CN111962624A - Closestool pipeline mediation cleaning device - Google Patents

Abstract

The invention provides a closestool pipeline dredging and cleaning device which comprises a shell, wherein a water pipe is connected to the upper end of the shell, a plurality of water outlets are formed in the water pipe, a fixed seat is connected to the upper end of the outer side of the shell, an electromagnet is installed in the fixed seat, a power line is connected to the electromagnet, an annular upper air bag is connected to the fixed seat, an upper air pipe is connected to the upper air bag, an iron lantern ring is connected to the lower end of the outer side of the shell in a sliding mode, an annular lower air bag is connected to the lantern ring, a lower air pipe is connected to the lower air bag, and a spring is connected between the fixed seat. When the vertical pipe type toilet is used, the shell is placed in the toilet, the shell enters the upper end of the water storage pipe along the toilet, the shell continuously moves forwards until reaching the vertical pipe, cleaning water is added to the vertical pipe and the water storage pipe through the water pipe, and the vertical pipe and the water storage pipe are high in cleaning efficiency.

Description

Closestool pipeline mediation cleaning device

Technical Field

The invention relates to the technical field of pipeline dredging equipment, in particular to a closestool pipeline dredging and cleaning device.

Background

In order to avoid the peculiar smell of a sewer from overflowing from the closestool, the lower end of the existing closestool is connected with a U-shaped water storage pipe, the other end of the water storage pipe is connected with a vertical pipe, the lower end of the vertical pipe is connected with a transverse pipe, sewage flows into a public sewer from the transverse pipe, and at ordinary times, a certain amount of water is accumulated in the water storage pipe to isolate the peculiar smell of the sewer. After long-time use, a large amount of dirt is attached to the inner walls of the water storage pipe and the vertical pipe, so that the toilet bowl cannot smoothly discharge water.

The above technical solution has the following disadvantages: after the cleaning water is poured into the closestool, the cleaning water is mainly stopped in the water storage pipe, the cleaning effect on the water storage pipe is strong, the dirt on the inner wall of the vertical pipe is only washed away from the lower surface for a short time, and the cleaning effect is poor.

Disclosure of Invention

The invention aims to overcome the defects of the traditional technology and provides a closestool pipeline dredging and cleaning device, which improves the cleaning efficiency of a vertical pipe and a water storage pipe.

The aim of the invention is achieved by the following technical measures: the utility model provides a closestool pipeline mediation cleaning device, includes the shell, the shell upper end is connected with the water pipe, a plurality of delivery ports have been seted up on the water pipe, shell outside upper end is connected with the fixing base, install the electro-magnet in the fixing base, be connected with the power cord on the electro-magnet, be connected with on the fixing base and be annular last gasbag, upward be connected with the trachea on the gasbag, shell outside lower extreme sliding connection has the lantern ring of iron, be connected with on the lantern ring and be annular lower gasbag, be connected with trachea down on the gasbag down, be connected with the spring between fixing base and the lantern ring. By adopting the technical scheme, when in use, firstly, the shell is put into the closestool and enters the upper end of the water storage pipe along the closestool, and then, the following steps are operated: and S1, inflating the lower air bag, attaching the lower air bag to the inner wall of the water storage pipe after the lower air bag expands, and fixing the lantern ring. S2, starting the electromagnet, and driving the shell to move downwards by the fixing seat close to the lantern ring under the action of the electromagnet force. And S3, inflating the upper air bag, attaching the upper air bag to the inner wall of the water storage pipe after the upper air bag expands, and fixing the shell. And S4, exhausting the gas in the lower air bag, closing the electromagnet and enabling the lantern ring to move forwards under the action of the spring. And S5, repeating the steps S1-S4 to make the shell move forward continuously until reaching the standpipe, and keeping the upper air bag or the lower air bag in an inflated state. S6, cleaning water is added to the vertical pipe and the water storage pipe through the water pipe, the dredging agent is dissolved in advance by the cleaning water, and the water is directly added to the innermost side of the pipeline through the water pipe, so that the efficiency is high. And S7, after the standpipe and the water storage pipe are soaked for a preset time, exhausting the gas in the upper air bag or the lower air bag, and pulling out the shell.

The lateral wall of the upper air pipe is connected with the lateral wall of the lower air pipe, the power cord is positioned between the upper air pipe and the lower air pipe, the upper air pipe and the lower air pipe penetrate through the inner side of the water pipe and penetrate into the shell from the upper end of the shell, and the upper end of the upper air pipe and the upper end of the lower air pipe penetrate through the lateral wall of the upper end of the water pipe. When the water pipe is used, the structure is compact, the upper air pipe and the lower air pipe are both positioned on the inner side of the water pipe, the complex circuit is avoided, and the water pipe is convenient to clean.

The lower end of the upper air pipe is connected with the lower part of the inner side of the shell, the lower end of the lower air pipe is connected with the lower part of the inner side of the shell, and the power line penetrates out of the side part of a seam between the upper air pipe and the lower air pipe. When the power supply device is used, the structure is compact, the power line is located on the inner side of the water pipe, the complex circuit is avoided, the cleaning is convenient, meanwhile, the upper air pipe and the lower air pipe are used for isolating the power line from the water pipe, and the probability of power line moisture leakage is reduced.

The upper air pipe is connected with an upper air pipe, and the upper air pipe penetrates through the side wall of the shell and the fixed seat and then is connected with the upper air bag;

the lower air inlet pipe is connected with the lower air inlet pipe made of elastic materials, the lower air inlet pipe penetrates through the side wall of the shell and the lantern ring and then is connected with the lower air bag, and an avoiding groove for avoiding the lower air inlet pipe is formed in the lantern ring; and the power line penetrates through the side wall of the shell and then is connected with the electromagnet. When the air bag is used, air in the upper air pipe enters the upper air bag through the upper air pipe, air in the lower air pipe enters the lower air bag through the lower air inlet pipe, and the lower air inlet pipe is elastic and cannot be broken when the lantern ring moves.

The outer side of the lower air bag is connected with a plurality of bristles which are arranged along the circumferential direction of the lower air bag. When the cleaning brush is used, the shell is pulled out, the brush bristles can scrape the inner side walls of the vertical pipe and the water storage pipe, and the cleaning effect is improved.

The upper end of the water pipe is connected with a water tank through a water inlet valve;

the upper end of the upper air pipe is connected with a compressed air bottle through an upper air inlet solenoid valve, the upper air pipe is connected with an upper air outlet pipe, and the upper air outlet pipe is provided with an upper air outlet solenoid valve;

the lower air pipe is connected with the compressed air bottle through a lower air inlet electromagnetic valve, the lower air pipe is connected with a lower air outlet pipe provided with a lower air outlet electromagnetic valve, and the upper end of the power line is connected with a power supply. When in use, the upper air inlet electromagnetic valve is started, and the upper air bag is inflated; starting an upper exhaust solenoid valve to exhaust air in the upper air bag; starting a lower air inlet electromagnetic valve to inflate the lower air bag; and starting the lower exhaust solenoid valve to exhaust the air in the lower air bag.

The upper air inlet solenoid valve is connected with an upper air inlet solenoid valve normally-open reed pipe, the lower air inlet solenoid valve is connected with a lower air outlet solenoid valve normally-open reed pipe, and the power line is connected with an electromagnet normally-open reed pipe. When the air conditioner is used, the upper air inlet solenoid valve is started when the normally open reed switch of the upper air inlet solenoid valve is closed; when the normally open reed switch of the upper exhaust solenoid valve is closed, the upper exhaust solenoid valve is started; when the normally open reed switch of the lower air inlet electromagnetic valve is closed, the lower air inlet electromagnetic valve is started; when the normally open reed switch of the lower exhaust solenoid valve is closed, the lower exhaust solenoid valve is started; when the normally open reed switch of the electromagnet is closed, the electromagnet is started.

The support is provided with a first cylinder and a second cylinder, the lower air inlet solenoid valve normally-open reed pipe, the upper air outlet solenoid valve normally-open reed pipe, the upper air inlet solenoid valve normally-open reed pipe and the lower air outlet solenoid valve normally-open reed pipe are sequentially arranged on the inner side wall of the first cylinder, the electromagnet normally-open reed pipe is arranged on the inner side wall of the second cylinder, a rotating shaft which is driven by a motor and penetrates through the first cylinder and the second cylinder is rotatably connected to the support, a first swing arm located on the inner side of the first cylinder is arranged on the rotating shaft, a first magnet is arranged at the end part of the first swing arm, a second swing arm located in the second cylinder is arranged on the rotating shaft, and a second magnet with the radian of 180 degrees is arranged at the end part of the second swing arm. When the lower air inlet solenoid valve normally-open reed pipe, the upper air inlet solenoid valve normally-open reed pipe and the lower air inlet solenoid valve normally-open reed pipe are closed in sequence and then disconnected in sequence. When the second magnet is close to and is far away from the normally open reed switch of the electromagnet, the normally open reed switch of the electromagnet is closed and then is disconnected.

The rotating shaft rotates along the clockwise direction, the normally open reed switch of the lower air inlet solenoid valve is located at the seven-point half position of the first cylinder, the normally open reed switch of the upper air inlet solenoid valve is located at the ten-point half position of the first cylinder, the normally open reed switch of the upper air inlet solenoid valve is located at the one-point half position of the first cylinder, the normally open reed switch of the lower air inlet solenoid valve is located at the four-point half position of the first cylinder, and the normally open reed switch of the electromagnet is located at the one-point half position of the second cylinder. During the use, when the motor was closed, first swing arm and second swing arm were located the pivot below under the action of gravity, facilitate the use.

The motor drives the rotating shaft to rotate along the clockwise direction, and when the first magnet rotates to a half position of seven points, the lower air bag is inflated; when the first magnet rotates to a tenth half position, air in the upper air bag is discharged, meanwhile, the starting end of the second magnet rotates to a first half position, and the electromagnet is started; when the first magnet rotates to a half-to-half position, the air bag is inflated; when the first magnet rotates to a four-point half position, the gas in the lower air bag is exhausted, and meanwhile, the tail end of the second magnet leaves the one-point half position, and the electromagnet is closed. The shell continuously moves forwards along with the rotation of the rotating shaft driven by the motor in the clockwise direction.

The lower end of the shell is connected with a limiting plate which can be abutted against the lantern ring. During the use, when the lantern ring offseted with the limiting plate, the lantern ring stop motion plays limiting displacement.

In summary, when the invention is used, the outer shell is put into the closestool, the outer shell enters the upper end of the water storage pipe along the closestool, the outer shell continuously moves forwards until reaching the vertical pipe, cleaning water is added to the vertical pipe and the water storage pipe through the water pipe, and the cleaning efficiency of the vertical pipe and the water storage pipe is high.

Drawings

The invention is further described with reference to the following figures and detailed description:

FIG. 1 is a schematic structural diagram of a toilet pipeline dredging and cleaning device of the invention;

FIG. 2 is a schematic diagram of the internal structure of the toilet pipeline dredging and cleaning device;

FIG. 3 is a schematic structural view of section A-A of FIG. 2;

FIG. 4 is a schematic structural diagram of the end of a water pipe in the toilet pipeline dredging and cleaning device;

FIG. 5 is a schematic structural diagram of a bracket in the toilet pipeline dredging and cleaning device;

FIG. 6 is a schematic structural view of section B-B of FIG. 5;

FIG. 7 is a schematic structural view of section C-C of FIG. 5;

FIG. 8 is a schematic structural diagram of a movement state of the toilet pipeline dredging and cleaning device;

FIG. 9 is a schematic structural view of a toilet pipeline dredging and cleaning device in a use state.

In the figure: 1-a housing; 2, arranging an air bag; 3-a spring; 4-lower air bag; 5-brushing; 6-a water pipe; 7-water outlet; 8-a power line; 9-an upper air inlet pipe; 10-a vertical pipe; 11-a water storage pipe; 12-a fixed seat; 13-horizontal tube; 14-an electromagnet; 15-lower air inlet pipe; 16-a collar; 17-an avoidance groove; 18-a limiting plate; 19-lower trachea; 20-upper trachea; 21-a water inlet valve; 22-a water tank; 23-lower inlet solenoid valve; 24-a compressed gas cylinder; 25-lower exhaust pipe; 26-lower exhaust solenoid valve; 27-a power supply; 28-electromagnet normally open reed pipe; 29-upper exhaust pipe; 30-upper exhaust solenoid valve; 31-upper inlet solenoid valve; 32-a toilet bowl; 33-a scaffold; 34-an electric motor; 35-a rotating shaft; 36-a first cylinder; 37-a second cylinder; 38-lower air inlet electromagnetic valve normally open reed pipe; 39-normally open reed pipe of upper exhaust solenoid valve; 40-upper air inlet solenoid valve normally open reed pipe; 41-lower exhaust solenoid valve normally open reed pipe; 42-a first swing arm; 43-a first magnet; 44-a second swing arm; 45-second magnet.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" 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 should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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.

The existing toilet 32 has an upper end connected to a water storage pipe 11 at a lower end thereof, a vertical pipe 10 connected to the lower end of the water storage pipe 11, and a horizontal pipe 13 connected to the lower end of the vertical pipe 10.

As shown in attached figures 1 and 2, the closestool pipeline dredging and cleaning device comprises a shell 1 with a cavity inside, the shell 1 is light in weight and convenient to operate, and other parts are convenient to mount inside the shell 1.

The upper end of the shell 1 is connected with a water pipe 6, the upper end of the water pipe 6 is connected with a water tank 22 through a water inlet valve 21, and the side wall of the lower end of the water pipe 6 is provided with a plurality of water outlets 7.

1 outside upper end of shell is connected with and is annular fixing base 12, install electro-magnet 14 in the fixing base 12, electro-magnet 14 is connected with power cord 8, the fixing base 12 outside is connected with and is annular last gasbag 2, it is connected with trachea 20 on the gasbag 2 to go up, 1 outside lower extreme sliding connection of shell has iron's lantern ring 16, be connected with on the lantern ring 16 and be annular lower gasbag 4, be connected with trachea 19 down on the gasbag 4, be connected with spring 3 between fixing base 12 and the lantern ring 16, the selection is excellent, spring 3 cup joints in the 1 outside of shell, the spring 3 upper end is connected with fixing base 12, the 3 lower extreme of spring is connected with lantern ring 16.

When in use, firstly, the shell 1 is put into the closestool 32, the shell 1 enters the upper end of the water storage pipe 11 along the closestool 32, and then, the following steps are operated:

s1, inflating the lower air bag 4, attaching the lower air bag 4 to the inner wall of the water storage pipe 11 after expanding, and fixing the lantern ring 16.

S2, starting the electromagnet 14, and driving the shell 1 to move downwards by the fixed seat 12 close to the lantern ring 16 under the action of the magnetic force of the electromagnet 14.

And S3, inflating the upper air bag 2, attaching the upper air bag 2 to the inner wall of the water storage pipe 11 after expanding, and fixing the shell 1.

And S4, exhausting the air in the lower air bag 4, closing the electromagnet 14 and enabling the lantern ring 16 to move forwards under the action of the spring 3.

S5, repeating the above steps S1-S4, the housing 1 is moved forward until reaching the vertical tube 10, and the upper air cell 2 or the lower air cell 4 is kept in the inflated state.

S6, cleaning water is added to the vertical pipe 10 and the water storage pipe 11 through the water pipe 6, the dredging agent is dissolved in advance by the cleaning water, and the water is directly added to the innermost side of the pipeline through the water pipe 6, so that the efficiency is high.

And S7, after the standpipe 10 and the water storage pipe 11 are soaked for a preset time, exhausting the gas in the upper air bag 2 or the lower air bag 4, and pulling out the shell 1.

The outer side of the lower air bag 4 is connected with a plurality of brush hairs 5.

When the cleaning brush is used, the brush bristles 5 can scrape the inner side walls of the vertical pipe 10 and the water storage pipe 11 when the shell 1 is pulled out, and the cleaning effect is improved.

The lower end of the shell 1 is connected with a limit plate 18 which can be abutted against the lantern ring 16.

When the lantern ring 16 abuts against the limiting plate 18 in use, the lantern ring 16 stops moving and plays a limiting role.

As shown in figure 3, the side wall of the upper air pipe 20 is connected with the side wall of the lower air pipe 19, the power cord 8 is positioned between the upper air pipe 20 and the lower air pipe 19, the upper air pipe 20 and the lower air pipe 19 penetrate through the inner side of the water pipe 6 and penetrate into the shell 1 from the upper end of the shell 1, and the upper ends of the upper air pipe 20 and the lower air pipe 19 penetrate through the side wall of the upper end of the water pipe 6.

When the device is used, the structure is compact, the upper air pipe 20 and the lower air pipe 19 are both positioned on the inner side of the water pipe 6, the complexity of circuits is avoided, and the device is convenient to clean.

The lower end of the upper air pipe 20 is connected with the lower part of the inner side of the shell 1, the lower end of the lower air pipe 19 is connected with the lower part of the inner side of the shell 1, and the power line 8 penetrates out from the side part of a seam between the upper air pipe 20 and the lower air pipe 19.

When the device is used, the structure is compact, the power line 8 is located on the inner side of the water pipe 6, the complex circuit is avoided, the cleaning is convenient, meanwhile, the upper air pipe 20 and the lower air pipe 19 are used for isolating the power line 8 from the water pipe 6, and the probability of the power line 8 being affected with damp and leaking electricity is reduced.

The upper air pipe 20 is connected with an upper air pipe 9, and the upper air pipe 9 passes through the side wall of the shell 1 and the fixed seat 12 and then is connected with the upper air bag 2;

the lower air pipe 19 is connected with a lower air inlet pipe 15 made of elastic materials, the lower air inlet pipe 15 penetrates through the side wall of the shell 1 and the lantern ring 16 and then is connected with the lower air bag 4, and the lantern ring 16 is provided with an avoidance groove 17 for avoiding the lower air inlet pipe 15; the power line 8 passes through the side wall of the shell 1 and then is connected with the electromagnet 14.

In use, air in the upper air pipe 20 enters the upper air bag 2 through the upper air pipe 9, air in the lower air pipe 19 enters the lower air bag 4 through the lower air pipe 15, and the lower air pipe 15 has elasticity and cannot be broken when the lantern ring 16 moves.

As shown in fig. 4, the upper end of the upper air pipe 20 is connected with a compressed air bottle 24 through an upper air inlet solenoid valve 31, the upper air pipe 20 is connected with an upper air outlet pipe 29 provided with an upper air outlet solenoid valve 30, the lower air pipe 19 is connected with the compressed air bottle 24 through a lower air inlet solenoid valve 23, the lower air pipe 19 is connected with a lower air outlet pipe 25 provided with a lower air outlet solenoid valve 26, and the upper end of the power cord 8 is connected with a power supply 27. Preferably, the upper intake solenoid valve 31, the upper exhaust pipe 29, the lower intake solenoid valve 23, and the lower exhaust solenoid valve 26 are normally closed solenoid valves.

When in use, the upper air inlet electromagnetic valve 31 is started to inflate the upper air bag 2; the upper exhaust solenoid valve 30 is started to exhaust the air in the upper air bag 2; the lower air inlet electromagnetic valve 23 is started to inflate the lower air bag 4; the lower exhaust solenoid valve 26 is actuated to exhaust the air of the lower air bag 4.

An upper air inlet solenoid valve normally-open reed pipe 40 is connected to the upper air inlet solenoid valve 31, an upper air inlet solenoid valve normally-open reed pipe 39 is connected to the upper air inlet solenoid valve 30, a lower air inlet solenoid valve normally-open reed pipe 38 is connected to the lower air inlet solenoid valve 23, a lower air inlet solenoid valve normally-open reed pipe 41 is connected to the lower air inlet solenoid valve 26, and an electromagnet normally-open reed pipe 28 is connected to the power line 8.

When in use, the upper air inlet solenoid valve 31 is started when the normally open reed switch 40 of the upper air inlet solenoid valve is closed; when the normally open reed switch 39 of the upper exhaust solenoid valve is closed, the upper exhaust solenoid valve 30 is started; when the lower air inlet electromagnetic valve normally-open reed pipe 38 is closed, the lower air inlet electromagnetic valve 23 is started; when the normally open reed switch 41 of the lower exhaust solenoid valve is closed, the lower exhaust solenoid valve 26 is started; when the electromagnet normally-open reed switch 28 is closed, the electromagnet 14 is started.

As shown in fig. 5, 6 and 7, the air conditioner further comprises a bracket 33, a first cylinder 36 and a second cylinder 37 are mounted on the bracket 33, a lower air inlet solenoid valve normally open reed pipe 38, an upper air outlet solenoid valve normally open reed pipe 39, an upper air inlet solenoid valve normally open reed pipe 40 and a lower air outlet solenoid valve normally open reed pipe 41 are sequentially mounted on the inner side wall of the first cylinder 36, an electromagnet normally open reed pipe 28 is mounted on the inner side wall of the second cylinder 37, the bracket 33 is rotatably connected with a rotating shaft 35 which is driven by a motor 34 and penetrates through the first cylinder 36 and the second cylinder 37, a first swing arm 42 located inside the first cylinder 36 is mounted on the rotating shaft 35, a first magnet 43 is mounted at the end of the first swing arm 42, a second swing arm 44 located inside the second cylinder 37 is mounted on the rotating shaft 35, and a second magnet 45 with an arc of 180 degrees is mounted at the end of the second swing arm.

During the use, 34 pivots 35 of motor rotates, and pivot 35 drives first swing arm 42 and second swing arm 44 and rotates, and when first magnet 43 was close to in proper order again and kept away from down solenoid valve normally open tongue tube 38 that admits air, last solenoid valve normally open tongue tube 39 that admits air, upward solenoid valve normally open tongue tube 40 that admits air and the solenoid valve normally open tongue tube 41 that admits air down, lower solenoid valve normally open tongue tube 38 that admits air, upward solenoid valve normally open tongue tube 39 that admits air, upward solenoid valve normally open tongue tube 40 that admits air and the solenoid valve normally open tongue tube 41 that admits air of arranging air down close in proper order, and the disconnection in proper order again. When the second magnet 45 approaches and then moves away from the electromagnet normally-open reed pipe 28, the electromagnet normally-open reed pipe 28 is closed and then is opened.

The lower air inlet solenoid valve normally open reed pipe 38 is located at the seven-point half position of the first cylinder 36, the upper air inlet solenoid valve normally open reed pipe 39 is located at the ten-point half position of the first cylinder 36, the upper air inlet solenoid valve normally open reed pipe 40 is located at the one-point half position of the first cylinder 36, the lower air outlet solenoid valve normally open reed pipe 41 is located at the four-point half position of the first cylinder 36, and the electromagnet normally open reed pipe 28 is located at the one-point half position of the second cylinder 37.

When the motor 34 is turned off, the first swing arm 42 and the second swing arm 44 are under the rotating shaft 35 under the action of gravity, so that the use is convenient.

The motor 34 drives the rotating shaft 35 to rotate in the clockwise direction, and when the first magnet 43 rotates to the seventh half position, the lower air bag 4 is inflated; when the first magnet 43 rotates to the tenth half position, the air in the upper air bag 2 is discharged, and simultaneously, the starting end of the second magnet 45 rotates to the first half position, and the electromagnet 14 is started; when the first magnet 43 rotates to a half position, the air bag 2 is inflated; when the first magnet 43 is rotated to the four-and-half positions, the air in the lower air bag 4 is exhausted, and at the same time, the trailing end of the second magnet 45 is moved away from the one-and-half positions, and the electromagnet 14 is turned off. As the motor 34 drives the rotating shaft 35 to rotate in the clockwise direction, the housing 1 is continuously moved forward.

As shown in figures 8 and 9, when the invention is used, the shell is put into the closestool 32, the shell 1 enters the upper end of the water storage pipe 11 along the closestool 32, the shell 1 continuously moves forwards until reaching the vertical pipe 10, and cleaning water is added to the vertical pipe 10 and the water storage pipe 11 through the water pipe 6, so that the cleaning efficiency of the vertical pipe 10 and the water storage pipe 11 is improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a closestool pipeline mediation cleaning device which characterized in that: including shell (1), shell (1) upper end is connected with water pipe (6), a plurality of delivery ports (7) have been seted up on water pipe (6), shell (1) outside upper end is connected with fixing base (12), install electro-magnet (14) in fixing base (12), be connected with power cord (8) on electro-magnet (14), be connected with on fixing base (12) and be annular last gasbag (2), it has last trachea (20) to go up to be connected with on gasbag (2), shell (1) outside lower extreme sliding connection has iron's lantern ring (16), be connected with on the lantern ring (16) and be annular gasbag (4) down, gasbag (4) are connected with down trachea (19) down, be connected with spring (3) between fixing base (12) and the lantern ring (16).

2. A toilet line pull through cleaning apparatus as claimed in claim 1, wherein: go up the lateral wall of trachea (20) and be connected with the lateral wall of trachea (19) down, power cord (8) are located between trachea (20) and trachea (19) down, go up trachea (20) and trachea (19) down and pass water pipe (6) inboard and penetrate shell (1) from shell (1) upper end, go up trachea (20) and trachea (19) down the upper end and pass water pipe (6) upper end lateral wall.

3. A toilet line pull through cleaning apparatus as claimed in claim 2, wherein: go up trachea (20) lower extreme and shell (1) inboard sub-unit connection, trachea (19) lower extreme and shell (1) inboard sub-unit connection down, power cord (8) are worn out from the seam lateral part between last trachea (20) and trachea (19) down.

4. A toilet line pull through cleaning apparatus as claimed in claim 2, wherein: the upper air pipe (20) is connected with an upper air inlet pipe (9), and the upper air inlet pipe (9) penetrates through the side wall of the shell (1) and the fixing seat (12) and then is connected with the upper air bag (2);

the lower air pipe (19) is connected with a lower air inlet pipe (15) made of an elastic material, the lower air inlet pipe (15) penetrates through the side wall of the shell (1) and the lantern ring (16) and then is connected with the lower air bag (4), and an avoidance groove (17) for avoiding the lower air inlet pipe (15) is formed in the lantern ring (16); the power line (8)) penetrates through the side wall of the shell (1) and then is connected with the electromagnet (14).

5. A toilet line pull through cleaning apparatus as claimed in claim 1, wherein: the outer side of the lower air bag (4) is connected with a plurality of bristles (5) arranged along the circumferential direction of the lower air bag (4).

6. A toilet pipe pull through cleaning apparatus as claimed in any one of claims 1 to 5, wherein: the upper end of the water pipe (6) is connected with a water tank (22) through a water inlet valve (21);

the upper end of the upper air pipe (20) is connected with a compressed air bottle (24) through an upper air inlet electromagnetic valve (31), the upper air pipe (20) is connected with an upper air outlet pipe (29), and the upper air outlet pipe (29) is provided with an upper air outlet electromagnetic valve (30);

the lower air pipe (19) is connected with a compressed air bottle (24) through a lower air inlet electromagnetic valve (23), a lower air outlet pipe (25) provided with a lower air outlet electromagnetic valve (26) is connected to the lower air pipe (19), and a power supply (27) is connected to the upper end of the power line (8).

7. A toilet pipe pull through cleaning apparatus as claimed in claim 6, wherein: the air conditioner is characterized in that an upper air inlet solenoid valve normally-open reed pipe (40) is connected to the upper air inlet solenoid valve (31), an upper air inlet solenoid valve normally-open reed pipe (39) is connected to the upper air inlet solenoid valve (30), a lower air inlet solenoid valve normally-open reed pipe (38) is connected to the lower air inlet solenoid valve (23), a lower air outlet solenoid valve normally-open reed pipe (41) is connected to the lower air outlet solenoid valve (26), and an electromagnet normally-open reed pipe (28) is connected to the power line (8).

8. A toilet line pull through cleaning apparatus as claimed in claim 7, wherein: the air conditioner is characterized by further comprising a support (33), a first cylinder (36) and a second cylinder (37) are mounted on the support (33), a lower air inlet solenoid valve normally-open reed pipe (38), an upper air outlet solenoid valve normally-open reed pipe (39), an upper air inlet solenoid valve normally-open reed pipe (40) and a lower air outlet solenoid valve normally-open reed pipe (41) are sequentially mounted on the inner side wall of the first cylinder (36), an electromagnet normally-open reed pipe (28) is mounted on the inner side wall of the second cylinder (37), a rotating shaft (35) which is driven by a motor (34) and penetrates through the first cylinder (36) and the second cylinder (37) is rotatably connected onto the support (33), a first swing arm (42) located on the inner side of the first cylinder (36) is mounted on the rotating shaft (35), a first magnet (43) is mounted at the end of the first swing arm (42), and a second swing arm (44) located in the second cylinder (37) is mounted on the rotating shaft (35), and a second magnet (45) with the radian of 180 degrees is arranged at the end part of the second swing arm (44).

9. A toilet line pull through cleaning apparatus as claimed in claim 8, wherein: the rotating shaft (35) rotates clockwise, the lower air inlet solenoid valve normally-open reed pipe (38) is located at the seven-point half position of the first cylinder (36), the upper air inlet solenoid valve normally-open reed pipe (39) is located at the ten-point half position of the first cylinder (36), the upper air inlet solenoid valve normally-open reed pipe (40) is located at the one-point half position of the first cylinder (36), the lower air inlet solenoid valve normally-open reed pipe (41) is located at the four-point half position of the first cylinder (36), and the electromagnet normally-open reed pipe (28) is located at the one-point half position of the second cylinder (37).

10. A toilet pipe pull through cleaning apparatus as claimed in any one of claims 1 to 5, wherein: the lower end of the shell (1) is connected with a limiting plate (18) which can be abutted against the lantern ring (16).

Images