CN104180163A - High-drop falling-type pipeline energy dissipation conveying system - Google Patents

Abstract

The invention provides a high-drop falling-type pipeline energy dissipation conveying system. The conveying system comprises a plurality of falling pipelines and a plurality of energy dissipation pipelines; every adjacent falling pipelines are communicated through one energy dissipation pipeline; the upstream end of each energy dissipation pipeline is connected to the bottom of one falling pipeline positioned at the high position; the downstream end of each energy dissipation pipeline is connected to the top of one falling pipeline positioned at the low position; flow guide mechanisms are arranged at the bottoms of the falling pipelines and at the connecting positions of the falling pipelines and the energy dissipation pipelines; L-shaped connection channels are formed between the falling pipelines and the energy dissipation pipelines through the flow guide mechanisms. According to the invention, through the innovate design of the L-shaped connecting structures between the falling pipelines and the energy dissipation pipelines, ore pulp slurry from the falling pipelines can flow to the energy dissipation pipelines smoothly and freely, and phenomenon of eddy current abrasion to the pipelines, caused by buffering and overflow of the slurry is completed removed, so that energy dissipation of the high-drop slurry is realized to the utmost extent, the operation service life of the slurry pipeline system is prolonged, and the conveying efficiency of the slurry pipelines is improved.

Description

A kind of high fall dropping type pipeline energy dissipation transporting system

Technical field

The present invention relates to Slurry Pipeline Transportation system, relate to more specifically a kind of high fall dropping type pipeline energy dissipation transporting system.

Background technique

At China's fast increasing economy, particularly metallurgical in recent years, petrochemical industry, oil, the sustainable and stable development of the industries such as chemical fertilizer, price lifting along with the energy, cost of transportation is more and more higher, and utilize hydraulic pipe conveying solid substance material, transport (as railway with other, highway) compare, there is transportation range short, capital investment is few, landform is adapted to and can utilize discrepancy in elevation potential energy, do not account for or account for less soil, free from environmental pollution and not disturbed by ambient conditions, can realize and working continuously, technology is reliable, traffic expense is only railway, the plurality of advantages such as 1/6～1/10 of highway, realized economy, environment sustainable development.But pipeline conventionally can be transported at the foot of the hill from high mountain when transporting slurry as iron ore concentrate ore pulp, when the height above sea level on mountain is very high, can have huge drop.When iron ore concentrate ore pulp is transported at the foot of the hill on from the hilltop, will produce huge kinetic energy, if this huge kinetic energy is not carried out to energy dissipating, will cause huge destruction to reception unit, have a strong impact on the working life of equipment.In prior art, designed high fall dropping type pipe-line transportation system for this reason, as shown in Figure 1, delivering pipe extends from high to low along massif 1, and delivering pipe includes many drop pipelines 2 and energy dissipating pipeline 3, one end of energy dissipating pipeline 3 is communicated in the bottom of high-order drop pipeline 2, the other end of energy dissipating pipeline 3 is communicated in the top of low level drop pipeline 2, whole pipe-line transportation system by being fixed the bottom of drop pipeline 2 in fixing part 4 gos deep into massif 1 simultaneously, this means of fixation is also the best means of fixation of high fall dropping type pipe-line transportation system, this means of fixation makes energy dissipating pipeline 3 cannot directly be communicated in the bottom of drop pipeline 2, and on the lower sides with a certain distance from bottom, be communicated with drop pipeline 2, like this in ore pulp slurry course of conveying, ore pulp slurry is from the eminence of drop pipeline 2 is trickled to lower, the bottom that first arrives drop pipeline after cushioning again to overflow to energy dissipating pipeline 3, then to subordinate's pipeline, carry, as the slurry stream in accompanying drawing 1 to as shown in, eddy current is formed on slurry bottom at drop pipeline 2 when buffering and overflow like this, this slurry eddy current will heavy wear drop pipeline and the wrapping angle position of energy dissipating pipeline enclosure, time one length will cause the link position of drop pipeline 2 and energy dissipating pipeline 3 to occur piping failure, and then leakage slurry body that can be serious, cause larger potential safety hazard, and need expend a large amount of manpower and materials to the maintenance of this connection bight wearing and tearing, because this maintenance need be at high height above sea level, carry out in the steep location of the gradient, serious impact Slurry Pipeline Transportation efficiency, therefore high fall dropping type pipe-line transportation system of the prior art does not play energy dissipating effect to high drop slurry kinetic energy very effectively, although used energy dissipating pipeline but huge pressure caused in the joint of energy dissipating pipeline and drop pipeline, therefore how high drop slurry kinetic energy is carried out to energy dissipating and pipeline self is not caused to wear-out failure again simultaneously, become high drop Technology of Slurry Pipeline Delivery field technical problem urgently to be resolved hurrily.

Summary of the invention

The present invention is based on above-mentioned prior art problem, a kind of brand-new high fall dropping type pipeline energy dissipation transporting system of proposition of innovation, by the L-type linkage structure between innovative design drop pipeline and energy dissipating pipeline, make can flow to smoothly, swimmingly energy dissipating pipeline from the ore pulp slurry of drop pipeline, and eliminated eddy current wear phenomenon pipeline being caused because of slurry buffering, overflow completely, to greatest extent high drop slurry kinetic energy has been carried out to energy dissipating, improved service life and the Slurry Pipeline Transportation efficiency of Slurry Pipeline Transportation system.

It is as follows that the present invention solves the problems of the technologies described above taked technological scheme:

A kind of high fall dropping type pipeline energy dissipation transporting system, comprise that a high position from high drop massif 1 is to the many drop pipelines 2 that arrange between low level and Duo Gen energy dissipating pipeline 3, the bottom of every drop pipeline 2 is fixed in massif, between two adjacent drop pipelines 2, by an energy dissipating pipeline 3, be communicated with, the upstream extremity of described energy dissipating pipeline 3 is connected in the bottom in high-order drop pipeline 2, the downstream of described energy dissipating pipeline 3 is connected in the top of the drop pipeline 2 in low level, and the bottom at described drop pipeline 2 is provided with deflector with the position that described energy dissipating pipeline 3 is connected, by described deflector, between described drop pipeline 2 and described energy dissipating pipeline 3, form L-type connecting path.

Further according to high fall dropping type pipeline energy dissipation transporting system of the present invention, wherein said deflector comprises the guide plate 10 that is arranged at drop pipeline 2 inside, the upper surface of described guide plate 10 is connected with the bottom surface smooth transition of described energy dissipating pipeline 3, and the upper surface of described guide plate 10 is not less than the bottom surface of described energy dissipating pipeline 3.

Further according to high fall dropping type pipeline energy dissipation transporting system of the present invention, the upper surface of wherein said guide plate 10 is be connected energy dissipating pipeline bottom surface in same plane, or the upper surface of described guide plate 10 is inclined upwardly 30 ° with interior angle with respect to connected energy dissipating pipeline bottom surface.

Further, according to high fall dropping type pipeline energy dissipation transporting system of the present invention, wherein said drop pipeline 2 and energy dissipating pipeline 3 are circular pipe, and described guide plate 10 is oval blind plate or circular arc trough slab.

Further according to high fall dropping type pipeline energy dissipation transporting system of the present invention, wherein said deflector is the diversion seat 12 being arranged in drop pipeline 2 bottoms, the upper surface of described diversion seat 12 is connected with the bottom surface smooth transition of described energy dissipating pipeline 3, and the upper surface of described diversion seat 12 is not less than the bottom surface of described energy dissipating pipeline 3.

Further according to high fall dropping type pipeline energy dissipation transporting system of the present invention, the upper surface of wherein said diversion seat 12 is be connected energy dissipating pipeline bottom surface in same plane, or the upper surface of described diversion seat 12 is inclined upwardly 30 ° with interior angle with respect to connected energy dissipating pipeline bottom surface.

Further, according to high fall dropping type pipeline energy dissipation transporting system of the present invention, wherein said drop pipeline 2 and energy dissipating pipeline 3 are circular pipe, and the upper surface of described diversion seat 12 is ellipsoid or the cylndrical surface corresponding with energy dissipating pipeline 3 cylndrical surface, bottom.

Further according to high fall dropping type pipeline energy dissipation transporting system of the present invention, angle between wherein said drop pipeline 2 and vertical direction in 20 °, described energy dissipating pipeline 3 with respect to the downward-sloping setting of substantially horizontal and angle of inclination in 30 °.

Further according to high fall dropping type pipeline energy dissipation transporting system of the present invention, the upstream extremity of wherein said energy dissipating pipeline 3 is connected in the bottom sidewall of drop pipeline 2, and forms water conservancy diversion circular arc 11 between the sidewall of described drop pipeline and the end face of energy dissipating pipeline.

Further according to high fall dropping type pipeline energy dissipation transporting system of the present invention, wherein also comprise deckered stock chest 5, feeding pump 6, distribute bucket 7, filter 8 and transport tape 9, described deckered stock chest 5 is arranged at a high position for massif and the pumping entrance that its bottom outlet is connected in feeding pump 6, the pumping outlet of described feeding pump 6 is connected in the top of drop pipeline 2, the bottom of last root drop pipeline 2 in low level is connected in the top of distributing bucket 7 by energy dissipating pipeline 3, the described bottom of bucket 7 of distributing is connected in the entry end of filter 8 by pipeline, the filtering outlet of described filter 8 is over against described transport tape 9.

By technological scheme of the present invention, at least can reach following technique effect:

1), the present invention is by the L-type linkage structure between innovative design drop pipeline and energy dissipating pipeline, make can flow to smoothly, swimmingly energy dissipating pipeline from the ore pulp slurry of drop pipeline, and eliminated eddy current wear phenomenon pipeline being caused because of slurry buffering, overflow completely, to greatest extent high drop slurry kinetic energy has been carried out to energy dissipating, greatly improved service life and the Applicable scope of Slurry Pipeline Transportation system.

2), by the solution of the present invention, greatly reduce maintenance rate, rate of fault and the maintenance rate to height above sea level, the steep region of gradient slurry pipeline, a large amount of man power and materials have been saved.

3), by the solution of the present invention when improving Slurry Pipeline Transportation efficiency, effectively guaranteed Slurry Pipeline Transportation safety, promoted Technology of Slurry Pipeline Delivery multi-field and polytopic applying.

4), scheme of the present invention easily realizes, and can not cause the large structural change of traditional Slurry Pipeline Transportation system simultaneously, realizes with low costly, market prospects are wide.

Accompanying drawing explanation

Accompanying drawing 1 is the structural representation of drop type pipe-line transportation system in prior art;

Accompanying drawing 2 is the overall structure schematic diagram of high fall dropping type pipeline energy dissipation transporting system of the present invention;

Accompanying drawing 3 is the linkage structure schematic diagram between drop pipeline and energy dissipating pipeline in high fall dropping type pipeline energy dissipation transporting system of the present invention.

In figure, the implication of each reference character is as follows:

1-massif, 2-drop pipeline, 3-energy dissipating pipeline, 4-fixing part, 5-deckered stock chest, 6-feeding pump, 7-distribution bucket, 8-filter, 9-transport tape, 10-guide plate, 11-water conservancy diversion circular arc, 12-diversion seat.

Embodiment

Below in conjunction with accompanying drawing, technological scheme of the present invention is described in detail, so that those skilled in the art can more clearly understand the present invention, but does not therefore limit the scope of the invention.

As shown in Figure 2, high fall dropping type pipeline energy dissipation transporting system of the present invention comprises deckered stock chest 5, feeding pump 6, drop pipeline 2, energy dissipating pipeline 3, distribute bucket 7, filter 8 and transport tape 9, described deckered stock chest 5 is built in the massif top of high height above sea level, the bottom outlet of deckered stock chest 5 is connected in the pumping entrance of feeding pump 6, the pumping outlet of feeding pump 6 is connected in the top of drop pipeline 2, territorial environment for high drop, described pipe-line transportation system includes many drop pipelines 2 and energy dissipating pipeline 3, the bottom of every drop pipeline 2 is all goed deep in massif as the fixing part of whole pipe-line system, between any two adjacent drop pipelines 2, by an energy dissipating pipeline 3, be communicated with, one end of concrete energy dissipating pipeline 3 is connected to the bottom of the drop pipeline 2 that is positioned at high position, the other end of energy dissipating pipeline 3 is connected to the top of the drop pipeline 2 that is positioned at lower position, the outlet end of the energy dissipating pipeline 3 that last root drop pipeline 2 in low level connects is connected in the top of distributing bucket 7, the described bottom of bucket 7 of distributing is connected in the entry end of filter 8 by pipeline, the filtering outlet of filter 8 is over against transport tape 9.Like this by pipeline energy dissipation transporting system of the present invention, from the slurry in the deckered stock chest 5 of high height above sea level successively by after multistage drop pipeline 2 and 3 energy dissipatings of energy dissipating pipeline, greatly alleviated huge kinetic energy when slurry is transported at the foot of the hill from the hilltop, finally by transport tape 9, slurry is exported to the destruction that while having alleviated high drop Slurry Pipeline Transportation, slurry kinetic energy causes receiver terminal device.

In order further to reduce slurry rate of descent, reduce the kinetic energy that slurry has when eminence falls, the connection layout to drop pipeline 2 and energy dissipating pipeline 3 of the present invention's innovation improves, first described drop pipeline 2 is substantially vertically arranged, and the angle between vertical direction is within 20 °, and the interior fixing part 4 as pipe-line system of massif is inserted in the bottom of drop pipeline 2, this mode greatly facilitates pipe-line system fixing on high drop massif, the slightly downward-sloping mode of described energy dissipating pipeline 3 along continuous straight runs arranges, angle of inclination is that the angle between energy dissipating pipeline 3 and substantially horizontal is 0-30 °, 0-20 ° preferably, preferred at 10-20 °, from the slurry of drop pipeline 2, entering the rear basic along continuous straight runs of energy dissipating pipeline 3 like this flows, greatly alleviated the vertical drop kinetic energy of slurry in drop pipeline 2.Because the bottom of every drop pipeline 2 need to be inserted in massif as fixing part 4, therefore the upstream extremity (slurry input end) of every energy dissipating pipeline 3 cannot be connected to the bottom of the drop pipeline 2 that is positioned at high position, conventionally the upstream extremity of energy dissipating pipeline 3 is connected in drop pipeline 2 with a certain distance from the bottom sidewall of its bottom, the eddy current forming in drop pipeline 2 bottoms for fear of slurry produces heavy wear to pipeline, what the present invention innovated arranges deflector in drop pipeline 2 bottoms with the position that energy dissipating pipeline 3 is connected, by described deflector, drop pipeline 2 and 3, energy dissipating pipeline are modified into L-type connecting path by original T-shaped connecting path, L-type connecting path is compared with T-shaped connecting path, making can be level and smooth from the ore pulp slurry in drop pipeline, flow to smoothly energy dissipating pipeline 3, little without sharp turn and slurry stream dynamic resistance, vibrate little, and eliminated the eddy current that slurry is produced to overflow by drop pipeline bottom completely, the wearing and tearing of slurry to drop pipeline and energy dissipating pipeline junction have greatly been alleviated.Concrete deflector can be guide plate and supporting element thereof, or is diversion seat 12, as shown in Figure 3.When adopting guide plate as deflector, as shown in Figure 3, described guide plate 10 radially arranges the whole of drop pipeline 2 bottoms, and the upper surface of guide plate 10 and energy dissipating pipeline 3 bottom surfaces are smoothly connected, be that both are substantially in same plane, preferred described guide plate upper surface is inclined upwardly slightly with respect to energy dissipating pipeline bottom surface, and angle θ between the two is as shown in Figure 3 between 150 °-180 °, so that ore pulp slurry flows to energy dissipating pipeline 3 smoothly.When drop pipeline 2 and energy dissipating pipeline 3 are circular pipe, described guide plate 10 is preferably that to be arranged at drop pipeline inner and with respect to the be inclined upwardly oval blind plate at 0-30 ° of angle of energy dissipating pipeline lowermost end bus, preferred described guide plate 10 can be selected the circular arc trough slab corresponding with the bottom semicircle bottom shape of described energy dissipating pipeline 3, and described circular arc trough slab is with respect to energy dissipating pipeline 3 bottom face be slightly inclined upwardly (tilt angle is in 0-30 °).Those skilled in the art also can select the structural form of described guide plate as required within the scope of the design of patent of the present invention.Bottom at described guide plate 10 is provided with supporting element, and can supporting slurry, to flow to guide plate be downwards the impact force to its generation.Further can adopt the diversion seat 12 shown in accompanying drawing 3 to replace above-mentioned guide plate and its supporting element as deflector, described diversion seat 12 is arranged at the whole bottom inner chamber of drop pipeline, and the upper surface of diversion seat 12 plays the effect the same with described guide plate, therefore upper surface and energy dissipating pipeline 3 bottom surfaces of described diversion seat should be substantially in same planes, the upper surface of preferred described diversion seat is with respect to energy dissipating pipeline bottom surface be slightly inclined upwardly (within 30 ° of angles), diversion seat upper surface as shown in Figure 3 and the angle θ between energy dissipating pipeline 3 bottom surfaces (bottom surface bus) are between 150 °-180 °, so that ore pulp slurry flows to energy dissipating pipeline 3 smoothly, in like manner the shape of described diversion seat upper surface also can be selected flexibly according to the structure shape of energy dissipating pipeline 3 and drop pipeline 2, as as described in diversion seat upper surface can be acclivitous ellipsoid, or the upper surface of described diversion seat is the cylndrical surface corresponding with energy dissipating pipeline 3 cylndrical surface, bottom, in a word as long as can be smoothly connected between described diversion seat upper surface and energy dissipating pipeline bottom surface, to guarantee flowing to energy dissipating pipeline from the slurry in drop pipeline by L-type path.Further drop pipeline sidewall is connected by arc transition with energy dissipating pipeline end face, between drop pipeline sidewall and energy dissipating pipeline end face, forms water conservancy diversion circular arc 11 as shown in Figure 3, further to reduce the frictional loss of slurry to both joints.

This patent is by the multistage drop pipeline of innovative design and energy dissipating pipeline and the connecting passage of drop pipelines at different levels and energy dissipating pipe piece is modified into L-type structure, eliminated the corner angle wear phenomenon that eddy current that ore pulp in drop pipeline forms when the buffering overflow of its bottom causes pipeline junction, improved pipeline working life, greatly reduce rate of fault and the maintenance rate of high Drop In Height Pipeline system, and then reduced high Drop In Height Pipeline cost of transportation.When pipe-line system relies on drop pipeline bottom as pipe-line system fixing part described in this patent in addition, the connecting passage of drop pipeline and energy dissipating pipeline enclosure is modified into L-type passage, do not causing that the wear problem of pipe coupling place occurs to have solved under the large prerequisite changing whole pipe-line system structure, therefore scheme of the present invention is applied easy and simple to handle, especially large for current production task pressure, produce saturated, not allow to have on producing any rest time high drop slurry pipeline hauling operation, practicability is very strong, has wide market prospects.

Below be only that the preferred embodiment of the present invention is described; technological scheme of the present invention is not limited to this; the any known distortion that those skilled in the art do on the basis of major technique of the present invention design all belongs to the claimed technology category of the present invention, and the concrete protection domain of the present invention is as the criterion with the record of claims.

Claims (10)

1. one kind high fall dropping type pipeline energy dissipation transporting system, it is characterized in that, comprise that a high position from high drop massif (1) is to the many drop pipelines (2) that arrange between low level and many energy dissipating pipelines (3), the bottom of every drop pipeline (2) is fixed in massif, between adjacent two drop pipelines (2), by an energy dissipating pipeline (3), be communicated with, the upstream extremity of described energy dissipating pipeline (3) is connected in the bottom in high-order drop pipeline (2), the downstream of described energy dissipating pipeline (3) is connected in the top of the drop pipeline (2) in low level, and the bottom at described drop pipeline (2) is provided with deflector with the position that described energy dissipating pipeline (3) is connected, by described deflector, between described drop pipeline (2) and described energy dissipating pipeline (3), form L-type connecting path.

2. high fall dropping type pipeline energy dissipation transporting system according to claim 1, it is characterized in that, wherein said deflector comprises the guide plate (10) that is arranged at drop pipeline (2) inside, the upper surface of described guide plate (10) is connected with the bottom surface smooth transition of described energy dissipating pipeline (3), and the upper surface of described guide plate (10) is not less than the bottom surface of described energy dissipating pipeline (3).

3. high fall dropping type pipeline energy dissipation transporting system according to claim 2, it is characterized in that, the upper surface of described guide plate (10) is be connected energy dissipating pipeline bottom surface in same plane, or the upper surface of described guide plate (10) is inclined upwardly 30 ° with interior angle with respect to connected energy dissipating pipeline bottom surface.

4. high fall dropping type pipeline energy dissipation transporting system according to claim 2, is characterized in that, described drop pipeline (2) and energy dissipating pipeline (3) are circular pipe, and described guide plate (10) is oval blind plate or circular arc trough slab.

5. high fall dropping type pipeline energy dissipation transporting system according to claim 1, it is characterized in that, wherein said deflector is the diversion seat (12) in being arranged at bottom drop pipeline (2), the upper surface of described diversion seat (12) is connected with the bottom surface smooth transition of described energy dissipating pipeline (3), and the upper surface of described diversion seat (12) is not less than the bottom surface of described energy dissipating pipeline (3).

6. high fall dropping type pipeline energy dissipation transporting system according to claim 5, it is characterized in that, the upper surface of described diversion seat (12) is be connected energy dissipating pipeline bottom surface in same plane, or the upper surface of described diversion seat (12) is inclined upwardly 30 ° with interior angle with respect to connected energy dissipating pipeline bottom surface.

7. high fall dropping type pipeline energy dissipation transporting system according to claim 5, it is characterized in that, described drop pipeline (2) and energy dissipating pipeline (3) are circular pipe, and the upper surface of described diversion seat (12) is ellipsoid or the cylndrical surface corresponding with cylndrical surface, energy dissipating pipeline (3) bottom.

8. according to the high fall dropping type pipeline energy dissipation transporting system described in claim 1-7 any one, it is characterized in that, angle between described drop pipeline (2) and vertical direction in 20 °, described energy dissipating pipeline (3) with respect to the downward-sloping setting of substantially horizontal and angle of inclination in 30 °.

9. according to the high fall dropping type pipeline energy dissipation transporting system described in claim 1-7 any one, it is characterized in that, the upstream extremity of described energy dissipating pipeline (3) is connected in the bottom sidewall of drop pipeline (2), and forms water conservancy diversion circular arc (11) between the sidewall of described drop pipeline and the end face of energy dissipating pipeline.

10. according to the high fall dropping type pipeline energy dissipation transporting system described in claim 1-7 any one, it is characterized in that, also comprise deckered stock chest (5), feeding pump (6), distribute bucket (7), filter (8) and transport tape (9), described deckered stock chest (5) is arranged at a high position for massif and the pumping entrance that its bottom outlet is connected in feeding pump (6), the pumping outlet of described feeding pump (6) is connected in the top of drop pipeline (2), the bottom of last root drop pipeline (2) in low level is connected in the top of distributing bucket (7) by energy dissipating pipeline (3), the described bottom of bucket (7) of distributing is connected in the entry end of filter (8) by pipeline, the filtering outlet of described filter (8) is over against described transport tape (9).