阅读说明：本技术 疏通管结构 (Dredging pipe structure ) 是由 余木村 于 2018-07-06 设计创作，主要内容包括：本发明公开了一种疏通管结构,包括一长管,呈中空状,具有一纵向剖槽；一连接套管,连通并套设在长管的底端；以及一可调弯管,与连接套管连通,能随意地调整方向、弯度及角度。可调弯管系由相邻的量套接段的各自的漏斗部与半球部相互可活动地套接,以达到可根据不同标准的马桶的管路而调整其方向、弯度及角度等,适用于不同国家使用的标准,而无需以拆卸等方式更换不同弯度及角度的弯管,不但结构精简、拆装方便,而且更是易于操作使用。(The invention discloses a dredging pipe structure, which comprises a long pipe, a hollow pipe and a plurality of through holes, wherein the long pipe is provided with a longitudinal groove; the connecting sleeve is communicated with and sleeved at the bottom end of the long pipe; and an adjustable bent pipe which is communicated with the connecting sleeve and can freely adjust the direction, the bending degree and the angle. The adjustable elbow pipe system is movably sleeved with the hemispherical part and the respective funnel part of the adjacent measuring sleeved sections, so that the direction, the bending degree, the angle and the like of the adjustable elbow pipe system can be adjusted according to pipelines of toilets with different standards.)

1. Dredge tubular construction, its characterized in that includes:

a long tube, which is hollow and has a longitudinal groove;

a connecting sleeve which is communicated with and sleeved at the bottom end of the long pipe; and

an adjustable bent pipe is communicated with the connecting sleeve and can be used for freely adjusting the direction, the bending degree and the angle.

2. A ventilation tube structure as claimed in claim 1, wherein the connection sleeve has a cylindrical portion, a longitudinal rib, an outer convex arc portion and an inner annular groove, the bottom end of the cylindrical portion is connected to the outer convex arc portion, the inner annular groove is annularly disposed in the cylindrical portion and adjacent to the outer convex arc portion, the longitudinal rib is disposed in the cylindrical portion and extends from the top end of the cylindrical portion to the connection between the cylindrical portion and the outer convex arc portion, the longitudinal rib is disposed corresponding to the longitudinal groove of the long tube to position the long tube, the bottom end of the long tube is inserted into the inner annular groove and is tightly fixed in the inner annular groove, and the top end of the adjustable elbow is connected to and connected to the outer convex arc portion.

3. A ventilation pipe structure as claimed in claim 2, wherein the adjustable elbow is formed by a plurality of sleeved sections, and the bottom end of the adjustable elbow has a conical section.

4. The dredging pipe structure of claim 3, wherein each of the coupling sections has a funnel portion and a hemispherical portion which are communicated with each other, the funnel portion of the topmost coupling section is communicated with and coupled with the outer convex curved barrel portion, the adjacent coupling sections are movably coupled with the hemispherical portion via the respective funnel portions, a large diameter end of the conical pipe section is communicated with the hemispherical portion of the bottommost coupling section, and a small diameter end of the conical pipe section, which is far away from the large diameter end, is arranged toward a direction far away from the coupling section.

5. A dredging pipe structure as claimed in claim 1, further comprising a dredging bar, wherein the dredging bar is disposed inside the long pipe, the connecting sleeve and the adjustable bent pipe, and two ends of the dredging bar are respectively exposed outside the long pipe and the adjustable bent pipe.

6. The pull through pipe structure of claim 5 wherein the end of the pull through strip exposed outside the elongated tube is connected to an electric drill.

7. The pull through structure of claim 5, wherein the end of the pull through strip exposed outside the adjustable elbow is substantially in the shape of a curled ellipsoid.

8. A pull through tube structure as claimed in claim 5 wherein the pull through strip is a hollow helix formed by winding a metal wire.

9. The pull through tube structure of claim 5 wherein the outer diameter of the pull through strip is slightly less than the width of the longitudinal groove.

Technical Field

The invention belongs to the field of bathrooms and toilets, and particularly relates to a dredging pipe structure.

Background

Modern people use the toilet bowl every day, mainly use the impact force of water to flush the excrement out of the discharge pipeline of the toilet bowl, so as to maintain the cleanness of the toilet bowl. When the discharge pipe of the toilet is blocked due to toilet paper, excrement or other objects which are accidentally dropped, people use the toilet dredger to dredge the discharge pipe of the toilet.

At present, the traditional closestool dredger is mainly provided with a semicircular sucker body, a holding rod is assembled on the top surface of the semicircular sucker body, when the closestool dredger is used, the semicircular sucker body is aligned and covered on an excretion pipeline of a closestool, repeated force application is carried out by pressing and pulling the holding rod, so that the semicircular sucker body at the front end of the holding rod is stressed and restored, when the semicircular sucker body is pressed and restored, the water pressure in the excretion pipeline of the closestool covered by the semicircular sucker body is changed, and the effect of dredging foreign matters blocked in the excretion pipeline by means of extrusion is achieved.

However, in practical use, because the semicircular sucker body of the toilet dredger can not tightly cover the inlet of the toilet drainage pipeline, the tightness is poor, and therefore, when the semicircular sucker body extrudes water in the toilet drainage pipeline, the amount of pressure change caused by the semicircular sucker body is limited, so that the effect of dredging the toilet drainage pipeline is poor, not only is the dredging effect poor, but also the gas originally pushed and pressed downwards is sucked back upwards due to the action of up-and-down compression, so that the embarrassment of foul gas diffusion and malodor impatience is caused, and the trouble is increased in vain, namely the toilet dredger is used for dredging other parts in the home: the problems and disadvantages that have yet to be overcome are the clogged drain lines of bathroom drain holes, kitchen sink sinks, and the like.

Disclosure of Invention

The invention provides a dredging pipe structure, which utilizes a connecting sleeve with an inner ring groove and a longitudinal convex rib to connect a long pipe with a longitudinal groove so as to fix the long pipe and avoid the rotation of the long pipe during operation, and utilizes an outer convex arc barrel part of the connecting sleeve to connect an adjustable bent pipe, so that the direction of the adjustable bent pipe can be adjusted freely and movably; moreover, the adjustable elbow is movably sleeved with the hemispherical part and the respective funnel part of the two adjacent connecting sections, so that the direction, the bending degree, the angle and the like of the adjustable elbow can be adjusted according to pipelines of toilets with different standards.

The invention provides a dredging pipe structure, which comprises a long pipe, a hollow pipe and a plurality of through holes, wherein the long pipe is provided with a longitudinal groove; a connecting sleeve which is communicated with and sleeved at the bottom end of the long pipe; and an adjustable bent pipe which is communicated with the connecting sleeve and can freely adjust the direction, the bending degree and the angle.

In some embodiments, the connection sleeve has a cylindrical portion, a longitudinal rib, an outer convex arc portion and an inner ring groove, the bottom end of the cylindrical portion is communicated with the outer convex arc portion, the inner ring groove is annularly disposed in the cylindrical portion and adjacent to the outer convex arc portion, the longitudinal rib is disposed in the cylindrical portion and extends from the top end of the cylindrical portion to a connection position of the cylindrical portion and the outer convex arc portion, the longitudinal rib is disposed corresponding to the longitudinal groove of the long tube to position the long tube, the bottom end of the long tube is inserted into the inner ring groove and is tightly fixed in the inner ring groove, and the top end of the adjustable elbow is connected and communicated with the outer convex arc portion.

In some embodiments, the adjustable elbow is formed by sleeving a plurality of sleeving sections, and the bottom end of the adjustable elbow is provided with a conical section.

In some embodiments, each of the socket joint sections has a funnel portion and a hemispherical portion which are communicated with each other, the funnel portion of the socket joint section at the topmost end is communicated with and is in socket joint with the outer convex arc barrel portion, the adjacent socket joint sections are in socket joint with the respective funnel portion and the hemispherical portion movably, a large diameter end of the conical pipe section is communicated with the hemispherical portion of the socket joint section at the bottommost end, and a small diameter end of the conical pipe section, which is far away from the large diameter end, faces the direction far away from the socket joint section.

In some embodiments, the pipe joint further comprises a dredging strip disposed inside the long pipe, the connecting sleeve and the adjustable bent pipe, and two ends of the dredging strip are respectively exposed outside the long pipe and the adjustable bent pipe.

In some embodiments, the end of the pull through bar exposed out of the long tube is connected with an electric drill tool.

In some embodiments, the end of the pull through bar exposed outside the adjustable elbow is substantially in the shape of a curled ellipsoid.

In some embodiments, the dredging strip is a hollow helix formed by winding a metal wire.

In some embodiments, the outer diameter of the venting strip is less than the width of the longitudinal groove.

Drawings

Fig. 1 is an exploded view of the dredging pipe structure disclosed in the present invention.

Fig. 2 is a schematic perspective view of the dredging pipe structure disclosed in the present invention.

Fig. 3 is a partially enlarged schematic view of the dredging pipe structure disclosed in the present invention.

Fig. 4 is a schematic perspective cross-sectional view of a connection sleeve in the dredging pipe structure disclosed in the present invention.

Fig. 5 is an exploded view of the dredging pipe structure combined with the dredging strip disclosed in the present invention.

Fig. 6 is a schematic perspective view of the dredging pipe structure combined with the dredging strip disclosed by the invention.

Fig. 7 is a schematic view of a using state of the dredging pipe structure disclosed by the invention.

Wherein:

100-dredging pipe structure

1-long tube

11-longitudinal grooving

2-connecting sleeve

21-Cylinder part

22-longitudinal ribs

23-outer arc barrel part

24-inner ring groove

3-adjustable bent pipe

31-socket section

32-conical pipe section

321-large diameter end

322-minor diameter end

33-funnel part

34-hemisphere part

4-Dredging strip

5-electric drill tool

200-closestool

210-line

The specific implementation mode is as follows:

as shown in fig. 1 to 7, the dredging pipe structure 100 of the present invention comprises a long pipe 1, a connecting sleeve 2 and an adjustable bent pipe 3.

The long tube 1 is hollow and has a longitudinal slot 11.

The connecting sleeve 2 is communicated with and sleeved at the bottom end of the long pipe 1.

The adjustable elbow 3 is communicated with the connecting sleeve 2 and can adjust the direction, the bending degree and the angle at will.

As shown in fig. 4, the joint sleeve 2 has a cylindrical portion 21, a longitudinal rib 22, an outer convex arc cylindrical portion 23, and an inner annular groove 24, the bottom end of the cylindrical portion 21 communicates with the outer convex arc cylindrical portion 23, the inner annular groove 24 is annularly provided in the cylindrical portion 21 and is provided adjacent to the outer convex arc cylindrical portion 23, the longitudinal rib 22 is provided in the cylindrical portion 21 and extends from the top end of the cylindrical portion 21 to the joint of the cylindrical portion 21 and the outer convex arc cylindrical portion 23; thereby, the longitudinal ribs 22 are arranged corresponding to the longitudinal grooves 11 of the long pipe 1 to position the long pipe 1 so as to avoid the rotation of the long pipe 1 during operation; the bottom end of the long pipe 1 is inserted into the inner ring groove 24 and is tightly fixed in the inner ring groove 24, so that the long pipe 1 can be detachably fixed on the connecting sleeve 2; the top end of the adjustable bent pipe 3 is connected and communicated with the outer arc-shaped cylindrical part 23.

As shown in fig. 1 to 3, the adjustable elbow 3 is formed by mutually sleeving a plurality of sleeving sections 31, and the bottom end of the adjustable elbow 3 is provided with a conical section 32; each socket section 31 has a funnel part 33 and a hemispherical part 34 which are communicated with each other, the funnel part 33 of the topmost socket section 31 is communicated with and sleeved on the outer convex arc barrel part 23 of the connecting sleeve 2, the adjacent socket sections 31 are movably sleeved with the respective funnel part 33 and hemispherical part 34, a large diameter end (slightly funnel-shaped) 321 of the conical pipe section 32 is communicated with the hemispherical part 34 of the bottommost socket section 31, and a small diameter end 322 of the conical pipe section 32 far away from the large diameter end 321 is arranged towards the direction far away from the socket section 31.

Therefore, the direction, the bending degree and the angle of the adjustable bent pipe 3 can be freely adjusted by the two adjacent connecting sections 31 and the respective funnel parts 33 and the hemispherical parts 34 which are movably connected with each other.

As shown in fig. 5 and 6, the dredging pipe structure 100 of the present invention further includes a dredging bar 4 disposed inside the long pipe 1, the connecting sleeve 2 and the adjustable bent pipe 3, and two ends of the dredging bar 4 are respectively exposed outside the long pipe 1 and the adjustable bent pipe 3, and the dredging bar 4 is a hollow spiral shape formed by winding a metal wire, and the outer diameter of the dredging bar 4 is slightly smaller than the width of the longitudinal groove 11, so that the dredging bar 4 can be inserted from the longitudinal groove 11 or the dredging bar 4 can move at the longitudinal groove 11.

As shown in fig. 7, one end of the dredging strip 4 exposed out of the long tube 1 is connected with an electric drill tool 5; the end of the dredging strip 4 exposed out of the adjustable bent pipe 3 is approximately in a curled oval sphere shape.

As shown in fig. 7, when in use, the adjustable elbow 3 can be adjusted and inserted according to the bending degree and angle of the pipeline 210 of the toilet 200, so that the end of the dredging strip 4 in the shape of a curved ellipsoid extends into the depth of the pipeline 210 of the toilet 200, and the dredging strip 4 is driven by the electric drill tool 5 to rotate, so as to collect and remove the blockage in the depth of the pipeline 210.

By the structure, the long pipe 1 with the longitudinal groove 11 is connected by the connecting sleeve 2 with the inner ring groove 24 and the longitudinal convex rib 22 to fix the long pipe 1 and avoid the rotation of the long pipe 1 during operation, and the adjustable bent pipe 3 is connected by the outer convex arc cylinder part 23 of the connecting sleeve 2 so that the direction of the adjustable bent pipe 3 can be adjusted freely and movably; furthermore, the adjustable elbow 3 is movably sleeved with the respective funnel part 33 and the hemispherical part 34 of the two adjacent connecting sections 31, so as to adjust the direction, the curvature, the angle and the like of the pipeline 210 of the toilet 200 according to different standards, and the adjustable elbow is suitable for the standards used in different countries, and the elbow with different curvatures and angles does not need to be replaced in a dismounting way and the like, so that the adjustable elbow is simple in structure, convenient to dismount and mount, and easy to operate and use.

While the foregoing is directed to embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. Although the present invention has been explained with reference to preferred embodiments, it is not to be construed as being limited thereto. It should be noted that many other similar embodiments can be constructed by those skilled in the art according to the inventive concept, which are within the scope of the invention.