CN116817061A - Round water supply bridge pipe fitting - Google Patents

Abstract

The application discloses a circular water supply bridge pipe fitting, which relates to the field of pipeline installation and comprises two pipe fitting subunits, wherein each pipe fitting subunit comprises a main pipeline for water supply, a circular channel is arranged on the main pipeline and is used for increasing the water supply area and reducing the head loss, and the height of the circular channel is lower than that of the main pipeline and is used for being combined with the circular channel on the other main pipeline. Compared with the prior art, the circular pipeline is arranged on the main pipeline of the pipe fitting, so that the water passing area of the pipeline can be increased; under the condition of equal water flow, the local head loss of the pipe fitting is far smaller than that of the traditional bridge-crossing bent pipe fitting and the bridge-crossing four-way pipe fitting; the two main pipelines of the pipe fitting can be crossed at will in a certain angle in the plane direction, so that the pipe fitting has wider use scenes.

Description

Round water supply bridge pipe fitting

Technical Field

The application relates to the field of pipeline installation, in particular to a circular water supply gap bridge pipe fitting.

Background

In daily pipeline installation engineering projects, the cold water pipe and the hot water pipe are crossed frequently, and a bridge passing mode is adopted to solve the problem. There are two types of treatment methods currently used in the market: bridge bending and bridge crossing.

The processing mode of the bridge bending has the following defects: when the floor is laid, a leveling layer or a floor slab needs to be damaged, the water flow section of water flow is smaller, and local head loss exists.

The processing mode of the bridge four-way joint has the following defects: by comparing the bridge bending scheme, the water passing capacity of the bridge four-way joint can be increased, the ground is not required to be damaged when the ground is laid, but the water passing area of one pipeline is limited only by the water passing area of one semicircle, and the local water loss of the bridge four-way joint is large under the same flow.

At the same time, the two pipelines must be ensured to vertically intersect.

Disclosure of Invention

Aiming at the defects in the prior art, the application aims to provide a circular water supply bridge pipe fitting, which can solve the problems that the existing bridge pipe fitting can only vertically cross, can cause larger head loss and has limited water passage area.

The application provides a circular water supply bridge pipe fitting, which comprises: the two pipe fitting subunits comprise a main pipeline for water passing, the middle of one side surface of the main pipeline is recessed into the main pipeline, two sides of the recessed part extend outwards to form a circular channel in the middle of the main pipeline, and a circular cavity in the circular channel is communicated with the inside of the main pipeline; the circular channel of one pipe fitting subunit of the two pipe fitting subunits is opposite to the circular channel of the other pipe fitting subunit, and the two circular channels are fastened with each other.

In some embodiments, an opening is provided at the junction between the circular channel and the main conduit.

In some embodiments, the width of the circular channel is greater than the width of the main conduit.

In some embodiments, the circular channel has a height that is half the diameter of the main conduit.

In some embodiments, one side of the circular channel is flush with one side of the main pipeline, and a groove is surrounded between the other side of the circular channel and the main pipeline.

In some embodiments, the groove of one pipe subunit and the groove of the other pipe subunit are mutually clamped for combining the two pipe subunits.

In some embodiments, the pipe fitting sub unit can rotate around the center of the circular channel as a center point, so as to be used for adjusting the angle between the two pipe fitting sub units.

In some embodiments, the main pipe of one pipe subunit may be snapped into the main pipe of another pipe subunit for limiting a minimum angle between the two pipe subunits.

In some embodiments, the two grooves are connected by adhesion.

In some embodiments, the main conduit is a circular conduit.

Compared with the prior art, the application has the advantages that:

1. the circular pipeline is arranged on the main pipeline of the circular water supply bridge pipe fitting, so that the pipeline water passing area of the circular water supply bridge pipe fitting can be increased;

2. compared with the traditional bridge bending structure and bridge crossing structure, the circular water supply bridge pipe fitting provided by the application has large-volume circular management under the condition of equal water flow, so that the local head loss of the circular water supply bridge pipe fitting is far smaller than that of the traditional bridge bending structure and bridge crossing structure;

3. the two main pipelines of the circular water supply bridge pipe fitting provided by the application can be crossed at will in a certain angle in the plane direction, and are not limited to the vertical crossing angle, so that the circular water supply bridge pipe fitting has wider application scenes compared with the traditional bridge bending structure and bridge four-way structure.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a circular water supply bridge pipe fitting according to an embodiment of the present application;

FIG. 2 is a top view of a pipe fitting subunit of a circular water supply bridge pipe fitting according to an embodiment of the present application;

FIG. 3 is a side view of a tubular subunit of a circular water supply bridge tubular according to an embodiment of the present application;

FIG. 4 is a schematic view showing the rotatable angle of a circular water supply gap bridge pipe fitting according to an embodiment of the present application;

in the figure: 1-a main pipeline; 2-circular channels; 3-grooves.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The embodiment of the application provides a circular water supply bridging pipe fitting, which can solve the problems that the existing bridging pipe fitting structure, such as a bridging bent structure and a bridging four-way structure, can only vertically cross, can cause larger head loss and has limited water passing area.

Referring to fig. 1, the application provides a circular water supply bridge pipe fitting, which comprises two pipe fitting subunits, wherein the pipe fitting subunits comprise a main pipeline 1 for water supply, the middle part of one side surface of the main pipeline 1 is recessed into the main pipeline 1, both sides of the recessed part extend outwards to form a circular channel 2 in the middle part of the main pipeline 1, a circular cavity in the circular channel 2 is communicated with the inside of the main pipeline 1, the circular channel 2 can enlarge the water supply area of the main pipeline 1, and compared with the traditional bridge bending structure and bridge four-way structure, the circular water supply bridge pipe fitting provided by the application has a circular channel 2 with larger volume, so that the local head loss of the main pipeline 1 is far smaller than that of the traditional bridge bending structure and bridge four-way structure when water flow is conveyed; the circular channel 2 of one pipe fitting subunit of the two pipe fitting subunits is opposite to the circular channel 2 of the other pipe fitting subunit, and the two circular channels 2 are fastened mutually, so that two main pipelines 1 can be crossed at will in a certain angle in the plane direction through the structure that the two pipe fitting subunits are fastened mutually, and the two main pipelines are not limited to the vertical crossing angle.

As an alternative embodiment, referring to fig. 1 and 2, an opening is provided at the connection between the circular channel 2 and the main pipeline 1, so as to enable water to smoothly pass through the pipeline 1 and the circular channel 2, and ensure that excessive head loss is not caused when water passes through the connection between the pipeline 1 and the circular channel 3, so that the water flow conveying efficiency of the circular water supply bridge pipe fitting provided by the application is reduced very little.

As an alternative embodiment, referring to fig. 1 and 2, the width of the circular channel 2 is larger than that of the main pipeline 1, the circular channel 2 is used for increasing the water passing area and reducing the head loss, and the wider the width of the circular channel 2 is, the larger the water passing area is; the circular water supply bridge pipe fitting provided by the application can be randomly adjusted according to the engineering design or the position structure of a construction site, and can be manufactured through a die, so that the diameter of the circular channel 2 or the diameter of the pipeline 1 of the circular water supply bridge pipe fitting provided by the application can be correspondingly adjusted through adjusting the shape of the die, and the size most suitable for the engineering structure is found and cast through calculation of professionals, thereby further reducing the loss of water flow transmission of the circular water supply bridge pipe fitting provided by the application, and expanding the application range of the circular water supply bridge pipe fitting provided by the application again.

As an alternative embodiment, referring to fig. 3, the height of the circular channel 2 is half of the diameter of the main pipeline 1, so that when two pipe fitting sub-units are clamped together, the left sides of the two pipe fitting sub-units are on the same horizontal plane, and the right sides of the two pipe fitting sub-units are on the other horizontal plane, no additional protruding part is formed, thereby not only facilitating the installation of the circular water supply bridge pipe fitting provided by the application, but also ensuring the neat and beautiful appearance of the circular water supply bridge pipe fitting provided by the application, compared with the existing bridge bending structure, the existing bridge bending structure has arc-shaped protruding parts, and the protruding parts are exposed on the wall surface, so that holes are required to be dug on the floor tile or the ceramic tile for exposing the protruding parts of the bridge bending structure when the floor tile, the ceramic tile and the like are paved, and the structure is abrupt and unaesthetic; if the protrusion of the bridge bending structure is not wanted to be exposed on the wall surface or the ground, the pipeline needs to be deeply buried in the wall body, so that the construction steps are increased, the construction process is complicated, and meanwhile, if the wall body is excavated too deeply, the wall body structure is possibly fragile, and potential safety hazards are easy to occur. The circular water supply bridge pipe fitting provided by the application does not form extra protruding parts, and only needs to excavate the wall body shallowly when paving, and the circular water supply bridge pipe fitting is paved under the structures such as the floor tiles or the ceramic tiles, so that the structures of the construction wall body are attractive and safe without digging holes in the structures such as the floor tiles or the ceramic tiles and the like.

As an alternative embodiment, referring to fig. 3, one side of the circular channel 2 is flush with one side of the main pipeline 1, a groove 3 is formed between the other side of the circular channel 2 and the main pipeline 1, the concave portions of the groove 3 between the two pipe fitting sub-units are combined to clamp the two pipe fitting sub-units together, the areas of the grooves 3 of the two pipe fitting sub-units should be identical, that is, the diameters of the main pipelines 1 of the two pipe fitting sub-units need to be identical, and the diameters of the circular channels 2 of the two pipe fitting sub-units need to be identical, so that the two identical pipe fitting sub-units can be buckled together through the groove 3, and the two pipe fitting sub-units are buckled together to form a circular water supply bridge pipe fitting, so that no additional protrusions appear on the circular water supply bridge pipe fitting, and the whole surface of the circular water supply bridge fitting is quite flat.

As an alternative embodiment, see fig. 1 and 3, the groove 3 of one pipe subunit is snapped into the groove 3 of the other pipe subunit for combining the two pipe subunits. After the two pipe fitting sub units are buckled through the groove 3, marking the position of the main pipeline 1 of the second pipe fitting sub unit by using a marking pen and other objects capable of marking on the circular channel 2 of the first pipe fitting sub unit, and marking the position of the main pipeline 1 of the first pipe fitting sub unit by using a marking pen and other objects capable of marking on the circular channel 2 of the second pipe fitting sub unit; after the positions are recorded on the two circular channels 2, separating the two pipe fitting subunits, smearing adhesives such as glue on the surfaces of the grooves 3 of the two pipe fitting subunits, then buckling and combining the two pipe fitting subunits again according to the marked positions, and after the adhesives are thoroughly air-dried and firmly adhered, installing the circular water supply gap bridge pipe fitting into the integral pipeline.

When the two pipe fitting subunits are clamped together, the left sides of the two pipe fitting subunits are on the same horizontal plane, and the right sides of the two pipe fitting subunits are on the other horizontal plane, so that no extra protruding parts are formed, the installation of the circular water supply bridging pipe fitting provided by the application is facilitated, meanwhile, the clean and attractive appearance of the circular water supply bridging pipe fitting provided by the application is ensured, compared with the existing bridging curved structure, the existing bridging curved structure has arc-shaped protrusions, and the protrusions are exposed on the wall surface when the bridging curved structure is installed, therefore, holes are required to be dug on the floor tiles or the ceramic tiles for exposing the protrusions of the bridging curved structure when the floor tiles, the ceramic tiles and other structures are paved, and the structure is abrupt and not attractive; if the protrusion of the bridge bending structure is not wanted to be exposed on the wall surface or the ground, the pipeline needs to be deeply buried in the wall body, so that the construction steps are increased, the construction process is complicated, and meanwhile, if the wall body is excavated too deeply, the wall body structure is possibly fragile, and potential safety hazards are easy to occur. The circular water supply bridge pipe fitting provided by the application does not form extra protruding parts, and only needs to excavate the wall body shallowly when paving, and the circular water supply bridge pipe fitting is paved under the structures such as the floor tiles or the ceramic tiles, so that the structures of the construction wall body are attractive and safe without digging holes in the structures such as the floor tiles or the ceramic tiles and the like.

As an alternative embodiment, referring to fig. 1 and 4, the pipe sub-units can rotate around the center of the circular channel 2 as a center point, so as to adjust the angle between the two pipe sub-units, and the two pipe sub-units can be arbitrarily connected within the range of unshaded parts as shown in fig. 4, i.e. the two pipe units can arbitrarily cross-form a circular water supply gap bridge pipe in the range. Compared with the traditional bridge crossing bent structure and bridge crossing four-way structure, the two main pipelines of the circular water supply bridge pipe fitting provided by the application can be crossed at any angle selected within the range of non-shadow parts according to actual predicted engineering design or actual construction requirements, for example, the other parts of the two water pipe pipelines can be paved at first, the crossed parts of the two water pipe pipelines are kept temporarily and are not installed, when the two water pipe pipelines only remain to be connected at the crossed parts, the diameter length of the main pipeline 1 and the diameter length of the circular channel 2 of the circular water supply bridge pipe fitting provided by the application are adjusted according to the diameters of the two water pipe pipelines and the distance of the two water pipe pipelines to be connected at the crossed parts, and then the cross angle between the two pipe sub-units is adjusted according to the cross angle of the two water pipe pipelines, and the connection of the two water pipe pipelines is completed. Compared with the traditional bridge bending structure and bridge four-way structure, the circular water supply bridge pipe fitting provided by the application is not limited to a vertical crossing angle, and has wider use scenes.

As an alternative embodiment, referring to fig. 4, the main pipe 1 of one pipe sub-unit may be clamped to the main pipe 1 of the other pipe sub-unit, so as to limit the minimum included angle between the two pipe sub-units, the hatched portion shown in fig. 4 is a graph obtained by surrounding the main pipe 1 and the circular channel 2 after diagonally connecting the four intersecting points, and after the grooves 3 of the two pipe sub-units are fastened together, the rotation range of one pipe sub-unit on the other pipe sub-unit is limited outside the hatched portion, because when one pipe sub-unit rotates to the boundary of the hatched portion of the other pipe sub-unit, the main pipe 1 of the two pipe sub-units collides and contacts together, preventing further rotation between the two pipe sub-units. The smaller the diameter of the circular channel 2, the smaller the included angle of the shadow portion, and conversely, the smaller the diameter of the circular channel, the larger the included angle of the shadow portion. In practical construction, the diameter of the circular channel 2 of the circular water supply bridge pipe provided by the application is adjusted according to the diameters of two water pipe lines connected by the circular water supply bridge pipe fitting and the distance between the two water pipe lines needing to be connected in a cross mode, calculation or design of related persons is needed, so that space is saved, two water pipe lines can be connected, and the circular water supply bridge pipe fitting provided by the application has the advantage of having the lowest water head loss in the water flow conveying process.

As an alternative embodiment, referring to fig. 1, two grooves are connected by bonding, after determining the included angle between two pipe sub-units according to a design drawing or an actual pipeline installation requirement, marking the position of the main pipeline 1 of the second pipe sub-unit by using a marker or other objects on the circular channel 2 of the first pipe sub-unit, and marking the position of the main pipeline 1 of the first pipe sub-unit by using a marker or other objects on the circular channel 2 of the second pipe sub-unit; after the positions are recorded on the two circular channels 2, separating the two pipe fitting subunits, smearing adhesives such as glue on the surfaces of the grooves 3 of the two pipe fitting subunits, then buckling and combining the two pipe fitting subunits again according to the marked positions, and after the adhesives are thoroughly air-dried and firmly adhered, installing the circular water supply gap bridge pipe fitting into the integral pipeline.

As an alternative embodiment, referring to fig. 1, the main pipeline 1 is a circular pipeline, so that the water flow rate can be maximized under the condition of saving the most pipe material, meanwhile, when the circular pipe wall is subjected to external force or internal pressure of the water flow, stress on each point can be very even, and no stress concentration exists, so that the main pipeline 1 is not easy to break.

The application provides a circular water supply bridge pipe fitting, which has the following specific embodiments:

during construction, the size of the circular water supply bridge pipe fitting provided by the application is designed and adjusted. The diameter of the circular channel 2 of the circular water supply bridge pipe provided by the application is adjusted according to the diameters of two water pipe pipelines connected by the circular water supply bridge pipe provided by the application and the distance of the two water pipe pipelines needing to be connected in a cross way, and the diameter is calculated or designed by related persons so as to ensure that the two water pipe pipelines can be connected while saving space, and further ensure that the circular water supply bridge pipe provided by the application has the least head loss in the water flow conveying process.

When the circular water supply bridging pipe fitting is carried out, firstly, the intersection angle of two pipe fitting subunits of the circular water supply bridging pipe fitting is preset according to a pipeline design drawing or a pipeline intersection angle during actual installation, and meanwhile, the circular water supply bridging pipe fitting with the corresponding model is selected, so that the circular channel 2 of the pipe fitting subunit has a sufficient diameter, and the minimum intersection angle of the main pipelines 1 of the two pipe fitting subunits is smaller than the preset intersection angle. Then splicing the two pipe fitting subunits together through the groove 3, rotating any pipe fitting subunit, adjusting the included angle between the main pipelines 1 to a preset crossing angle, marking the position of the main pipeline 1 of the second pipe fitting subunit by using a marker or other objects capable of marking on the circular channel 2 of the first pipe fitting subunit, and marking the position of the main pipeline 1 of the first pipe fitting subunit by using a marker or other objects capable of marking on the circular channel 2 of the second pipe fitting subunit; after the positions are recorded on the two circular channels 2, separating the two pipe fitting subunits, coating adhesives such as glue on the surfaces of the grooves 3 of the two pipe fitting subunits, then buckling and combining the two pipe fitting subunits again according to the marked positions, and after the adhesives are thoroughly air-dried and firmly adhered, installing the circular water supply gap bridge pipe fitting into the integral pipeline to complete the connection of the two pipelines.

Because the two pipe fitting subunits of the circular water supply bridging pipe fitting are clamped together, the left sides of the two pipe fitting subunits are on the same horizontal plane, and the right sides of the two pipe fitting subunits are on the other horizontal plane, no extra protruding parts are formed, the installation of the circular water supply bridging pipe fitting is convenient, meanwhile, the clean and attractive appearance of the circular water supply bridging pipe fitting is guaranteed, compared with the existing bridging curved structure, the existing bridging curved structure is provided with arc-shaped protrusions, the protruding parts are exposed on the wall surface when the bridging curved structure is installed, therefore, holes are required to be dug out on the floor tiles or the ceramic tiles for exposing the protruding parts of the bridging curved structure when the floor tiles, the ceramic tiles and other structures are paved, and the structure is abrupt and not attractive; if the protrusion of the bridge bending structure is not wanted to be exposed on the wall surface or the ground, the pipeline needs to be deeply buried in the wall body, so that the construction steps are increased, the construction process is complicated, and meanwhile, if the wall body is excavated too deeply, the wall body structure is possibly fragile, and potential safety hazards are easy to occur. The circular water supply bridge pipe fitting provided by the application does not form extra protruding parts, and only needs to excavate the wall body shallowly when paving, and the circular water supply bridge pipe fitting is paved under the structures such as the floor tiles or the ceramic tiles, so that the structures of the construction wall body are attractive and safe without digging holes in the structures such as the floor tiles or the ceramic tiles and the like.

Compared with the traditional bridge bending structure and bridge four-way structure, the circular water supply bridge pipe fitting provided by the application has the advantages that the circular pipeline is arranged on the main pipeline of the circular water supply bridge pipe fitting, so that the pipeline water passing area of the circular water supply bridge pipe fitting can be increased; under the condition of equal water flow, the circular water supply bridge pipe fitting provided by the application has large-volume circular management, so that the local head loss of the circular water supply bridge pipe fitting is far smaller than that of the traditional bridge bending structure and bridge four-way structure; meanwhile, the two main pipelines of the circular water supply bridge pipe fitting provided by the application can be crossed at will in a certain angle in the plane direction, and are not limited to the vertical crossing angle, so that the circular water supply bridge pipe fitting has wider use scenes compared with the traditional bridge bending structure and bridge four-way structure.

In the description of the present application, it should be noted that the azimuth or positional relationship indicated by the terms "upper", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present application and simplifying the description, and are not indicative or implying that the apparatus or element in question must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present application. Unless specifically stated or limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

It should be noted that in the present application, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing is only a specific embodiment of the application to enable those skilled in the art to understand or practice the application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A circular feed water bridge fitting, comprising:

the two pipe fitting subunits comprise a main pipeline (1) for water passing, the middle of one side surface of the main pipeline (1) is recessed into the main pipeline (1), two sides of the recessed part extend outwards to form a circular channel (2) in the middle of the main pipeline (1), and a circular cavity in the circular channel (2) is communicated with the inside of the main pipeline (1);

wherein, the circular channel (2) of one pipe fitting subunit of the two pipe fitting subunits is arranged opposite to the circular channel (2) of the other pipe fitting subunit, and the two circular channels (2) are fastened mutually.

2. A circular feed water bridge fitting as defined in claim 1, wherein: the circular channel (2) is provided with an opening at the joint with the main pipeline (1) so as to be used for communicating the circular cavity inside the circular channel (2) with the main pipeline (1).

3. A circular feed water bridge fitting as defined in claim 2, wherein: the width of the circular channel (2) is larger than the width of the main pipeline (1).

4. A circular feed water bridge fitting as defined in claim 3 wherein: the height of the circular channel (2) is half the diameter of the main pipeline (1).

5. A circular feed water bridge fitting as defined in claim 4, wherein: one side of the circular channel (2) is flush with one side of the main pipeline (1), and a groove (3) is formed between the other side of the circular channel (2) and the main pipeline (1) in a surrounding mode.

6. A circular feed water bridge fitting as defined in claim 5, wherein: the groove (3) of one pipe fitting subunit and the groove (3) of the other pipe fitting subunit are mutually clamped so as to be used for combining the two pipe fitting subunits.

7. A circular feed water bridge fitting as defined in claim 6, wherein: the pipe fitting subunits can rotate by taking the circle center of the circular channel (2) as a center point so as to be used for adjusting the angle between the two pipe fitting subunits.

8. A circular feed water bridge fitting as defined in claim 7, wherein: the main pipe (1) of one pipe subunit can be snapped into the main pipe (1) of the other pipe subunit for limiting the minimum angle between the two pipe subunits.

9. A circular feed water bridge fitting as defined in claim 8, wherein: the two grooves are connected through bonding.

10. A circular feed water bridge fitting as defined in claim 9, wherein: the main pipeline (1) is a circular pipeline.