CN213777303U - Anti-blocking long-distance conveying device for solid-liquid mixture - Google Patents

Abstract

The utility model discloses an anti-blocking long-distance conveying device for solid-liquid mixture, which comprises a solid-liquid mixture storage tank and a conveying pipeline; the vertical pipeline of the conveying pipeline is communicated with the bottom of the solid-liquid mixture storage tank, a first nitrogen input pipeline is communicated with the joint of the transverse pipeline of the conveying pipeline and the vertical pipeline, and a plurality of communication ports are formed in the transverse pipeline and are respectively communicated with a second nitrogen input pipeline; the communicating ports are arranged on the transverse pipeline at intervals, the communicating ports are distributed at equal intervals, and the second nitrogen input pipeline is sleeved on the communicating ports and connected with the communicating ports; the first nitrogen input pipeline and the second nitrogen input pipeline are respectively communicated with the nitrogen header pipe through a three-way pipe. The utility model has the advantages that: set up several nitrogen gas input pipeline on long distance pipeline, let in nitrogen gas in to long distance pipeline through nitrogen gas input pipeline, dilute the solid-liquid mixture and the replenishment of pressure, can alleviate the dispersion of original solid-liquid mixture pressure, prevent that long distance pipeline from blockking up.

Description

Anti-blocking long-distance conveying device for solid-liquid mixture

Technical Field

The utility model relates to a chemical material conveying pipeline technical field, concretely relates to prevent stifled solid-liquid mixture long distance conveyor.

Background

In chemical production, chemical materials need to be conveyed through various conveying pipelines, and the materials are in liquid, gas, solid or mixture states. Among the prior art, chemical material's pipeline only links to each other material jar and transport terminal device usually, provides power through the delivery pump and carries, to solid-liquid mixture's long distance transport, in the actual transportation process, delivery pressure can disperse gradually, leads to the pressure of the solid-liquid mixture of the back part of long pipeline to reduce, appears the jam condition easily, can not carry out smooth and easy the transport, and owing to be long pipe-line transportation, if dredge after the jam can be very troublesome, influence production efficiency.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an prevent stifled solid-liquid mixture long distance conveyor, can solve the solid-liquid mixture and carry out long distance transport long pipeline inside the problem that blocks up, mediation trouble, influence production efficiency appear easily.

In order to solve the technical problem, the utility model adopts the technical scheme that: comprises a solid-liquid mixture storage tank and a conveying pipeline communicated with the solid-liquid mixture storage tank;

the conveying pipeline is an L-shaped pipeline and is formed by connecting a vertical pipeline and a transverse pipeline, the conveying pipeline is positioned below the solid-liquid mixture storage tank, the top of the vertical pipeline of the conveying pipeline is communicated with the bottom of the solid-liquid mixture storage tank, and a stop valve is arranged on the vertical pipeline;

a first nitrogen input pipeline is communicated with the joint of the transverse pipeline and the vertical pipeline of the conveying pipeline, a plurality of communication ports are further formed in the transverse pipeline and are respectively communicated with a plurality of second nitrogen input pipelines, and check valves are respectively arranged on the first nitrogen input pipeline and the second nitrogen input pipelines;

the plurality of communication ports are arranged on the transverse pipeline at intervals, the communication ports are distributed at equal intervals, the second nitrogen input pipeline is sleeved on the communication ports and connected with the communication ports, and the communication ports and the second nitrogen input pipeline are sealed through sealing rings;

and the first nitrogen input pipeline and the second nitrogen input pipeline are respectively communicated with the nitrogen header pipe through a three-way pipe.

Further, a nitrogen inlet is formed in the top of the solid-liquid mixture storage tank.

Furthermore, the communicating ports are respectively provided with a sealing cover in a matching way.

After adopting the structure, the utility model has the advantages that: the pressure of the solid-liquid mixture is gradually dispersed when the solid-liquid mixture is conveyed for a long distance, the flow is not smooth due to the fact that the inside of a long pipeline is easy to block, a plurality of nitrogen input pipelines are arranged on the long-distance conveying pipeline, nitrogen is introduced into the long-distance conveying pipeline through the nitrogen input pipelines, the solid-liquid mixture is diluted and the pressure is supplemented, the dispersion of the pressure of the original solid-liquid mixture can be relieved, the long-distance conveying pipeline is prevented from being blocked, and the solid-liquid mixture is conveyed smoothly in the long-distance conveying pipeline;

the communicating opening can be used or not used according to actual conditions, and if the communicating opening does not need to be used, the sealing cover is used for sealing, the communicating opening at the position is not connected with the second nitrogen input pipeline, and the next communicating opening is connected with the nitrogen main pipe through the second nitrogen input pipeline and the three-way pipe in a segmented mode.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and the following detailed description. The following examples are presented to enable those skilled in the art to more fully understand the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, the following technical solutions are adopted in the present embodiment: the device comprises a solid-liquid mixture storage tank 1 and a conveying pipeline 2 communicated with the solid-liquid mixture storage tank 1, wherein the conveying pipeline 2 is positioned below the solid-liquid mixture storage tank 1, a nitrogen inlet 10 is formed in the top of the solid-liquid mixture storage tank 1, and nitrogen can be introduced into the solid-liquid mixture storage tank 1 through the nitrogen inlet 10, so that the conveying pressure of the solid-liquid mixture is increased.

The conveying pipeline 2 is an L-shaped pipeline and is formed by connecting a vertical pipeline 21 and a transverse pipeline 22, the top of the vertical pipeline 21 of the conveying pipeline 2 is communicated with the bottom of the solid-liquid mixture 1 storage tank, and the stop valve 3 is installed on the vertical pipeline 21.

The connecting part of the transverse pipeline 22 and the vertical pipeline 21 of the conveying pipeline 2 is communicated with a first nitrogen input pipeline 4, the connecting corner is easy to block, the first nitrogen input pipeline 4 arranged at the connecting corner can prevent the connecting part from blocking and increase the conveying pressure at the connecting part, solid-liquid mixture in the conveying pipeline 2 flows more smoothly, the first nitrogen input pipeline 4 is communicated with a nitrogen header pipe 5 through a three-way pipe 8 to facilitate nitrogen input, a plurality of communicating ports 6 are also arranged on the transverse pipeline 22, the communicating ports 6 are respectively communicated with a plurality of second nitrogen input pipelines 7, the second nitrogen input pipeline 7 is communicated with the nitrogen header pipe 5 through the three-way pipe 8, the communicating ports 6 are arranged on the transverse pipeline 22 at intervals, the communicating ports 6 are distributed at equal intervals, the second nitrogen input pipeline 7 is sleeved on the communicating ports 6 and is connected with the communicating ports 6, and the communicating ports 6 and the second nitrogen input pipeline 7 are sealed through sealing rings, also can weld in order to consolidate communicating opening 6 and second nitrogen gas input pipeline 7, set up a second nitrogen gas input pipeline 7 at a distance away on transverse pipeline 22, guarantee that many places can let in safe nitrogen gas on longer transverse pipeline 22, increase delivery pressure, solid-liquid mixture flows more smoothly in the pipeline 2, is provided with check valve 11 on first nitrogen gas input pipeline 4 and a plurality of second nitrogen gas input pipeline 7 respectively to the letting in of control nitrogen gas.

The communicating ports 6 are respectively provided with matched sealing covers 9, if the communicating ports 6 do not need to be introduced with nitrogen, the communicating ports 6 are sealed through the sealing covers 9 and do not need to be connected with the nitrogen header pipe 5, the nitrogen header pipe 5 is formed by sequentially connecting a plurality of sections, and the next communicating port 6 is connected with the nitrogen header pipe 5 in sections through a second nitrogen input pipeline 7 and a three-way pipe 8.

The working principle is as follows: the solid-liquid mixture storage tank 1 can be filled with nitrogen through the nitrogen inlet 10, so that the conveying pressure of the solid-liquid mixture is increased, the solid-liquid mixture enters the vertical pipeline 21 of the conveying pipeline 2 from the bottom of the solid-liquid mixture storage tank 1 and continuously flows into the transverse pipeline 22 for conveying, because the conveying pipeline 2 is a long-distance conveying pipeline, the pressure can be gradually dispersed during long-distance conveying, the blockage easily occurs and the flow is not smooth, the first nitrogen input pipeline 4 is arranged at the joint of the transverse pipeline 22 and the vertical pipeline 21, nitrogen is input into the first nitrogen input pipeline 4 through the nitrogen header pipe 5, then nitrogen is input into the joint of the transverse pipeline 22 and the vertical pipeline 21, the conveying pressure at the joint can be increased, the joint is prevented from being blocked, the transverse pipeline 22 is communicated with the plurality of second nitrogen input pipelines 7, and nitrogen can be filled into a plurality of positions on the transverse pipeline 22, dilute the solid-liquid mixture and the replenishment of pressure, can alleviate the dispersion of original solid-liquid mixture pressure, prevent that long distance pipeline from blockking up, if in practical application, the intercommunication mouth 6 that sets up has the unnecessary use, then seal through closing cap 9, the intercommunication mouth 6 of this department is not connected second nitrogen gas input pipeline 7, next intercommunication mouth 6 rethread second nitrogen gas input pipeline 7 and three-way pipe 8 with nitrogen gas house steward 5's segmentation be connected can, can adjust at any time according to the in service behavior, it is convenient to use.

The components of the stop valve 3, the check valve 11, etc. described above are all common standard components or components known to those skilled in the art, and the structure and principle thereof are known to those skilled in the art through technical manuals or through routine experiments, and will not be described.

This embodiment sets up several nitrogen gas input pipeline on long distance pipeline, lets in nitrogen gas in to long distance pipeline through nitrogen gas input pipeline, dilutes the replenishment with pressure to the solid-liquid mixture, can alleviate the dispersion of original solid-liquid mixture pressure, prevents that long distance pipeline from blockking up, ensures that the solid-liquid mixture carries smoothly in long distance pipeline.

The basic principles and main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. The utility model provides an anti-blocking solid-liquid mixture long distance transport device which characterized in that: comprises a solid-liquid mixture storage tank and a conveying pipeline communicated with the solid-liquid mixture storage tank;

the conveying pipeline is an L-shaped pipeline and is formed by connecting a vertical pipeline and a transverse pipeline, the conveying pipeline is positioned below the solid-liquid mixture storage tank, the top of the vertical pipeline of the conveying pipeline is communicated with the bottom of the solid-liquid mixture storage tank, and a stop valve is arranged on the vertical pipeline;

a first nitrogen input pipeline is communicated with the joint of the transverse pipeline and the vertical pipeline of the conveying pipeline, a plurality of communication ports are further formed in the transverse pipeline and are respectively communicated with a plurality of second nitrogen input pipelines, and check valves are respectively arranged on the first nitrogen input pipeline and the second nitrogen input pipelines;

the plurality of communication ports are arranged on the transverse pipeline at intervals, the communication ports are distributed at equal intervals, the second nitrogen input pipeline is sleeved on the communication ports and connected with the communication ports, and the communication ports and the second nitrogen input pipeline are sealed through sealing rings;

and the first nitrogen input pipeline and the second nitrogen input pipeline are respectively communicated with the nitrogen header pipe through a three-way pipe.

2. An anti-clogging long distance transportation device for solid-liquid mixture according to claim 1, characterized in that: and a nitrogen inlet is formed in the top of the solid-liquid mixture storage tank.

3. An anti-clogging long distance transportation device for solid-liquid mixture according to claim 1, characterized in that: and the communicating ports are respectively provided with a sealing cover in a matching way.

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