KR20200137684A - Flush doors door hinge - Google Patents

Abstract

The present invention relates to a sewage pipe penetration device. According to the present invention, the sewage pipe penetration device comprises: a piston consisting of a handle, a rod, and a gasket; a cylinder; and an opening/closing control means provided at a lower portion of the cylinder, wherein the opening/closing control means consists of an opening/closing control tool, an upper diaphragm, and a lower diaphragm. According to the present invention, penetration performance can be increased.

Description

Sewer pipe penetration device {Flush doors door hinge}

The present invention relates to a sewage pipe penetration mechanism for penetrating a sewage pipe when a sewage pipe is clogged by various dirts including hair or foreign matter, and more particularly, by introducing water and allowing it to be discharged while generating a vortex at high pressure. It relates to a sewage pipe penetration mechanism that is easy to use and can guarantee excellent penetration performance.

In general, water from a toilet, sink, sink, etc. is used, and when used, contaminated wastewater is discharged to the outside through pipes. In the case of a sink and a sink, the pipe is connected to a sewage pipe that sends sewage to a sewage treatment facility, and in the case of a toilet, it is connected to a septic tank buried to store filth and is provided to discharge various kinds of sewage and waste.

Such a pipe is not connected by a straight pipe in order to prevent the odor generated from the connected sewage pipe and the septic tank from flowing backward, but is provided in a U-shaped or S-shaped trap structure. Such a trap structure pipe can prevent the reverse flow of odor, but it has a curved shape, so if the amount of dirt flowing into the pipe is greater than the amount passing through the curved pipe, or if it is deposited at the curved position due to continuous use, A clogging phenomenon occurs.

In this way, if the pipe is clogged, it cannot be used, and as the clogged dirt flows back and contaminates the surrounding area, it must undergo a treatment process to remove the clogging of the pipe.

In a typical pipe clogging treatment device, if a hemispherical compression body made of rubber is installed on a rod and the user presses the compressed body while holding the rod, water and air inside the compressed body flow in and pressurize the blocked part of the pipe. By discharging to a sewage pipe or a septic tank, a treatment to remove clogging was performed.

However, in a typical pipe clogging treatment apparatus, the pressure applied only by pressing the clogged portion of the pipe with the pressure generated by the deformation of the compressed body is weak, so that the clogging treatment efficiency is lowered. There was a problem that the processing time could be lengthened.

Accordingly, in recent years, a technology for treating clogging by using the principle of a cylinder and a piston has been developed and used. Such a pipe clogging treatment apparatus of the prior art is provided to remove the clogging of the pipe by the pressure applied by suction and compression by operating the piston in the cylinder while maintaining the closed state at the inlet of the pipe.

However, in the conventional pipe clogging removal device, if suction is performed in close contact with the inlet of the clogged pipe, the internal pressure increases and a lot of power is required. There was a problem that it was introduced and contaminated the interior.

In order to solve this problem, the applicant has proposed an improved'pipe clogging removal device' through Korean Patent No. 10-1719239, and in claim 12,'clogging in the inlet through which sewage is discharged when the pipe is clogged. In the pipe clogging treatment apparatus installed to provide a compressive force to remove,

A compression body in the form of a cylinder located above the inlet and generating a compression force when the pipe is clogged; A contact portion disposed at the lower end of the compression body portion and being in close contact with the outer circumference of the inlet when the pipe is blocked to maintain a sealed state when a compressive force is applied; A piston-shaped pressurizing portion disposed to pass through the upper portion from the inside of the compression body portion to pressurize to generate a compression force while moving up and down in a state held by a user; It is disposed on one side of the contact unit, and when the pressurization unit moves upward, one side of the contact unit is opened to allow external compressed water to flow in, and when the pressurization unit moves downward, the compressed water introduced into the inlet is pressurized. A compressed water inlet portion in which the open portion is closed to remove clogging; And disposed inside the contact portion, located at the inner center of the contact portion, and blocks the contact portion when the compressed water flows into the compressed water inlet by the operation of the pressurization unit, and when pressing the pressurization unit A pipe clogging treatment apparatus including; a body blocking portion installed to open and supply compressed water to the inlet.' is disclosed.

However, the pipe clogging treatment apparatus according to the prior art has an inconvenient problem for use by housewives or the elderly because it is a method in which the user must press the pressurizing unit with a strong force to discharge compressed water at high pressure.

In addition, the pipe clogging treatment apparatus according to the prior art has a disadvantage in that it is inconvenient to use because the structure of the body blocking portion is complex and the amount of compressed water passing through it is rapidly reduced. There was a problem in that the flow rate was lowered while passing through a pipe having a pipe, and as a result, the penetration efficiency for foreign matter or dirt blocking the pipe was lowered.

As another prior art, a'compression device for piercing a toilet drain' has been proposed through Korean Patent Registration No. 10-1370686, and claim 1 includes a'compression member 200 (200a) and a water compression unit 400 In the compression device for drilling a toilet drain with a water control unit 100 therebetween, it is fastened to the first through-hole 130 formed through the through space 120 through which the piston 420 enters and exits to control water A water compression unit 400 that compresses the water W1 introduced into the cylinder 410 through the valve 160; The water discharge port 150 through which the water W1 compressed by the cylinder 410 is discharged through the downward direction of the through space 120 facing the piston 420 provided in the water compression part 400 And water provided with a water control valve 160 for controlling the inflow and outflow of the water W1 by being fastened to the second through-hole 140 formed penetrating through the through-space part 120 Control unit 100; A compression device for piercing a toilet drain is disclosed.

The compression device for piercing the toilet drain according to the prior art comprises a water control unit for controlling the inflow and outflow of water between the compression member and the water compression unit to discharge water to the drain of a clogged toilet. It is difficult to manufacture economically due to the complexity of the water, and there is a disadvantage that the user must press quickly and with strong force to increase the discharge pressure of water, so it is not suitable for use by housewives or the elderly, and the discharged water is discharged in the form of direct water. As a result, there is a problem in that the penetration efficiency decreases as the pressure decreases while flowing along a pipe having a curvature.

Registered Patent Publication No. 10-1719239 (2017.03.17),'Pipe clogging removal device' Registered Patent Publication No. 10-1370686 (2014.02.27.),'Compression device for drilling toilet drain' Registered Patent Publication No. 10-1370686 (2014.02.27.),'Compression device for drilling toilet drain'

The present invention was created to solve the problems of the prior art as described above, and an object of the present invention is to allow the introduced water to be discharged while generating a eddy current, and to supply water at high pressure by an elastic support force by a pressure spring. Its purpose is to provide a sewage pipe penetration mechanism that can be discharged so that it acts on a part where the pipe is blocked without loss of discharge pressure, so as to ensure excellent penetration performance, and to increase the convenience of use and reliability of the product.

The objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

The sewage pipe penetration mechanism according to a preferred embodiment of the present invention for realizing the above object includes a piston made of a handle, a rod, and a gasket, and an inlet pipe provided at a lower side when the piston is raised by receiving an elevation operation from a user. In the sewage pipe through-hole consisting of a cylinder that sucks water through and discharges water through a lower discharge pipe when descending, and an opening/closing control means provided in the lower part of the cylinder and interlocking with the lifting motion of the piston to regulate the opening and closing of the discharge pipe. In the above, the opening/closing control means is a spherical opening/closing regulator that moves up and down in association with the lifting operation of the piston, and the opening/closing regulator is disposed on the upper side with the opening/closing regulator interposed therebetween to limit the movement of the opening and closing regulator. And an upper diaphragm having a through hole selectively shielded by the opening and a lower diaphragm disposed below the opening/closing regulator to restrict its movement and allowing water to be discharged; and the inlet pipe is at the inlet side through which water is introduced. It is hinged to and is provided to be rotatable, and is provided with an inlet interceptor plate which rotates by suction pressure acting when the piston rises to open the pipe, and when the suction pressure is released, it is returned by its own weight to block the pipe;, The discharge pipe is characterized in that it is composed of a straight pipe portion connected to the lower portion of the cylinder in a straight pipe and an inclined pipe portion connected to have an inclination of 3 to 30 degrees with respect to the straight pipe portion.

The sewage pipe penetration mechanism according to another preferred embodiment of the present invention is a piston made up of a handle, a rod, and a gasket, and when the piston is raised, water is sucked through an inlet pipe provided on one side of the lower side when the piston is raised and lowered. In the sewage pipe penetration mechanism comprising a cylinder for discharging water through a lower discharge pipe and an opening/closing control means provided at a lower portion of the cylinder to regulate opening and closing of the discharge pipe in connection with the lifting motion of the piston, the discharge pipe It is a corrugated discharge pipe that is connected to the lower part of the cylinder and is capable of contracting and contracting in a vertical direction and displaceable in a horizontal direction; The opening and closing control means is the discharge pipe to move up and down in association with the lifting motion of the piston. The sphere-shaped opening/closing regulator located inside of the cylinder and the opening and closing regulator are disposed on the upper side with the opening and closing regulator interposed therebetween. An upper diaphragm having a hole formed therein and a lower diaphragm provided at the lower portion of the discharge pipe to allow water to be discharged while limiting the movement of the opening/closing regulator; and the inlet pipe is hinged to the inlet side through which water flows. It is characterized in that it is provided to be rotatable and rotated by the suction pressure acting when the piston rises to open the pipe, and when the suction pressure is released, an inlet control plate is provided to block the pipe by returning by its own weight. .

The sewage pipe penetration mechanism according to another preferred embodiment of the present invention is a piston made of a handle, a rod, and a gasket, and when the piston is raised, water is sucked through an inlet pipe provided on one side of the lower portion and descended by receiving an elevation operation from the user. In the sewage pipe penetration mechanism comprising a cylinder for discharging water through a lower discharge pipe and an opening/closing control means provided in the lower part of the cylinder and interlocking with the lifting motion of the piston to regulate opening and closing of the discharge pipe, the discharge pipe It is a high-pressure discharge pipe connected in a straight pipe from the bottom of the cylinder, and the inner diameter thereof is reduced while proceeding downward to form an inclined surface to increase the water outlet pressure; and the opening/closing control means is a connection of the inlet pipe connected to the side of the cylinder. It is provided at a position lower than the position to selectively open and close the pipe.It is a pair of plate elements provided symmetrically to the left and right, and each end is hinged to the inner surface of the cylinder and provided to regulate and rotate downward in a horizontal state. When the piston is lowered, the pair of rotating diaphragms and the pair of rotating diaphragms are rotated downward by the water outlet pressure to open the pipeline, and when the outlet water pressure is released, an elastic force is applied to return to the horizontal position to close the pipeline. It is composed of a rotation spring and a stopper protruding from one side of the inner surface of the cylinder to support a part of the upper surface of the rotational diaphragm to regulate the rotation in the upward direction; the inlet pipe is hinged to the inlet side through which water flows into It is provided to be rotatable, and is provided with an inlet interceptor plate that rotates by the suction pressure acting when the piston rises to open the pipe, and when the suction pressure is released, it returns by its own weight to block the pipe.

As a feature of the present invention, the cylinder is provided with a coil-type pressure spring in the upper space of the gasket to act as an elastic support force when the piston descends.

As another feature of the present invention, a soft contact pipe having flexibility is connected to the lower portion of the discharge pipe so as to be in close contact with the sewer pipe; The cylinder is formed in a spiral shape on the inner surface to be configured to include a vortex generating groove for inducing a vortex when the water is discharged.

The sewage pipe penetration mechanism according to the present invention can discharge water inside the cylinder at high pressure as the elastic support force by the pressure spring acts simultaneously with the force that the user presses the piston, thereby increasing the penetration efficiency for the clogged pipe. A useful effect is expected.

In addition, in the present invention, since the water discharged at high pressure flows along the pipe while generating a eddy current, as a result, it is possible to reduce the pressure loss due to frictional resistance generated in the process of flowing inside the pipe having a curvature. Penetrability can be improved.

In addition, the simple structure enables economical manufacturing and dissemination, as compared to the conventional technology previously filed by the present applicant, it is possible to reduce the flow resistance generated in the process of water discharged at high pressure in the compression cylinder, thereby increasing the amount of water passing through. While water can be discharged at high pressure, the penetration performance for clogged pipes can be improved, so the advantage of improving the customer's satisfaction with the product is expected.

Features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be interpreted in a conventional and dictionary meaning, and the inventor may appropriately define the concept of the term in order to describe his or her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

1 and 2 are perspective views showing a sewage pipe penetration mechanism according to the present invention,
Figure 3 is an exploded perspective view showing a sewage pipe penetration mechanism according to the present invention,
4 is a cross-sectional view showing the internal configuration of FIG. 1;
5 and 6 are cross-sectional views for explaining the operation configuration of FIG. 4;
7 and 8 are cross-sectional views showing a sewage pipe through-hole according to another embodiment of the present invention;
9 is a cross-sectional view showing a sewage pipe through-hole according to another embodiment of the present invention,
10 and 11 are a cross-sectional view of an excerpt of a main part of a sewage pipe through-hole according to another embodiment of the present invention,
12 is a cross-sectional view of a main part showing a modified embodiment of the cylinder in the sewage pipe through-hole according to the present invention.

Hereinafter, a configuration and operation of an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, it is not intended to limit the present invention to a specific disclosed form, and it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

In the present application, terms such as "comprise" or "have" are intended to designate the existence of features, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features, steps, and actions It is to be understood that the possibility of the presence or addition of, components, parts, or combinations thereof is not preliminarily excluded. That is, throughout the specification, when a certain part "includes" a certain constituent element, it means that other constituent elements may be further included instead of excluding other constituent elements unless otherwise stated.

In addition, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. Does not.

Here, repeated descriptions, well-known functions that may unnecessarily obscure the subject matter of the present invention, and detailed descriptions of configurations are omitted in order not to obscure the subject matter of the present invention. Embodiments of the present invention are provided to more completely explain the present invention to those with average knowledge in the art. Accordingly, the shapes and sizes of elements in the drawings may be exaggerated for clearer explanation.

1 and 2 are perspective views showing a sewage pipe through-hole according to the present invention.

In the drawings, a handle 21 that is intended to be held by the user by hand, a rod 22 having a rod shape extending vertically from the lower side of the handle 21, and the rod 22 are provided at the end of the rod 22. A piston 20 consisting of a gasket 23, which is a packing 13 element having an expanded diameter with respect to the rod 22, and a hollow tubular shape so that a part of the piston 20 can be accommodated therein. The body 11 and the upper cover 11a formed with a hole capable of passing the rod 22 as covering the upper portion of the body 11 and the direction inclined downward to the lower side of the body 11 The cylinder 10 is provided with an inlet pipe 12 which is a conduit protruding into and sucks water, and a discharge pipe 15 provided at the lower portion of the body 11 and for discharging the water flowing into the body 11 ) Made of a sewage pipe through hole (1) is shown.

3 is an exploded perspective view showing a sewage pipe penetration mechanism according to the present invention.

In the drawing, the upper and lower surfaces are formed to form an outer body and cover the upper surface of the cylindrical body 11 and the upper surface of the body 11, and an upper cover through which a hole is penetrated so that the rod 22, which will be described later, can enter and exit. 11a) and a cylinder 10 consisting of an inlet pipe 12 protruding downwardly obliquely on one side of the lower portion of the body 11 and a discharge pipe 15 connected to the lower side, and the inner wall surface being located inside the cylinder 10 A piston 20 consisting of a gasket 23 in close contact with the gasket 23 and a rod 22 connected to the gasket 23, and a handle 21 provided on the upper portion of the rod 22 to receive a lifting operation from a user, The upper and lower diaphragms 16 and 18 and the upper and lower diaphragms 16 and 18 for opening and closing the pipe of the discharge pipe 15 in connection with the lifting operation of the discharge pipe 15 and the piston 20 provided at the lower part of the cylinder 10 There is shown a sewage pipe through-hole 1 configured including an opening and closing control means made of a sphere 17.

4 is a cross-sectional view showing the internal configuration of FIG. 1.

In the drawing, the inlet pipe 12 and the inlet pipe 12 protrude downwardly inclined to the lower one side of the body 11 and the inlet pipe 12 for introducing water from the outside. The inlet control plate 12a provided on the inlet side and selectively opened and closed, and connected to the lower portion of the body 11 so as to have an inclination of 3 to 30 degrees, which is a water outlet pipe through which the water filled in the body 11 is discharged. A cylinder 10 made of a tube 15, a piston 20 provided inside the cylinder 10 to inflow and discharge water into the body 11 by a lifting operation, and the cylinder 10 There is shown a sewage pipe penetration hole 1 consisting of an opening/closing and intermittent means for blocking the pipeline when the piston 20 rises and opening the pipeline when descending.

5 shows a state in which the user pulls the piston upward in the sewage pipe penetration mechanism according to an embodiment of the present invention, and FIG. 6 shows a state in which the user pushes the piston downward in the state of FIG. 5.

5 shows that when the piston 20 is moved upward, the discharge pipe 15 moves the opening/closing regulator 17 upward to shield the upper diaphragm 16, and the inlet pipe 12 acts inside the cylinder 10. It shows that the inlet interceptor plate 12a rotates in the direction of opening the inlet pipe 12 by the suction pressure, and as a result, water is introduced from the outside.

6 is a lower diaphragm in the form of a mesh network when the piston 20 is moved downward in the state as shown in FIG. 5, the opening/closing regulator 17 moves downward by the pressure applied to the piston 20. 18), the water is discharged through the discharge pipe 15, and the inflow control plate 12a is positioned by its own weight since the suction pressure acting inside the cylinder 10 is removed. It shows a configuration that is returned to form a state in which the inlet pipe 12 is blocked.

7 and 8 are cross-sectional views showing a sewage pipe through-hole according to another embodiment of the present invention.

The sewage pipe penetration hole according to the present embodiment is substantially the same as the sewage pipe penetration hole 1 shown in FIGS. 3 to 6 described above. However, the sewage pipe penetration hole 1 in this embodiment is a pressure spring for assisting the water outlet pressure of water by acting an elastic support force when the piston 20 descends inside the cylinder 10. ) Is added as its technical feature.

The pressure spring (s) is located in the upper space of the body 11 of the cylinder 10 with respect to the gasket 23 of the piston 20 and is compressed when the piston 20 moves upward, and is elastic when it descends. It is a configuration provided to elastically support the gasket 23 in the downward direction by the restoring force.

,

9 is a cross-sectional view showing a sewage pipe through-hole according to another embodiment of the present invention.

The sewage pipe penetration hole according to the present embodiment is substantially the same as that of the previously described embodiment, but in configuring the discharge pipe 15 provided in the lower portion of the cylinder 10, the discharge pipe 15 is It is shown that it is a corrugated discharge pipe 15", which is a corrugated pipe capable of stretching and contracting in the vertical direction and capable of a predetermined angle displacement in the horizontal direction.

10 and 11 are cross-sectional views of a main part of a sewage pipe penetration mechanism according to another embodiment of the present invention.

The drawing shows another embodiment of the opening/closing control means for controlling the opening and closing of the discharge pipe 15 of the cylinder 10, and unlike the embodiments shown in FIGS. 3 to 6 above, the opening/closing regulator 17 is not used. A pair of rotating diaphragms 31, a hinge 33 supporting the rotating diaphragm 31 so as to be rotatable, and a stopper 32 regulating the position of the rotating diaphragm 31 to form a horizontal state. Opening and closing control means 30 made of a rotating spring 34 for returning the position is shown.

12 is a cross-sectional view of a main part showing a modified example of a cylinder in a sewage pipe through-hole according to the present invention.

In the drawing, the main part of the cylinder 10 having a vortex generating groove 14 for inducing a vortex when water is discharged by forming a spiral groove on the inner surface of the body 11 is shown.

The sewage pipe penetration mechanism according to the present invention will be described with reference to the drawings above.

The sewage pipe through-hole of the present invention is provided in the cylinder 10, which largely forms an outer body, a piston 20 for inflowing and outflowing water by adjusting the internal volume of the cylinder 10, and the cylinder 10 It consists of elements to regulate the inflow and outflow of water.

The cylinder 10 includes a body 11 with open top and bottom surfaces, an inlet pipe 12 provided on a lower side of the body 11 and a pipe for introducing water, and a lower portion of the body 11 It is provided with a discharge pipe 15, which is a water discharge pipe through which water is discharged.

The body 11 has a cylindrical shape with open upper and lower surfaces, and an upper cover 11a is assembled and shielded on the open upper surface. At this time, the upper cover 11a has a hole formed in the center so that the rod 22 constituting the piston 20 to be described later can pass through the slide, and the packing 24 is coupled and fixed in the hole. ) Is provided to increase the adhesion to.

The inlet pipe 12 is a pipe that protrudes downwardly inclined to a lower side of the body 11 and is a conduit element for introducing water into the interior of the body 11. The inlet pipe 12 is provided with an inlet interceptor plate 12a for controlling the opening and closing of the conduit at the inlet port ip through which water is introduced. This inflow interception plate (12a) is provided with an upper end hinged to the inner surface of the inlet pipe (12) to be rotatable based on the drawing, and is rotated downward by its own weight to naturally shield the inlet (ip). When the suction pressure is applied to the inside of the body 11, the inlet control plate 12a is rotated upward by the suction pressure to open the inlet ip. On the other hand, although not shown, the inflow interceptor plate 12a may be elastically supported using a spring so that it rotates in the direction of shielding the inlet port ip.

The inlet pipe 12 of this configuration opens the inlet pipe 12 by the suction pressure acting on the inside of the body 11 when the piston 20 moves upward, and is returned by its own weight when the suction pressure is released. The inlet pipe 12 is blocked.

On the other hand, in order to lift and lower the piston 20 in a state in which the sewage pipe penetration hole of the present invention is accurately in close contact with the drain port, as the drain port is formed in the lateral direction, the discharge pipe ( It is preferable that 15) be connected at a predetermined angle. To this end, the discharge pipe 15 in the present invention includes a straight pipe part 15a connected to the lower part of the cylinder 10 in a straight pipe, and an inclined pipe part connected to have an inclination angle of 3 to 30 degrees with respect to the straight pipe part 15a. It is composed of (15b), and the lower portion of the discharge pipe 15 is preferably provided with a contact pipe 19 made of a flexible urethane material or rubber material so as to be in close contact with the drain hole.

On the other hand, the discharge pipe 15 in the present invention is a corrugated discharge pipe 15", which is a corrugated pipe commonly referred to as a bellows tube, which can be newly contracted in a vertical direction and displaced in a horizontal direction as shown in FIG. 9 This corrugated discharge pipe (15") is a pipe formed of a synthetic resin material to be folded at equal intervals, and may be implemented by a known technique, so a detailed description thereof will be omitted.

The piston 20 is an element that is raised and lowered from the inside of the cylinder 10 by receiving an elevation operation from a user, and is an element for sucking water into the interior of the body 11 when moving upward and discharging the water introduced to the outside when lowering. , It consists of a handle (21) and rod (22), gasket (23) and packing (24).

The handle 21 is provided so that the user can hold it with a sense of stability by hand, and may be provided with irregularities for preventing slipping or a friction pad made of urethane or silicone.

The rod 22 is a pillar member extending in a direction perpendicular to the lower portion of the handle 21.

The gasket 23 is provided at the end of the rod 22 in an expanded diameter, and is a rubber material or urethane that is raised and lowered in close contact with the inner wall surface of the body 11 constituting the cylinder 10. It is molded into ash.

The packing 24 is assembled and fixed in a hole formed in the center of the upper cover 11a covering the open upper surface of the cylinder 10, and slides can be moved in close contact with the outer surface of the rod 22 It is a watertight element that supports it.

If the piston 20 of this configuration can be raised or lowered inside the body 11 of the cylinder 10 by receiving an elevation operation from a user, its shape or size may be appropriately changed.

The opening/closing control means is arranged on the upper side with the spherical opening/closing control mechanism 17 which is moved up and down in association with the lifting motion of the piston 20, and the opening/closing control means 17 interposed therebetween to regulate its movement. While in the center, the upper diaphragm 16 having a through hole (unsigned) selectively shielded by the opening/closing regulator 17 is formed, and it is disposed under the opening/closing regulator 17 to prevent the water from being separated from the outside. It consists of a mesh net or a lower diaphragm 18 in which a plurality of water-through holes are formed so that water can be discharged.

Styrofoam or plastic spheres of light weight are used as the opening/closing regulator 17, and when suction pressure acts inside the body 11 constituting the cylinder 10 by the upward movement of the piston 20, the The opening/closing regulator 17 moves upward and blocks the through hole of the upper diaphragm 16 to prevent water from flowing through the discharge pipe 15, and when the piston 20 moves downward, the cylinder ( 10) The opening/closing regulator 17 is moved downward by the pressure acting on the water filled in the interior of the opening/closing regulator 17, and at this time, the lower diaphragm 18 is provided under the opening/closing regulator 17 to regulate the positional movement. Water is discharged through the discharge pipe 15 as provided in the form.

As shown in the drawing, the upper diaphragm 16 has a through hole formed in the center while the center portion is convexly protruded upward, and the opening/closing regulator 17 moves upward to shield the through hole. The upper diaphragm 16 is preferably formed of a material having flexibility such as a rubber material or a urethane material, and the rim portion thereof is rigidly coupled and fixed to the inner surface of the discharge port 7.

The lower diaphragm 18 is fixedly coupled to the inside of the discharge pipe 15 and a plurality of water through holes is formed or provided in the form of a mesh network to allow water to pass through and the opening/closing regulator 17 to limit movement. It is equipped.

On the other hand, the present invention configured as described above may be configured to increase the water outlet pressure of water by assisting the pressing force when the user presses the piston 20, and for this purpose, the present invention is as shown in FIGS. 7 and 8 It is proposed a configuration in which the pressure spring (s) is installed.

The pressure spring (s) is a coil spring provided in the upper space of the body 11 constituting the cylinder 10 based on the gasket 23 of the piston 20, and when the piston 20 moves upward As shown in Fig. 8, it is compressed as shown in Fig. 8, and when the piston 20 is lowered, as shown in Fig. 7, as it is increased by the elastic restoring force, the piston 20 containing the gasket 23 is moved downward. It is elastically supported.

Therefore, in order to discharge the water filled in the cylinder 10 at high pressure, the piston 20 must be pressed with a strong force. The pressure spring s strengthens the water by assisting the force that the user presses the piston 20. It is possible to be able to discharge.

Meanwhile, the cylinder 10 is formed in a spiral shape on the inner surface of the body 11 constituting the cylinder 10 as shown in FIG. 12 to induce the generation of vortex when the water is discharged. This can be further formed.

This vortex generation groove 14 is when the piston 20 in the upwardly-moved state is moved downward with respect to the cylinder 10 filled with water, the water discharged through the discharge pipe 15 is Since it flows along the vortex generating groove 14 formed on the inner surface, a vortex is generated as a result, and the water having such a vortex flow can reduce pressure loss due to frictional resistance generated in the process of flowing inside the pipe having a curvature. It is possible to increase the penetrability for clogged pipes.

On the other hand, in the present invention, it is possible to open/close using a pair of rotating diaphragms 31 without using the opening/closing regulator 17 shown in the previous embodiment in configuring the opening/closing control means.

To this end, looking at the opening/closing control means 30 according to the present embodiment with reference to the accompanying drawings FIGS. 10 and 11, this implementation at a lower position with respect to the connection position of the inlet pipe 12 connected to the side of the cylinder 10 The opening/closing control means of the example is positioned and configured to selectively open and close the pipeline.

The opening/closing and intermittent means 30 is a pair of plate elements provided symmetrically to the left and right, and each end is coupled to the inner surface of the cylinder 10 by a hinge 33 so that it can be regulated and rotated downward in a horizontal state. When the provided pair of rotating diaphragms 31 and the piston 20 are lowered, the pair of rotating diaphragms 31 rotate downward by the water outlet pressure to open the pipeline and release the water outlet pressure. A rotation spring 34 that acts on an elastic restoring force to return to a horizontal position to shield the pipeline, and protrudes from one side of the inner surface of the cylinder 10 to contact and support a portion of the upper surface of each of the rotation diaphragms 31 in an upward direction. It is composed of a stopper (32) that regulates rotation to.

On the other hand, the discharge pipe in this embodiment is connected in a straight pipe from the bottom of the cylinder 10, but the inner diameter of the high pressure discharge pipe 15 ′ formed with an inclined surface to increase the water discharge pressure by decreasing the diameter while proceeding downward. ) Is suggested to be used.

When the piston 20 is moved upwardly, water flows into the cylinder 10 from the outside through the inlet pipe 12, and when the piston 20 is moved downward, the piston 20 As the volume of the body 11 of the cylinder 10 filled with water is reduced by the gasket 23 of ), water is discharged at high pressure through the high pressure discharge pipe 15'.

At this time, when the piston 20 moves upward, the pair of rotation diaphragms 31 are in a state in which the pipeline is blocked by maintaining a horizontal state by the elastic support force of the rotation spring 34, and the piston 20 During the downward movement of the cylinder 10, the pair of rotating diaphragms 31 are rotated downward by the water outlet pressure in the cylinder 10 to open the pipeline, and after the discharge of water is completed, the elasticity of the rotating spring 34 The position is returned by the holding force.

In the above, embodiments of the present invention have been described with reference to the accompanying drawings, but for those of ordinary skill in the art to which the present invention pertains, the present invention changes various application sites without changing the technical spirit or essential features. It will be understood that it may be modified and modified or implemented in a specific form. Therefore, the embodiments described above are illustrative in all respects and should be understood as non-limiting, and belong to the claims of the present invention.

1: sewage pipe penetration mechanism 10: cylinder
11: body 12: inlet pipe
13: inflow control plate 14: vortex generation groove
15: discharge pipe 15": wrinkle discharge pipe
16: upper diaphragm 17: opening and closing intercept
18: lower diaphragm 19: contact tube
20: piston 21: handle
22: rod 23: gasket
30: open/close control means s: pressurized spring

Claims (5)

A piston consisting of a handle, a rod, and a gasket as being operated by the user, and a cylinder that sucks water through an inlet pipe provided at one side of the lower side when the piston is raised, and discharges water through a discharge pipe at the lower side when the piston is lowered. In the sewage pipe penetrating mechanism provided at the lower part of the pipe and comprising an opening/closing control means for interlocking the opening and closing of the discharge pipe in connection with the lifting operation of the piston,
The opening/closing control means is a spherical opening/closing regulator that moves up and down in conjunction with the lifting motion of the piston, and is disposed on the upper side with the opening/closing regulator interposed therebetween, restricting its movement, and selectively by the opening/closing regulator at the center. It is composed of an upper diaphragm having a through-hole shielded by the upper diaphragm and a lower diaphragm provided to allow water to be discharged while restricting its movement by being disposed under the opening/closing regulator;,
The inlet pipe is hinged and rotatably provided at the inlet side of the water inlet. It is rotated by the suction pressure acting when the piston is raised to open the pipe, and when the suction pressure is released, the pipe is returned by its own weight. Inflow interception plate is provided to block the;,
The discharge pipe is a sewage pipe penetration mechanism, characterized in that consisting of a straight pipe portion connected to the lower portion of the cylinder in a straight pipe and an inclined pipe portion connected to have an inclination of 3 to 30 degrees with respect to the straight pipe portion.
A piston consisting of a handle, a rod, and a gasket as being operated by the user, and a cylinder that sucks water through an inlet pipe provided at one side of the lower side when the piston is raised, and discharges water through a discharge pipe at the lower side when the piston is lowered. In the sewage pipe penetrating mechanism provided at the lower part of the pipe and comprising an opening/closing control means for interlocking the opening and closing of the discharge pipe in connection with the lifting operation of the piston,
The discharge pipe is a corrugated discharge pipe that is connected to the lower part of the cylinder and is capable of contracting and contracting in a vertical direction and displaceable in a horizontal direction; and
The opening/closing control means is moved up and down in association with the lifting operation of the piston, and is disposed on the upper side with the spherical opening/closing regulator positioned inside the discharge pipe and the opening/closing regulator interposed therebetween. The upper diaphragm is provided with a through-hole selectively shielded by the opening/closing regulator in the center while restricting the movement of the opening/closing regulator and is provided under the discharge pipe so that water can be discharged while restricting the movement of the opening/closing regulator. It consists of a lower diaphragm provided;,
The inlet pipe is hinged and rotatably provided at the inlet side of the water inlet. It is rotated by the suction pressure acting when the piston is raised to open the pipe, and when the suction pressure is released, the pipe is returned by its own weight. Inlet interception plate to block the; Sewer pipe penetration hole, characterized in that configured including that provided.
A piston consisting of a handle, a rod, and a gasket as being operated by the user, and a cylinder that sucks water through an inlet pipe provided at one side of the lower side when the piston is raised, and discharges water through a discharge pipe at the lower side when the piston is lowered. In the sewage pipe penetrating mechanism provided at the lower part of the pipe and comprising an opening/closing control means for interlocking the opening and closing of the discharge pipe in connection with the lifting operation of the piston,
The discharge pipe is a high-pressure discharge pipe that is connected in a straight pipe from the bottom of the cylinder, and the inner diameter thereof is lowered while forming an inclined surface to increase the water discharge pressure;
The opening/closing control means is provided at a position lower than the connection position of the inlet pipe connected to the side of the cylinder to selectively open and close the pipe, and is a pair of plate elements provided symmetrically to the left and right, each end being an inner surface of the cylinder A pair of rotating diaphragms that are hinged to and provided to regulate downward rotation in a horizontal state, and when the piston is lowered, the pair of rotating diaphragms rotate downward by the water outlet pressure to open the pipeline and the outlet pressure is reduced. When released, it is composed of a rotation spring that acts on an elastic force to return to a horizontal position to shield the pipeline, and a stopper that protrudes from one side of the inner surface of the cylinder to support a portion of the upper surface of the rotation diaphragm to regulate the rotation in the upward direction; ,
The inlet pipe is hinged and rotatably provided at the inlet side of the water inlet. It is rotated by the suction pressure acting when the piston is raised to open the pipe, and when the suction pressure is released, the pipe is returned by its own weight. Sewer pipe penetration mechanism, characterized in that provided with an inlet interception plate blocking the. The method according to any one of claims 1 or 2 or 3,
The cylinder is a sewage pipe penetration mechanism, characterized in that the coil-type pressure spring is provided in the upper space of the gasket to act as an elastic support force when the piston descends. The method according to any one of claims 1 or 2 or 3,
A soft contact pipe having flexibility is connected to the lower portion of the discharge pipe so as to be in close contact with the sewer pipe;
The cylinder is formed in a spiral shape on the inner surface of the vortex generation groove for inducing a vortex when the water is discharged; a sewage pipe penetration mechanism characterized in that it comprises a further.

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