This invention is directed to an automatic process and a rain-water powered self-cleaning system for de-clogging a rain gutter and connected downspout.
Most residential and commercial buildings have a rain gutter system along their roofline. The rain gutters collect rain water flowing down from the roof and channel the rain water down downspouts to the ground. Rain gutters are very easy to be blocked by debris such as leaves, pine needles, seed pods and so on, that can fall in or flow into the gutters. The debris may accumulate in the gutter and the connected downspout that can clog and even completely stop water flow down through the downspout. Blockage of the rain gutter and the downspout can cause water accumulation at the roof or water over-spill from the roofline leading to damages to the house. Due the typical high location around the house, the rain gutter and the connected downspout are difficult to clean or de-clog and may require professional services.
Many different types of systems and methods have been developed to clean the rain gutter or to keep the rain gutter from being clogged. U.S. Pat. No. 5,406,966 discloses a spray system to jet clean a section of rain gutter. U.S. Pat. No. 6,185,782 discloses a vacuum system to provide suction and removal of debris. U.S. Pat. No. 7,909,274 discloses a grinder system to grind debris for easy removal. U.S. Pat. No. 7,926,141 discloses a manual impeller to clean the gutter. U.S. Pat. No. 8,464,474 discloses an assembly that can rotate a section of a gutter to remove debris. U.S. Pat. No. 8,656,947 discloses a self-evacuating downspout adaptor that can be adjusted on-demand to remove accumulated debris. U.S. Pat. No. 9,175,477 discloses a system to blow air into a downspout to force the debris out of the rain gutter from the top end. Most current commercial products are using a net or cover in an attempt to prevent debris entering into the rain gutter. However, there commercial products often get clogged after a short period of time due to the stationary nature of the products. So far, all the systems or methods are not very effective and also require manual operation. Thus, there are needs for a device to dredge the clogged downspout and allow the rain to continuously flow down to the ground through the downspout.
The present invention is directed to a process for automatic de-clogging a rain gutter and a downspout coupled to the rain gutter, the process comprising causing uni-directional motions or oscillating motions of a cleaning member of a cleaning device coupled to a set of motion connectors, the cleaning device is positioned within a portion of the rain gutter, the downspout or a combination thereof, wherein the uni-directional motions or oscillating motions are caused by manual operations, caused by directing a liquid from an upper opening of a downspout that is coupled to a rain gutter through the downspout to a motion device functionally coupled to the set of motion connectors, or a combination thereof, wherein the motion device is configured to drive the uni-directional motions or oscillating motions of the cleaning member based on motions of the liquid flowing through the downspout and through said motion device caused by gravity.
The present invention is also directed to a system for de-clogging a rain gutter and a downspout coupled to the rain gutter, the system comprising a motion device and a cleaning device comprising a cleaning member functionally coupled to the motion device, wherein the motion device is configured to drive uni-directional motions or oscillating motions of the cleaning member based on motions of a liquid flowing through the rain gutter and the downspout and through the motion device caused by gravity. The system is configured to de-clogging a rain gutter and a downspout automatically when it rains.
The present invention is further directed to a kit for a system for de-clogging a rain gutter and a downspout coupled to the rain gutter. The kit can comprise a motion device selected from a first motion device, a second motion device, or a combination thereof, wherein the motion device is configured to produce uni-directional motions or oscillating motions based on motions of a liquid flowing through the motion device caused by gravity when assembled. The kit can further comprise a cleaning member; a set of motion connectors, wherein the cleaning member and a set of motion connectors are configured to form a cleaning device when assembled; two or more routing devices for routing the set of motion connectors to connect to at least the cleaning member; and optionally, a cranking device configured for manual operation of at least the cleaning device, and, optionally, a debris removal device and a debris exit, the debris removal device and the debris exit are coupled together and both are configured to be positioned at a downspout when assembled.
This invention is further directed to a sound assembly comprising at least one sound device. The sound assembly can be coupled to a motion device disclosed herein or stand-alone.
Following are more detailed descriptions of various concepts related to, and embodiments of, methods and apparatus according to the present disclosure. It should be appreciated that various aspects of the subject matter introduced above and discussed in greater detail below may be implemented in any of numerous ways, as the subject matter is not limited to any particular manner of implementation. Examples of specific implementations and applications are provided primarily for illustrative purposes.
As used herein,
The term “gutter”, “gutters”, “rain gutter” or “rain gutters” refers to a system for discharging rain water from a roof of a house. It is typically installed at the lower edge of a roof so water from the roof can run into the rain gutter and be directed to specific points for discharging. A rain gutter is typically connected to one or more downspouts so rain water from the roof can be discharged through the downspouts to the ground.
The term “downspout” or “downspouts” refers to a hollowed piping system connected to a rain gutter to direct rain water from the rain gutter to the ground. Typically, a downspout can have an upper opening connected to a rain gutter and a lower opening near or at the ground forming a passage for discharging water.
The term “oscillating motions” refers to repeated motions around a central point or points that can comprise bi-directional motions or multi-directional motions. The term “oscillating motions” can also comprise reciprocating motions. The term “uni-directional motions” refers to motions in a certain direction. The uni-directional motions can comprise motions moving around in a circular fashion.
This invention is directed to a process for de-clogging a rain gutter and a downspout coupled to the rain gutter, the process comprising causing uni-directional motions or oscillating motions of a cleaning member of a cleaning device coupled to a set of motion connectors, the cleaning device is positioned within a portion of the rain gutter, the downspout or a combination thereof, wherein the uni-directional motions or oscillating motions are caused by manual operations, caused by directing a liquid from an upper opening of the downspout that is coupled to the rain gutter through the downspout to a motion device functionally coupled to the set of motion connectors, or a combination thereof, wherein the motion device is configured to drive the uni-directional motions or oscillating motions of the cleaning member based on motions of the liquid flowing through the downspout and through the motion device caused by gravity.
Suitable to the process of this invention, the uni-directional motions or oscillating motions are caused by a motion device. In examples of the process of this invention disclosed herein, a motion device can be configured to comprise:
a first motion member and a second motion member, wherein the first motion member and the second motion member are coupled together and each is further coupled to the set of motion connectors, the first motion member and the second motion member are configured to generate the oscillating motions based on the downward motion of the liquid through the downspout and through the motion device caused by gravity, and
a device housing having an upper end and a lower end distal to each other along a longitudinal axis of the device housing, a partition member for forming a first partition and a second partition, each is parallel to the longitudinal axis, and a direction device for opening and closing the first partition and the second partition in alternate;
wherein, the first motion member is positioned in the first partition and the second motion member is positioned in the second partition, the first motion member and the second motion member are coupled together via a motion member coupler and each is movable parallel to the longitudinal axis, the first motion member is configured, when it moves downward, to pull the second motion member moving upward via the motion member coupler and, in alternate, the second motion member is configured, when it moves downward, to pull the first motion member moving upward via the motion member coupler; and
wherein, the first partition and the second partition are positioned in the device housing; or
the first partition is positioned in a first device housing and the second partition is positioned in a second device housing.
The motion device 1 disclosed hereafter and shown in
Suitable to the process of this invention, the uni-directional motions or the oscillating motions can be configured to be caused by manual operation of a cranking device coupled to the set of motion connectors. A manual motion device 1a shown in
The process can comprise:
1) causing the first motion member to move downward when the first motion member is at the upper end and the second motion member is near the lower end by causing the direction device to open the first partition and close the second partition directing the liquid to accumulate in the first motion member forcing the first motion member to move downward and the second motion member to move upward;
2) allowing the accumulated liquid to exit through a first gate opening of the first motion member when the first motion member is at the lower end and the second motion member is at the upper end by triggering a first gating device of the first motion member to open;
3) causing the second motion member to move downward when the second motion member is at the upper end and the first motion member is at the lower end by causing the direction device to open the second partition and close the first partition, directing the liquid to accumulate in the second motion member forcing the second motion member to move downward and the first motion member to move upward;
4) allowing the accumulated liquid to exit through a second gate opening of the second motion member when the second motion member is at the lower end and the first motion member is at the upper end by triggering a second gating device of the second motion member to open; and
5) repeating steps 1)-5) generating the oscillating motions.
In examples, inflow liquid 10 can be directed to flow into a second motion member 5a, that can be a cup or a container, when the second partition 16 is opened by the direction device 7 (
The process of this invention can further comprise:
providing a first retention device to hold the first motion member at the lower end and a second retention device to hold the second motion member at the lower end in alternate, wherein the first retention device is configured to release the first motion member from the lower end when a total weight of the second motion member is greater than a total weight of the first motion member by a pre-defined weight differential value causing the second motion member to move downward, and in alternate, the second retention device is configured to release the second motion member from the lower end when a total weight of the first motion member is greater than a total weight of the second motion member by the pre-defined weight differential value causing the first motion member to move downward.
In examples, the first retention device 120 and the second retention device 120a each can comprise a magnet affixed to the bottom of a respective motion member (
In examples, a total weight of the first motion member is the sum of the weight of the first motion member and the weight of liquid that contains, such as water held in the first motion member. A total weight of the second motion member is the sum of the weight of the second motion member and the weight of the liquid such as water held in the second motion member. The resistance of the motion connectors can be measured, tested and adjusted once assembled.
In another example of the process of this invention, the first motion member and the second motion member can be configured to be positioned in two separate downspouts in a pair of motion devices, wherein the cleaning member 104 can be positioned horizontally in a rain gutter connecting the two separate downspouts, in the downspout, or a combination thereof. One suitable example is a single driver motion device 1c comprising a pair of single motion member devices shown in
In other examples of the process of this invention, the motion device can be configured to comprise:
a set of motion wheels coupled to the cleaning member of the cleaning device coupled to the set of motion connectors,
wherein the motion wheels are configured to generate the uni-directional motions based on the downward motion of the liquid flowing through the downspout and through the motion device caused by gravity.
The wheel motion device 1b shown in
In examples, a crank connector 213 can be, optionally, directly connected to the set of motion connectors 13 that is connected to the motion wheels of a wheel motion device 1b that is further connected to the cleaning member 104 (
The process can be automatically repeated when the liquid is flowing downward through the downspout. In examples, the liquid can comprise rain water. In additional examples, the liquid can comprise rain water collected by the rain gutter and directed to the upper opening of the downspout to flow downward through the downspout.
In another example, the liquid can be water supplied from a water source, such as a water hose connected to a water supply. The water can be supplied from a water source and directed to the upper opening of the downspout to flow downward through the downspout.
In the process of this invention, the cleaning member can be configured to move in a first direction when the first motion member is moving downward, and in alternate, the cleaning member can be configured to move in a second direction that is opposite to the first direction, when the second motion member is moving downward.
Suitable to the process of this invention, a cleaning device can be configured to be positioned within the rain gutter through the upper opening of the downspout, in a downspout, or a combination thereof. The cleaning device 18 shown in
This invention is further directed to a system for de-clogging a rain gutter and a downspout coupled to the rain gutter, the system comprising:
a motion device and a cleaning device comprising a cleaning member functionally coupled to the motion device,
wherein the motion device is configured to drive uni-directional motions or oscillating motions of the cleaning member based on motions of a liquid flowing through the downspout and through the motion device caused by gravity.
The motion device can comprise:
a device housing 3 having an upper end 2 and a lower end 4 distal to each other along a longitudinal axis (Z-Z′) of the device housing 3, a partition member 14 for forming a first partition 15 and a second partition 16, each is parallel to the longitudinal axis, and a direction device 7 for opening and closing the first partition and the second partition in alternate; and
a first motion member 5 positioned in the first partition 15 and a second motion member 5a positioned in the second partition 16, the first motion member and the second motion member are coupled together via a motion member coupler 8 and each is movable parallel to the longitudinal axis (Z-Z′), the first motion member 5 is configured, when it moves downward, to pull the second motion member 5a moving upward via the motion member coupler 8 and, in alternate, the second motion member 5a is configured, when it moves downward, to pull the first motion member 5 moving upward via the motion member coupler 8;
wherein, the first partition and the second partition are positioned in the device housing; or
the first partition is positioned in a first device housing and the second partition is positioned in a second device housing.
In one embodiment, the motion device 1 disclosed herein and shown in various figures including
The cleaning device can comprise:
a set of motion connectors 13 coupled to the cleaning member 104, wherein the set of motion connectors 13 is further connected to the first motion member 5 and the second motion member 5a;
wherein, the direction device 7 is configured to open the first partition 15 and close the second partition 16 when the first motion member 5 is near the upper end 2 and the second motion member 5a is near the lower end 4, in alternate, the direction device 7 is configured to open the second partition 16 and close the first partition 15 when the second motion member 5a is near the upper end 2 and the first motion member 5 is near the lower end 4, and the direction device 7 is configured to open only one of the first and the second partition at a time; and
wherein the cleaning member 104 are configured to have oscillating motions (shown as oscillating directions 12a in
The cleaning device 18 shown in
Some of representative examples of a motion device are shown schematically in
The first motion member 5 and the second motion member 5a each can have a volume capacity in a range of from 100 mL to about 1,000 mL that can produce a motion force in a range of from 100 grams to about 1,000 grams. This motion force can cause the cleaning member to have the oscillating motions even if some debris, such as leaves have already partially clogged the rain gutter or the downspout. For a raining season that often rains, the rain gutter and the downspout can be cleaned frequently whenever it rains. If debris accumulation caused the downspout partially clogged, the cranking device can be used to produce a larger motion force to loosen up the partially clogged debris. A motion device having a cranking device, such as the manual motion device 1a can be suitable (
The cleaning device 18 can further comprise a gutter connecter 17 (
The downspout 111 can have an upper opening 201 and a lower opening 202 distal to each other, the upper opening 201 can be coupled to a rain gutter 200 (
The cleaning member 104 can comprise up-directional bristles, down-directional bristles, soft sticks, hard sticks, paddles, clips, and so on, or a combination thereof (
The system of this invention can further comprise one or more routing devices 109 for routing the set of motion connectors 13 through the downspout; and a debris removal device 113 and debris exit 202a, the debris removal device and the debris exit are coupled together and both are positioned at the lower opening 202 of the downspout 111 and above the motion device (such as the motion device 1 and single driver motion device 1c) (
The routing device 109 can be especially useful for routing the set of motion connectors 13 through one or more elbows of a downspout, such as a first elbow 105 and a second elbow 108. A routing device 109 can comprise a pair of routing pulleys 106 and can be coupled to the set of motion connectors 13 when assembled (
The traveling distance of the motions of the cleaning member 104 can be controlled by a motion distance d 20 that is a distance traveled by the first and the second motion members, a pre-defined travel length of the motion member coupler 8, a pre-defined travel length of crank connector 213, or a combination thereof (See at least
The first motion member 5 can further comprise a first gating device 6 at the bottom of the first motion member coupled to a first gate opening 119 that is configured to be open when the first motion member is at the lower end and to be closed when the first motion member leaves the lower end, the second motion member 5a can further comprise a second gating device 6a member coupled to a second gate opening 119a at the bottom of the second motion member that is configured to be open when the second motion member is at the lower end and to be closed when the second motion member leaves the lower end (See at least
The system of this invention can further comprise a first retention device 120 to hold the first motion member at the lower end and a second retention device 120a to hold the second motion member at the lower end in alternate, wherein the first retention device 120 is configured to release the first motion member 5 from the lower end when a total weight of the second motion member 5a is greater than a total weight of the first motion member 5 by a pre-defined weight differential value causing the second motion member 5a to move downward, and in alternate, the second retention device 120a is configured to release the second motion member 5a from the lower end 4 when a total weight of the first motion member 5 is greater than a total weight of the second motion member 5a by the pre-defined weight differential value causing the first motion member to move downward (
In examples, a total weight of the first motion member is the sum of the weight of the first motion member and the weight of water held in the first motion member. A total weight of the second motion member is the sum of the weight of the second motion member and the weight of water held in the second motion member.
The partition member 14 can be configured to support a direction device 7, a direction plate 121, a direction support 122, one or more coupling pulleys 123, a set of direction pulley 127, a gating device trigger 129 and a retention device plate 130 (see at least
The debris removal device 113 and debris exit 202a, the debris removal device and the debris exit can be coupled together and both are positioned at the lower opening 202 of the downspout 111 and above the motion device 1 or 1c, when assembled (
Examples of a direction device 7 are shown in
A top-down view of one representative example of a direction plate 121 and a direction support 122 is shown in
The system of this invention can further comprise a retention device plate 130 (See at least in
Suitable to the system of this invention, the motion device can further comprise a cranking device 210. The cranking device 210 can comprise a crank axle 211, a crank wheel 212, a crank connector 213 and an optional crank handle 214. Some of examples of components are shown in
In examples, the cranking device 210 can be coupled to the first motion member 5 and the second motion member 5a configured for moving the first motion member and the second motion member to generate the oscillating motions or coupled directly to the set of motion connectors configured to generate the oscillating motions. The cranking device 210 can comprise a set of connector linkers 213a to couple the motion members and the motion connector 13. In one example, the crank axle 211 can be positioned at the lower end of the device housing 3 between the first partition and the second partition perpendicular to the longitudinal axis Z-Z′ and parallel to the partition member 14, the crank wheel 212 can be co-axially affixed in a mid-section of the crank axle 211 and functionally coupled to the crank connector 213 when assembled. The crank connector 213 can have one end affixed to the first motion member 5 and a second end affixed to the second motion member 5a. The crank handle can be operated to cause the crank axle to turn in directions shown in rotating directions 215 (
In other examples, the cranking device can be coupled directly to the cleaning device a manual motion device 1a. One representative example is shown in
A motion device comprising a set of motion wheels can also be suitable for the system of this invention, wherein the motion device comprises:
a set of motion wheels coupled to a cleaning member of a cleaning device,
wherein the motion wheels are configured to generate a motion based on the downward motion of a liquid flowing through a downspout and through the motion device caused by gravity or based on manual operations of a cranking device coupled to the motion wheels.
In examples, the motion wheels are configured to generate a motion based on the downward motion of a liquid flowing through a downspout and through the motion device caused by gravity. In other examples, the motion wheels are configured to generate a motion based on manual operations of a cranking device coupled to the motion wheels.
The wheel motion device 1b shown in
In examples, motion wheels 5c and 5d each can comprise a number of chambers 140 that can be pushed by down flowing water 207′ to drive the motion wheels to spin at the spinning direction 12b. The motion wheels 5c and 5d can be affixed together co-axially alone the rotational axis R-R′. There can be two co-axial coupling wheels configured to be positioned between the motion wheels 5c and 5d. One of the coupling wheels can be connected to the cleaning member, such as shown in
A representative schematic illustration of one example of an assembled and installed system is shown in
The system of this invention can comprise the motion members configured to be positioned in two separate downspouts, wherein the partition member 14 can be combined with or replaced by a downspout 111 or a subsequent device housing. In examples, a single driver motion device 1c comprising a pair of single motion member devices can be suitable. The single driver motion device 1c can comprise a first device housing 3a and a second device housing 3b. A first motion member 5 can be positioned in a first partition 15 formed by the first device housing 3a and a second motion member 5a can be positioned in a second partition 16 formed by the second device housing 3b. The set of motion connectors 13 can connect the first motion member 5 and the second motion member 5a, wherein the set of motion connectors 13 can go through downspouts 111 connected to the first device housing 3a and the second device housing 3b and the coupled rain gutter 200 (
In one configuration, a direction device 7 comprising set of direction plates 121 and a direction support 122 that can be positioned in the single driver motion device 1c. In this configuration, a motion member coupler 8, direction connecters 121a and 121b and motion connectors 13 can be combined or coupled together, such as shown in
In a system of this invention, a downspout can be inserted into a motion device so an exit of the downspout can be immediately above the direction support plate 122 and direction plate 121 and so positioned that all water flowing through the downspout can be directed to one of the partitions 15 or 16 depending on the position of the direction plate 121 as shown in dashed lines in
The system of this invention can further comprise a sound assembly comprising at least one sound device. The sound assembly can be coupled to a motion device to produce sound when the motion device is generating uni-directional motions or oscillating motions. Some representative examples and various configurations are shown in
In one example of a configuration, a sound assembly 227 can be coupled to a cleaning member 104 and installed together with the cleaning device over a rain gutter 200 connected to a motion device via a set of motion connectors 13 (
In another example of a configuration, a sound assembly 227 can be coupled to a motion device via a set of motion connectors 13 without being connected to a cleaning device (
This invention is further directed to a kit for a system for de-clogging a rain gutter and a downspout coupled to the rain gutter. The kit of this invention can comprise a motion device selected from:
a first motion device comprising set of motion wheels configured to be coupled to the cleaning member of the cleaning device;
at least a second motion device comprising:
a device housing having an upper end 2 and a lower end 4 distal to each other along a longitudinal axis (Z-Z′) of the device housing, a partition member 14 for forming a first partition 15 and a second partition 16, each is parallel to the longitudinal axis, and a direction device 7 for opening and closing the first partition 15 and the second partition 16 in alternate; and
a first motion member 5 positioned in the first partition 15 and a second motion member 5a positioned in the second partition 16, the first motion member and the second motion member are coupled together via a motion member coupler 8 and each is movable parallel to the longitudinal axis, the first motion member 5 is configured, when it moves downward, to pull the second motion member 5a moving upward via the motion member coupler 8 and, in alternate, the second motion member 5a is configured, when it moves downward, to pull the first motion member 5 moving upward via the motion member coupler 8;
wherein, the direction device 7 is configured to open the first partition 15 and close the second partition 16 when the first motion member 5 is near the upper end 2 and the second motion member 5a is near the lower end 4, in alternate, the direction device 7 is configured to open the second partition 16 and close the first partition 15 when the second motion member 5a is near the upper end 2 and the first motion member 5 is near the lower end 4, and the direction device 7 is configured to open only one of the first and the second partition at a time;
wherein, the first partition and the second partition are positioned in the device housing; or
the first partition is positioned in a first device housing and the second partition is positioned in a second device housing;
or a combination thereof;
wherein the motion device is configured to produce uni-directional motions or oscillating motions based on motions of a liquid flowing through the motion device caused by gravity when assembled.
The first motion device and the second motion device each is configured, when assembled, to drive uni-directional motions or oscillating motions of the cleaning member based on motions of a liquid flowing through the first or the second motion device caused by gravity. The liquid can comprise rain water and can be collected from a rain gutter and flow through a connected downspout through the motion device.
The wheel motion device 1b shown in
The kit can further comprise:
a cleaning member;
a set of motion connectors, wherein the cleaning member and a set of motion connectors are configured to form a cleaning device when assembled, wherein the set of motion connectors 13 are configured to be connected to the first motion member 5 and the second motion member 5a when assembled;
two or more routing devices for routing the set of motion connectors to connect to at least the cleaning member; and
optionally, a cranking device configured for manual operation of at least the cleaning device;
optionally, a debris removal device and a debris exit, the debris removal device and the debris exit are coupled together and both are configured to be positioned at a downspout when assembled; and
optionally, a sound device configured to be coupled to the set of motion connectors.
The first motion member 5 and the second motion member 5a are configured to be connected to the set of motion connectors 13 when assembled.
The cleaning member 104, the motion connectors 13, the routing device 109 and the cranking device 210 including crank connector 213 described above and shown in
The cranking device 210 can be pre-assembled with a device housing or a section of a downspout to form a manual motion device, such as the manual motion device 1a shown in
The kit of this invention can further comprise a debris removal device 113, the debris exit 202a and the debris exit door 112 that can be pre-assembled to form a stand-alone debris removal assembly 138 and can be further pre-assembled with a motion device, such as a motion device 1 (
The kit can further comprise at least one optional cleaning connector 104a (
In the kit of this invention, the first motion member 5 can further comprise a first gating device 6 at the bottom of the first motion member 5 that is configured to be open when the first motion member 5 is at the lower end and to be closed when the first motion member 5 leaves the lower end, the second motion member 5a can further comprise a second gating device 6a at the bottom of the second motion member 5a that is configured to be open when the second motion member 5a is at the lower end and to be closed when the second motion member 5a leaves the lower end.
In the kit of this invention, the motion device can further comprise a first retention device 120 to hold the first motion member at the lower end and a second retention device 120a to hold the second motion member at the lower end, wherein the first retention device 120 is configured to release the first motion member 5 when a total weight of the first motion member is greater than a total weight of the second motion member by a pre-defined weight differential value, and the second retention device 120a is configured to release the second motion member 5a when a total weight of the second motion member is greater than a total weight of the first motion member by the pre-defined weight differential value, as described above.
The motion device 1 can be pre-assembled (
The kit of this invention can further comprise a sound assembly. The sound assembly can be configured to be assembled together with a cleaning device. The sound assembly can also be configured to be assembled together with a motion device without the cleaning device. Examples of the sound assembly 227 shown in
An objective of the present invention is to provide an automatic system, also referred to as an automatic gutter dredger or an automatic gutter cleaner, for de-clogging a rain gutter and a downspout that helps to keep the downspout unobstructed whenever it is raining. Another objective of the present invention is to reduce or eliminate the requirement for periodic cleaning of the rain gutters and downspouts and to replace such periodic cleaning with the automatic system disclosed herein.
In particular examples, a gutter dredger system can comprise two portions, an upper portion and a lower portion. The upper portion comprises a gutter hanger 100, a cleaning pulley 103, and a rope or belt as a set of motion connectors 13 hanging on the cleaning pulley 103. The cleaning pulley 103 is hung on the gutter hanger 100 above the rain gutter upside opening (
Suitable for the invention disclosed herein, a rope can comprise strings, braided lines, wires, or other forms that can comprise metal strings, such as copper strings, steel strings, galvanized steel strings, aluminum strings, alloy strings, or a combination thereof; nylon (polyamide); polypropylene; polyester; LCAP (Liquid Crystal Aromatic Polyester); polyethylene; carbon fiber; Kevlar®, Twaron®, Technora® (Aramid) (under respective trademarks); PBO fiber, such as Zylon (poly(p-phenylene-2,6-benzobisoxazole)), a combination thereof, or other natural or man-made materials.
The lower portion can have a motion device disclosed herein (a motion device can also be referred to as “Water Powered Reciprocating Motor”, or a “water motor”), such as the motion device 1 (such as the ones shown in
A debris removal device, such as the debris removal device 113, can be installed above the cups in case the cups are clogged by the debris (
The Water Powered Reciprocating Motor, i.e., the motion device, can move a rope or belt in the downspout up and down automatically whenever it is raining. The moving rope or belt can help to keep the downspout unobstructed.
The flowing water can also flash the debris down and can discharge the debris from the debris exit 202a (
One example is shown in
Another example of an installed system is shown in
Two double pulleys, such as the first set of routing pulleys 106 and the second set of routing pulleys 107 can be affixed at the first elbow 105 and the second elbow 108, respectively. The set of motion connectors 13, such as a rope can drop to the ground (lower portion) inside the downspout through the first set of routing pulleys 106 and the second set of routing pulleys 107. The set of motion connectors 13 can be connected to a motion device disclosed herein.
In yet another example, a downspout 111 has a lower opening 202 that is between the downspout and a motion device 1. The motion device 1 can be installed within the downspout in a lower portion 203. The motion device and the lower opening are both located above the ground 206. The system can further comprise an optional ground exit 202b that can be connected to the lower end of the motion device (
The system of this invention can be installed together with rain gutter and downspout when a house is built. The system can also be installed by retrofitting the rain gutter and downspout that has already been installed. The system can further be installed as an add-on.
One advantage of the system disclosed herein is that it is designed to automatically de-clog a rain gutter and a downspout when it rains, therefore helping to reduce or eliminate the needs for frequent manual cleaning.
Another advantage of the system disclosed herein is that it does not require electric power when cleaning the gutter and the downspout. Traditional power tools, for example, vacuum machines, require the use of electric power source to remove debris, such as leaves. The system of this invention can be automatically running whenever it rains.
Yet another advantage of the system disclosed herein is that a debris exit can be configured at a lower portion of a downspout accessible from the ground, such as illustrated in
Yet another advantage of the system of this invention is that the cleaning member can have oscillating motion so the debris can be loosened up not accumulating, thus the system is less likely to get clogged for a long period of time and can be automatically self-cleaned whenever it rains.
This invention is further directed to a sound assembly. The sound assembly can comprise at least one sound device. The sound assembly can further comprise a sound device connector coupled to the sound device and a sound motion frame coupled to the sound device connector. The sound motion frame can be use used to install the sound assembly to a desired location. The sound assembly can be coupled to a motion device disclosed herein to produce sound when the motion device is in motion. Some representative examples and various configurations are shown in
The sound device can be a bell (
Some parts of the devices and labels are shown below:
The instant disclosure now will be further exemplified in the following non-limiting examples.
The present invention is further defined in the following Examples. It should be understood that these Examples, while indicating preferred embodiments of the invention, are given by way of illustration only. From the above discussion and these Examples, one skilled in the art can ascertain the essential characteristics of this invention, and without departing from the spirit and scope thereof, can make various changes and modifications of the invention to adapt it to various uses and conditions.
A de-clogging system comprising a motion device 1 and a cleaning device 18 was installed in a gutter and a downspout at a side of a house. A water hose was used to supply water to the rain gutter. The supplied water was draining into the connected downspout feeding to the motion device 1 installed at the lower portion of the downspout. The water filled in one cup that had a capacity of about 500 mL pulling the cleaning member moving in one direction. The cup was equipped with a ball valve 128 (
A system as in Example 1 was exposed to rain. Rain water activated the system and caused the cleaning member to have oscillating motions as described above to clean the rain gutter and downspout.
A de-clogging system comprising a motion device 1 as shown in
A pair of single driver motion devices each comprising a single motion member were installed in a pair of downspouts connected with a section of rain gutter as shown in
This application claims the priority of a U.S. provisional application Ser. No. 62/783,393 filed on Dec. 21, 2018, which is hereby incorporated by reference.
Number | Date | Country | |
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62783393 | Dec 2018 | US |