second driven gear, 8-a first driven mechanism, 81-a first dowel bar, 82-a first driven gear, 9-a driving gear and 10-a closed film.

Detailed Description

In order to make the technical means, innovative features, objectives and functions realized by the present invention easy to understand, the present invention is further described below.

The examples described herein are specific embodiments of the present invention, are intended to be illustrative and exemplary in nature, and are not to be construed as limiting the scope of the invention. In addition to the embodiments described herein, those skilled in the art will be able to employ other technical solutions which are obvious based on the disclosure of the claims and the specification of the present application, and these technical solutions include technical solutions which make any obvious replacement or modification for the embodiments described herein.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Fig. 1-3 show that a meet water and open intelligent rainwater fill, including rainwater funnel 1, apron, second follower 7, first follower 8, motor 4, signal induction switching processor 5 and electric capacity humidity inductor 6.

The cover plate comprises two semicircular cover plates 2, the two semicircular cover plates 2 are matched with each other to form a circular cover plate, and a cover plate tooth groove 3 is formed in the bottom of each semicircular cover plate 2 and is perpendicular to the direction of a gap between the two semicircular cover plates 2.

The second driven mechanism 7 is arranged between the top of the rainwater funnel 1 and the bottom of the semicircular cover plate 2, the second driven mechanism 7 is horizontal and perpendicular to the cover plate tooth grooves 3, and one end of the second driven mechanism 7 is meshed with the cover plate tooth grooves 3. The first driven mechanism 8 is horizontally connected with the cover plate tooth grooves 3 in a meshed mode, and one end of the first driven mechanism 8 is connected with one end, far away from the cover plate tooth grooves 3, of the second driven mechanism 7 in a meshed mode.

The output end of the motor 4 is connected with a driving gear 9, and the driving gear 9 is meshed with one end of the first driven mechanism 8 far away from the second driven mechanism 7. The motor 4 is fixed on the rainwater hopper 1 through bolts. The signal induction switching processor 5 is electrically connected to the motor 4. The signal induction opening and closing processor 5 is fixed on the rainwater funnel 1 through a bolt. The capacitance humidity sensor 6 is electrically connected with the signal induction switching processor 5. The capacitance humidity sensor 6 is fixed on the side wall of the rainwater funnel 1 close to the drainage ditch through bolts.

When the depth of water in near rainwater funnel 1 sump pit and the escape canal reaches the settlement standard degree of depth, touch electric capacity humidity inductor 6, electric capacity humidity inductor 6 gives signal transmission to signal induction switching treater 5, signal induction switching treater 5 control starter motor 4, driving gear 9 rotates and drives two first follower 8 back of the body motion, two first follower 8 drive two second follower 7 back of the body motions of the body, thereby drive two semicircular cover plate 2 and open. When the water depth in the sump and the drainage ditch near the rainwater funnel 1 is lower than the set standard depth, the driving gear 9 rotates in the opposite direction to drive the two first driven mechanisms 8 to move in the opposite direction, and the two first driven mechanisms 8 drive the two second driven mechanisms 7 to move in the opposite direction, so that the two semicircular cover plates 2 are driven to be closed.

In a more preferred embodiment, the second driven mechanism 7 comprises two second transmission rods 71 which are horizontally and parallelly arranged, and second driven gears 72 connected to two ends of the second transmission rods 71, the second transmission rods 71 are arranged perpendicular to the cover plate tooth grooves 3, and the second driven gears 72 at one ends of the second transmission rods 71 are in meshed connection with the cover plate tooth grooves 3. First driven mechanism 8 includes two first power transmission bars 81 of level and parallel arrangement and connects the first driven gear 82 at first power transmission bar 81 both ends, and the parallel apron tooth's socket 3 of first power transmission bar 81 sets up, and the first driven gear 82 of first power transmission bar 81 one end is connected with the meshing of the second driven gear 72 of keeping away from apron tooth's socket 3, and the first driven gear 82 and the driving gear 9 meshing of the first power transmission bar 81 other end are connected.

In the preferred embodiment, when the depth of water in the water collecting pit and the drainage ditch near the rainwater funnel 1 reaches a set standard depth, the capacitance humidity sensor 6 is triggered, the capacitance humidity sensor 6 transmits a signal to the signal induction opening and closing processor 5, the signal induction opening and closing processor 5 controls the starting motor 4, and the driving gear 9 rotates to drive the two first driven gears 82 on one side of the two first driven mechanisms 8 close to the driving gear 9 to rotate; the two first driven gears 82 rotate to drive the two first driven mechanisms 8 to move back and forth; the two first driven mechanisms 8 move back to drive the two second driven gears 72 on the side, close to the two first driven mechanisms 8, of the second driven mechanism 7 to rotate; the two second driven gears 72 rotate to drive the two second driven mechanisms 7 to move back and forth; the two second driven mechanisms 7 move back to drive the two semicircular cover plates 2 to open. When the water depth in a water collecting pit and a drainage ditch near the rainwater funnel 1 is lower than a set standard depth, the driving gear 9 rotates in the opposite direction to drive the two first driven gears 82 on one sides of the two first driven mechanisms 8 close to the driving gear 9 to rotate; the two first driven gears 82 rotate to drive the two first driven mechanisms 8 to move oppositely; the two first driven mechanisms 8 move oppositely to drive the two second driven gears 72 on one sides of the second driven mechanisms 7 close to the two first driven mechanisms 8 to rotate; the two second driven gears 72 rotate to drive the two second driven mechanisms 7 to move oppositely; the two second driven mechanisms 7 move oppositely to drive the two semicircular cover plates 2 to be closed.

The rainwater funnel 1 is a metal siphon rainwater funnel. The semicircular cover plate 2 is a steel sheet. Specifically take a certain chance of meeting water and open intelligent rainwater fill as an example, semicircular cover plate 2 chooses for use the diameter to be 550mm, and thickness is 5 mm's steel sheet.

One side that two semicircular cover plate 2 contacted each other all is equipped with closed film 10 for seal the gap between two semicircular cover plate 2, can also have the effect of buffering and protection simultaneously to semicircular cover plate 2. The top of apron still is equipped with circular apron, and this circular apron has evenly seted up the hole of permeating water, prevents that debris from falling into in rainwater funnel 1.

The manufacturing method of the intelligent rainwater hopper capable of being opened when meeting water comprises the following steps:

s1, selecting a metal siphon rainwater funnel as the rainwater funnel 1, fixing the capacitance humidity sensor 6 on the side wall of the rainwater funnel 1, and ensuring the design height of the device by the elevation.

S2, selecting two semicircular steel sheets as the semicircular cover plates 2, and arranging cover plate tooth grooves 3 at the bottoms of the semicircular cover plates 2 in a direction perpendicular to the gap between the two semicircular cover plates 2.

And S3, mounting the second driven mechanism 7, the first driven mechanism 8 and the motor 4.

And S4, installing the signal induction switching processor 5 and the capacitance humidity sensor 6.

S5, when the depth of water in a water collection pit and a drainage ditch near the rainwater funnel 1 reaches a set standard depth, the capacitance humidity sensor 6 is touched, the capacitance humidity sensor 6 transmits a signal to the signal induction switching processor 5, the signal induction switching processor 5 controls the starting motor 4, the driving gear 9 rotates to drive the two first driven mechanisms 8 to move back to back, the two first driven mechanisms 8 drive the two second driven mechanisms 7 to move back to back, and therefore the two semicircular cover plates 2 are driven to be opened.

In a more preferred embodiment, the step S5, the rotating of the driving gear 9 drives the two first driven mechanisms 8 to move away from each other, and the two first driven mechanisms 8 drives the two second driven mechanisms 7 to move away from each other, so as to drive the two semicircular cover plates 2 to open specifically includes:

s51, the driving gear 9 rotates to drive the two first driven gears 82 of the two first driven mechanisms 8 close to the driving gear 9 to rotate.

And S52, the two first driven gears 82 rotate to drive the two first driven mechanisms 8 to move back and forth.

And S53, the two first driven mechanisms 8 move back to drive the two second driven gears 72 on the side, close to the two first driven mechanisms 8, of the second driven mechanism 7 to rotate.

And S54, the two second driven gears 72 rotate to drive the two second driven mechanisms 7 to move back and forth.

S55, the two second driven mechanisms 7 move back to drive the two semicircular cover plates 2 to open.

The above examples are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made to the technical solution of the present invention by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.

Claims (9)

1. The utility model provides a meet water and open intelligent rainwater fill, includes rainwater funnel (1), its characterized in that still includes:

the cover plate comprises two semicircular cover plates (2), the two semicircular cover plates (2) are matched with each other to form a circular cover plate, and a cover plate tooth groove (3) is formed in the bottom of each semicircular cover plate (2) and is vertical to the direction of a gap between the two semicircular cover plates (2);

the second driven mechanism (7) is arranged between the top of the rainwater funnel (1) and the bottom of the semicircular cover plate (2), the second driven mechanism (7) is arranged horizontally and vertically to the cover plate tooth grooves (3), and one end of the second driven mechanism (7) is meshed with the cover plate tooth grooves (3);

the horizontal parallel cover plate tooth grooves (3) are meshed and connected with the first driven mechanism (8), and one end of the first driven mechanism (8) is meshed and connected with one end, far away from the cover plate tooth grooves (3), of the second driven mechanism (7);

the output end of the motor (4) is connected with a driving gear (9), and the driving gear (9) is meshed with one end, far away from the second driven mechanism (7), of the first driven mechanism (8);

a signal induction switching processor (5) electrically connected with the motor (4);

and the capacitance humidity sensor (6) is electrically connected with the signal sensing switching processor (5).

2. The intelligent water-break scoop according to claim 1, wherein: second driven mechanism (7) are including two second dowel steel (71) of level and parallel arrangement and connect second driven gear (72) at second dowel steel (71) both ends, perpendicular apron tooth's socket (3) setting in second dowel steel (71), second driven gear (72) and the meshing of apron tooth's socket (3) of second dowel steel (71) one end are connected.

3. The intelligent water-break scoop according to claim 2, wherein: first driven mechanism (8) are including two first power transmission bars (81) of level and parallel arrangement and connect first driven gear (82) at first power transmission bar (81) both ends, first power transmission bar (81) parallel cover board tooth's socket (3) set up, first driven gear (82) of first power transmission bar (81) one end and second driven gear (72) meshing connection of keeping away from apron tooth's socket (3), first driven gear (82) and driving gear (9) meshing connection of first power transmission bar (81) the other end.

4. The intelligent water-break scoop according to claim 1, wherein: one side of the two semicircular cover plates (2) which are contacted with each other is provided with a closed rubber sheet (10).

5. The intelligent water-break scoop according to claim 1, wherein: the semicircular cover plate (2) is a steel sheet.

6. The intelligent water-break scoop according to claim 1, wherein: the top of apron still is equipped with circular apron, and this circular apron evenly is seted up the hole of permeating water.

7. The intelligent water-break scoop according to claim 1, wherein: the rainwater funnel (1) is a metal siphon rainwater funnel.

8. A method for manufacturing a water-openable intelligent rain scoop according to any one of claims 1-7, comprising the steps of:

s1, selecting a metal siphon rainwater funnel as the rainwater funnel (1), fixing a capacitance humidity sensor (6) on the side wall of the rainwater funnel (1), and ensuring the design height of the device by the elevation;

s2, selecting two semicircular steel sheets as semicircular cover plates (2), and arranging cover plate tooth grooves (3) on the bottoms of the semicircular cover plates (2) in a direction perpendicular to a gap between the two semicircular cover plates (2);

s3, mounting a second driven mechanism (7), a first driven mechanism (8) and a motor (4);

s4, installing a signal induction switching processor (5) and a capacitance humidity sensor (6);

s5, when the water depth in a water collection pit and a drainage ditch near the rainwater funnel (1) reaches a set standard depth, the capacitance humidity sensor (6) is touched, the capacitance humidity sensor (6) transmits signals to the signal sensing switching processor (5), the signal sensing switching processor (5) controls the starting motor (4), the driving gear (9) rotates to drive the two first driven mechanisms (8) to move back to back, and the two first driven mechanisms (8) drive the two second driven mechanisms (7) to move back to back, so that the two semicircular cover plates (2) are driven to be opened.

9. The method for manufacturing the intelligent rainwater hopper opened when encountering water according to claim 8, wherein the driving gear (9) in the S5 rotates to drive the two first driven mechanisms (8) to move back to back, and the two first driven mechanisms (8) drive the two second driven mechanisms (7) to move back to back, so as to drive the two semicircular cover plates (2) to open specifically comprises:

s51, the driving gear (9) rotates to drive the two first driven gears (82) of the two first driven mechanisms (8) close to one side of the driving gear (9) to rotate;

s52, the two first driven gears (82) rotate to drive the two first driven mechanisms (8) to move back to back;

s53, the two first driven mechanisms (8) move back to drive the two second driven gears (72) of the second driven mechanism (7) close to one side of the two first driven mechanisms (8) to rotate;

s54, the two second driven gears (72) rotate to drive the two second driven mechanisms (7) to move back to back;

s55, the two second driven mechanisms (7) move back to drive the two semicircular cover plates (2) to open.

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