CN207230167U - A kind of pulp conveying system that can prevent booster - Google Patents

Abstract

It the utility model is related to pipe-line equipment technical field, and in particular to a kind of pulp conveying system that can prevent booster；Including level-one force (forcing) pump, two-stage pressurizing pumps, three times' lifting pumps, tank diameter and accident pool, connected between level-one force (forcing) pump and two-stage pressurizing pump by the first pipeline, two-stage pressurizing is pumped to be connected between three times' lifting pump by second pipe, tank diameter is connected by the 3rd pipeline with the first pipeline, accident pool is connected by the 4th pipeline and the 5th pipeline with the first pipeline, valve is beaten by the company of being provided with the first pipeline between 4th pipeline and the 5th pipeline, level-one force (forcing) pump and the first pipeline even beaten between valve are equipped with pressure transmitter, rupture diaphragm is provided with 3rd pipeline, it is provided with 4th pipeline into groove valve, feeding pump outlet valve is provided with 5th pipeline；Can be in the case where economizing on resources, it is ensured that pipe safety.

Description

A kind of pulp conveying system that can prevent booster

Technical field

It the utility model is related to pipe-line equipment technical field, and in particular to a kind of pulp conveying system that can prevent booster System.

Background technology

In China economy grow at top speed while, the requirement to environmental protection it is also higher and higher, with conveyance conduit technology It is continuous ripe with perfect, conveyance conduit will obtain more preferable application faster in many industries.There is one to originate in greatly in Yunnan In 171 kilometers of long-distance pipe of peaceful elder brother's steel, the operating pressure of the pipeline is higher than 20MPa for Red Hill, terminal, whole pipeline by 3 grades of booster stations composition, it is to ensure that safety all uses pumping plant independent operating, i.e., defeated by higher level's pumping plant in early period operational process The slurry sent is directly entered the tank diameter of subordinate's pumping plant, and being then conveyed to main pump by the feeding pump of subordinate's pumping plant is pressurized to downstream pump Stand, to make pipeline preferably create economic benefit, reducing the operation of intermediate pump station tank diameter and feeding pump will greatly save It is big that the about stirring system and feed system of electricity charge operation intermediate pump station, stirring tank systems and feed system consume electric energy per hour About 220KWH, was calculated, 3 grades of pumping plants of total for 1 year by work in 360 days, i.e. and 1 year power cost saving 220X24X360X0.5X3= 2851200 yuan, realize direct continuous conveying between pumping plant, it is not necessary to by the stirring of intermediate pump station, completely realize that a pipe conveys, This inlet pressure requirements to every grade of pumping plant is higher, it is necessary to assure the minimum inlet pressure of downstream pump station is improved, and not above pipe Road pressure, on the premise of pipe safety is ensured, realizes maximizing the benefits.

Utility model content

The purpose of this utility model is to provide a kind of pulp conveying system that can prevent booster, can save the energy In the case of, it is ensured that pipe safety.

To solve above-mentioned technical problem, the utility model uses following technical scheme：

A kind of pulp conveying system that can prevent booster, level-one force (forcing) pump, two-stage pressurizing pump, three times' lifting pump, stirring Groove and accident pool,

Connected between level-one force (forcing) pump and two-stage pressurizing pump by the first pipeline, between two-stage pressurizing pump and three times' lifting pump Connected by second pipe, tank diameter is connected by the 3rd pipeline with the first pipeline, and accident pool is managed by the 4th pipeline and the 5th Road is connected with the first pipeline,

Valve is beaten by the company of being provided with the first pipeline between 4th pipeline and the 5th pipeline, and level-one force (forcing) pump and company beat The first pipeline between valve is equipped with pressure transmitter,

Rupture diaphragm is provided with 3rd pipeline, is provided with the 4th pipeline into groove valve, feeding is provided with the 5th pipeline Pump discharge valve,

Level-one force (forcing) pump, two-stage pressurizing pump, three times' lifting pump, pressure transmitter, even beat valve, into groove valve and feeding pump Outlet valve is connected with exterior controller, and alarm is connected with controller.

Further, the 3rd pipeline, the 4th pipeline, the 5th pipeline with the first pipeline are connected by fillet three-way piece.

Further, the first pipeline and second pipe inner wall are both provided with adhesive linkage, are provided with adhesive linkage inner wall wear-resisting Inner lining plate, is provided with liner alignment layers on the inside of wear-resistant liner piece, is filled out between wear-resistant liner piece and liner alignment layers Fill agent.

Further, be provided with the inner wall of second pipe with magnetic first annular magnet ring, be provided with outer wall with Its corresponding second annular magnet ring, first annular magnet ring and the second annular magnet ring attract each other.

Further, bar shaped track strip is provided with second pipe inner wall, is provided with first annular magnet ring and bar shaped track The corresponding track groove of bar.

Compared with prior art, the utility model one of at least has the following effects that：

1. in course of conveying, valve is beaten by the company of opening, closes into groove valve and feeding pump outlet valve, stops tank diameter Operation, realizes direct continuous conveying between pumping plant, it is not necessary to by the stirring of intermediate pump station, completely realizes that a pipe conveys, directly Downstream pump station is continued transported into two-stage pressurizing pump, operation control is carried out to equipment all on pipeline by monitoring system, Ensure pipe safety.

2. pipeline bending place is disposed as fillet, ore pulp can be avoided to be deposited in bending place, cause the blocking of pipeline.

3. the first pipeline and second pipe inner wall are both provided with adhesive linkage, ore pulp can be reduced to the first pipeline and second The impact force of pipeline, extends the usage time of pipeline.

4. the first annular magnet ring corresponded and the second annular magnet ring are provided with, when pipeline blocks, by second Annular magnet ring is slided along tube wall, and first annular magnet ring is slided with the second annular magnet ring on inner-walls of duct, can be cleared up stifled Fill in the ore pulp on second pipe inner wall.

5. first annular magnet ring is arranged on second pipe inner wall, can be when the second annular magnet ring drop, the first ring Shape magnet ring can be also fixed on second pipe inner wall.

Brief description of the drawings

Fig. 1 is the utility model structure diagram.

Fig. 2 is the sectional view of the first pipeline.

In figure, 1- level-ones force (forcing) pump, 2- two-stage pressurizings pump, 3- three times' liftings pump, 4- tank diameters, 5- accident pools, 6- first Pipeline, 7- second pipes, the 3rd pipelines of 8-, the 4th pipelines of 9-, the 5th pipelines of 10-, 11- pressure transmitters, 12- even beat valve, 13- rupture diaphragms, 14- are into groove valve, 15- feeding pumps outlet valve, 16- adhesive linkages, 17- wear-resistant liners piece, 18- fillers, 19- The annular magnet ring of the first annular magnet ring of liner alignment layers, 20-, 21- second.

Embodiment

As shown in Figure 1, in order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with Accompanying drawings and embodiments, are further elaborated the utility model.It should be appreciated that specific embodiment described herein is only Only to explain the utility model, it is not used to limit the utility model.

Embodiment 1

A kind of pulp conveying system that can prevent booster, level-one force (forcing) pump 1, two-stage pressurizing pump 2, three times' lifting pump 3, stir Groove 4 and accident pool 5 are mixed,

Connected between level-one force (forcing) pump 1 and two-stage pressurizing pump 2 by the first pipeline 6, two-stage pressurizing pump 2 and three times' lifting pump Connected between 3 by second pipe 7, tank diameter 4 is connected by the 3rd pipeline 8 with the first pipeline 6, and accident pool 5 passes through the 4th pipe 9 and the 5th pipeline 10 of road is connected with the first pipeline 6,

Valve 12, level-one force (forcing) pump are beaten by the company of being provided with the first pipeline 6 between 4th pipeline 9 and the 5th pipeline 10 1 and even the first pipeline 6 for beating between valve 12 is equipped with pressure transmitter 10,

Rupture diaphragm 13 is provided with 3rd pipeline 8, is provided with the 4th pipeline 9 into groove valve 14, is set on the 5th pipeline 10 Feeding pump outlet valve 15 is equipped with,

Level-one force (forcing) pump 1, two-stage pressurizing pump 2, three times' lifting pump 3, pressure transmitter 11, even beat valve 12, into groove valve 14 and feeding pump outlet valve 15 be connected with exterior controller, alarm is connected with controller.

In course of conveying, valve 12 is beaten by the company of opening, closes into groove valve 14 and feeding pump outlet valve 15, stops stirring The operation of groove 4, realizes direct continuous conveying between pumping plant, it is not necessary to by the stirring of intermediate pump station, completely realize that a pipe conveys, It is directly entered two-stage pressurizing pump 2 and continues transported to downstream pump station, equipment all on pipeline is operated by monitoring system Control, it is ensured that pipe safety.

Embodiment 2

On the basis of embodiment 1, the 3rd pipeline 8, the 4th pipeline 9, the 5th pipeline 10 and the first pipeline 6 are to pass through circle Angle three-way piece is connected, and ore pulp can be avoided to be deposited in bending place, cause the blocking of pipeline.

Embodiment 3

On the basis of embodiment 1-2, the first pipeline 6 and 7 inner wall of second pipe are both provided with adhesive linkage 16, in adhesive linkage Wear-resistant liner piece 17 is provided with 16 inner walls, the inner side of wear-resistant liner piece 17 is provided with liner alignment layers 19, in wear-resistant liner piece Filler 18 is filled between 17 and liner alignment layers 19, impact of the ore pulp to the first pipeline 6 and second pipe 7 can be reduced Power, extends the usage time of pipeline.

Embodiment 4

On the basis of embodiment 1-3, it is provided with the inner wall of second pipe 7 with magnetic first annular magnet ring 20, the annular magnet ring 21 of corresponding second is provided with outer wall, the first annular annular magnet ring 21 of magnet ring 20 and second is mutually inhaled Draw, when pipeline blocks, the second annular magnet ring 21 is slided along tube wall, first annular magnet ring 20 is with the second annular magnetic Ring 21 slides on inner-walls of duct, can clear up the ore pulp being blocked on 7 inner wall of second pipe.

Embodiment 5

On the basis of embodiment 1-4, bar shaped track strip is provided with 7 inner wall of second pipe, on first annular magnet ring 20 Track groove corresponding with bar shaped track strip is provided with, can be when the second annular magnet ring 21 drop, first annular magnet ring 20 also can It is fixed on 7 inner wall of second pipe.

Although reference be made herein to the utility model is described in multiple explanatory embodiments of the utility model, still, It should be understood that those skilled in the art can be designed that a lot of other modifications and embodiment, these modifications and embodiment It will fall within spirit disclosed in the present application and spirit.More specifically, in disclosure, drawings and claims In the range of, a variety of variations and modifications can be carried out to the building block and/or layout of theme combination layout.Except to building block And/or outside the modification and improvement of layout progress, to those skilled in the art, other purposes also will be apparent.

Claims (5)

1. A kind of 1. pulp conveying system that can prevent booster, it is characterised in that：Including level-one force (forcing) pump（1）, two-stage pressurizing pump （2）, three times' lifting pump（3）, tank diameter（4）And accident pool（5）,

   Level-one force (forcing) pump（1）Pumped with two-stage pressurizing（2）Between pass through the first pipeline（6）Connection, two-stage pressurizing pump（2）With three-level plus Press pump（3）Between pass through second pipe（7）Connection, tank diameter（4）Pass through the 3rd pipeline（8）With the first pipeline（6）Connection, accident Pond（5）Pass through the 4th pipeline（9）With the 5th pipeline（10）With the first pipeline（6）Connection,

   4th pipeline（9）With the 5th pipeline（10）Between the first pipeline（6）On the company of being provided with beat valve（12）, level-one adds Press pump（1）Valve is beaten with connecting（12）Between the first pipeline（6）It is equipped with pressure transmitter（11）,

   3rd pipeline（8）On be provided with rupture diaphragm（13）, the 4th pipeline（9）On be provided with into groove valve（14）, the 5th pipeline （10）On be provided with feeding pump outlet valve（15）,

   Level-one force (forcing) pump（1）, two-stage pressurizing pump（2）, three times' lifting pump（3）, pressure transmitter（11）, even beat valve（12）, into Groove valve（14）With feeding pump outlet valve（15）It is connected with exterior controller, alarm is connected with controller.
2. A kind of 2. pulp conveying system that can prevent booster according to claim 1, it is characterised in that：3rd pipeline （8）, the 4th pipeline（9）, the 5th pipeline（10）With the first pipeline（6）It is to be connected by fillet three-way piece.
3. A kind of 3. pulp conveying system that can prevent booster according to claim 1, it is characterised in that：First pipeline （6）And second pipe（7）Inner wall is both provided with adhesive linkage（16）, in adhesive linkage（16）Wear-resistant liner piece is provided with inner wall （17）, in wear-resistant liner piece（17）Inner side is provided with liner alignment layers（19）, in wear-resistant liner piece（17）With liner alignment layers （19）Between be filled with filler（18）.
4. A kind of 4. pulp conveying system that can prevent booster according to claim 1, it is characterised in that：In second pipe （7）Inner wall on be provided with magnetic first annular magnet ring（20）, the second corresponding annular magnetic is provided with outer wall Ring（21）, first annular magnet ring（20）With the second annular magnet ring（21）Attract each other.
5. A kind of 5. pulp conveying system that can prevent booster according to claim 4, it is characterised in that：Second pipe （7）Bar shaped track strip, first annular magnet ring are provided with inner wall（20）On be provided with track groove corresponding with bar shaped track strip.