CN220204753U - Multi-way pipe connector - Google Patents

Abstract

The utility model discloses a multi-way pipeline connector which comprises a split joint pipe, wherein one end of the split joint pipe is fixedly connected with a water inlet connector, the other end of the split joint pipe is fixedly connected with a split joint connector, the surface of the split joint pipe is fixedly connected with a split passage pipe, the other end of the split passage pipe is connected with a split control structure, and the split passage pipe is communicated with the split joint pipe. The multi-way pipeline connector can control ports on the plurality of split-flow channel pipes at one time to perform split-flow on-off control, and can control the water flow velocity of six first split-flow connecting pipes and six second split-flow connecting pipes on six split-flow ports to be consistent, so that the water supply of each port is ensured to be the same, the multi-way pipeline connector can be controlled more conveniently, time and labor are saved, and in addition, the structure can adapt to two connection modes, and the connection is diversified.

Description

Multi-way pipe connector

Technical Field

The utility model relates to the field of water conservancy pipelines, in particular to a multi-way pipeline connector.

Background

When the pipeline is installed in water conservancy, the pipeline mainly plays the effect of water conservancy diversion, and in order to be able to shunt other pipelines with rivers in the water conservancy diversion, then set up the pipe connection head, it just evenly shunts the water of trunk line to the branch pipeline in, and all be equipped with a valve at every branch pipeline junction, control opening and closing of pipeline, but this kind of setting is the drawback, because when a plurality of branch pipelines of operation close or close little rivers, all need carry out many valve operations, therefore the operation, troublesome wasting of time and energy, and traditional adoption a connected mode more, the connection use is singleization, make some pipelines inapplicable, for this reason, we propose a multiway pipe connection head.

Disclosure of Invention

The utility model mainly aims to provide a multi-way pipeline connector which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a multiway pipe joint, includes the reposition of redundant personnel joint pipe, the one end fixedly connected with connector that intakes of reposition of redundant personnel joint pipe, the other end fixedly connected with reposition of redundant personnel connector of reposition of redundant personnel joint pipe, the fixed surface of reposition of redundant personnel joint pipe is connected with reposition of redundant personnel passageway pipe, the other end of reposition of redundant personnel passageway pipe is connected with reposition of redundant personnel control structure.

Further, the shunt channel tube is in communication with the shunt joint tube.

Further, the number of the split-flow channel pipes is six, and the split-flow channel pipes are uniformly distributed and connected to the surfaces of the split-flow joint pipes.

Further, the shunt control structure comprises a shunt valve seat, a first shunt connecting pipe, a second shunt connecting pipe, a pagoda connecting ring, threads, a joint control valve rod, a control handle and a three-way ball valve, wherein the upper surface position of the shunt valve seat is connected with the first shunt connecting pipe, the front surface position of the shunt valve seat is connected with the second shunt connecting pipe, the pagoda connecting ring is fixedly arranged on the surface of the first shunt connecting pipe and the second shunt connecting pipe, the threads are arranged on the surface of the first shunt connecting pipe and the surface of the second shunt connecting pipe, which is close to the port position, and the three-way ball valve is movably arranged inside the shunt valve seat.

Further, the joint control valve rod penetrates through the split valve seat to connect the six three-way ball valves together in series, and control handles are fixedly arranged at two ends of the joint control valve rod.

Further, the outer cambered surface of the three-way ball valve is tightly attached to the inner surface of the split valve seat to form a seal.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, through the distribution control structure, the ports on the distribution channel pipes can be controlled to be opened and closed in a one-time manner, and the water flow speeds of the six first distribution connection pipes and the six second distribution connection pipes on the six distribution ports can be controlled to be consistent, so that the water supply of each port is ensured to be the same, the multi-way pipeline connector can be controlled more conveniently, time and labor are saved, and in addition, the structure can adapt to two connection modes, and the connection is diversified.

Drawings

FIG. 1 is a schematic view of the whole structure of a multi-way pipe joint according to the present utility model;

fig. 2 is a partial cross-sectional view of a multi-way pipe joint according to the present utility model.

In the figure: 1. a shunt joint tube; 2. a water inlet connection port; 3. a shunt connection port; 4. a shunt channel tube; 5. a shunt control structure; 501. a shunt valve seat; 502. a first split nozzle; 503. a second tap; 504. a pagoda connecting ring; 505. a thread; 506. a joint control valve rod; 507. a control handle; 508. three-way ball valve.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Embodiment one:

as shown in fig. 1-2, a multi-way pipeline connector comprises a split joint pipe 1, wherein one end of the split joint pipe 1 is fixedly connected with a water inlet connector 2, the other end of the split joint pipe 1 is fixedly connected with a split joint connector 3, the surface of the split joint pipe 1 is fixedly connected with a split passage pipe 4, and the other end of the split passage pipe 4 is connected with a split control structure 5;

the shunt channel pipe 4 is communicated with the shunt joint pipe 1; six split-flow channel pipes 4 are arranged in total and uniformly distributed and connected on the surface of the split-flow joint pipe 1; the diversion control structure 5 comprises a diversion valve seat 501, a first diversion pipe 502, a second diversion pipe 503, a pagoda connection ring 504, threads 505, a joint control valve rod 506, a control handle 507 and a three-way ball valve 508, wherein the upper part of the surface of the diversion valve seat 501 is connected with the first diversion pipe 502, the front part of the surface of the diversion valve seat 501 is connected with the second diversion pipe 503, the pagoda connection ring 504 is fixedly arranged on the surfaces of the first diversion pipe 502 and the second diversion pipe 503, the threads 505 are arranged on the surfaces of the first diversion pipe 502 and the second diversion pipe 503 close to the port, a three-way ball valve 508 is movably arranged in the diversion valve seat 501, the port of the diversion channel pipe 4 is blocked when the three-way ball valve 508 is rotationally operated, the outer surface of the three-way ball valve 508 is always tightly sealed with the inner surface of the diversion valve seat 501 during use, thus water is prevented from flowing into the first diversion pipe 502 or the second diversion pipe 503 from a gap, the threads 505 are arranged to be spirally connected with a pipeline with the threads, the pagoda connection ring 504 is arranged, a hose is sleeved on the first diversion pipe 502 or the second diversion pipe 503, and then the pagoda connection ring 504 is tightly connected with the edge of the pagoda connection ring 503; the combined control valve rod 506 penetrates through the split valve seat 501 to connect six three-way ball valves 508 together in series, and control handles 507 are fixedly arranged at two ends of the combined control valve rod 506; the extrados of the three-way ball valve 508 seals against the interior surface of the diverter valve seat 501.

It should be noted that, in the use of the multi-way pipe connector, the diverter joint pipe 1 is connected with a water inlet pipe through the water inlet connector 2, and is connected with a water outlet pipe through the diverter joint 3 to send water to another multi-way pipe connector for diversion, when the multi-way pipe connector is used, water flows enter into six diverter channel pipes 4 through the diverter joint pipe 1, and then are diverted to the first diverter pipe 502 and the second diverter pipe 503 again through the internal three-way ball valve 508, so that water flows are discharged into the diverter pipe correspondingly connected with the first diverter pipe 502 and the second diverter pipe 503, and then are discharged to corresponding positions through the diverter pipe, during the use, a user can operate the control handles 507 at two ends of the joint valve 506 to control the joint valve 506 to rotate, and the joint valve 506 can rotate to drive the six three-way ball valves 508 to rotate, so that the diverter channel pipes 4 are communicated with any one of the first diverter pipe 502 and the second diverter pipe 503, and the ports of the first diverter pipe 502 and the second diverter pipe 503 can be closed simultaneously, and the two ports can be closed simultaneously, and the water flow can be controlled simultaneously, and the two valves can be controlled simultaneously, and the water flow can be controlled simultaneously, and the operation can be controlled to be more time and more time.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. A multi-way pipe joint, characterized in that: including shunt joint pipe (1), the one end fixedly connected with connector (2) that intakes of shunt joint pipe (1), the other end fixedly connected with shunt connector (3) of shunt joint pipe (1), the fixed surface of shunt joint pipe (1) is connected with shunt passageway pipe (4), the other end of shunt passageway pipe (4) is connected with shunt control structure (5), shunt control structure (5) including shunt valve seat (501), first shunt pipe (502), second shunt pipe (503), pagoda go-between (504), screw thread (505), allies oneself with accuse valve rod (506), control handle (507) and tee bend ball valve (508), the surperficial upper portion position of shunt valve seat (501) is connected with first shunt pipe (502), the surperficial anterior position of shunt valve seat (501) is connected with second shunt pipe (503), first shunt pipe (502) with the surperficial fixed mounting of second shunt pipe (503) has a pagoda go-between (504), first shunt pipe (502) with second shunt pipe (503) surperficial position is close to be equipped with pagoda ball valve (508), movable ball valve seat (501) inside is installed.

2. A multi-way pipe joint according to claim 1, wherein: the split-flow channel pipe (4) is communicated with the split-flow joint pipe (1).

3. A multi-way pipe joint according to claim 2, wherein: six split-flow channel pipes (4) are arranged in total, and are uniformly distributed and connected on the surface of the split-flow joint pipe (1).

4. A multi-way pipe joint according to claim 1, wherein: six three-way ball valves (508) are connected in series by the joint control valve rod (506) penetrating through the split valve seat (501), and control handles (507) are fixedly arranged at two ends of the joint control valve rod (506).

5. The multi-way pipe joint of claim 4, wherein: the outer cambered surface of the three-way ball valve (508) is tightly attached to the inner surface of the diversion valve seat (501) to form a seal.