CN109340572A - Ore pulp gives mine system - Google Patents

Abstract

Mine system is given the invention discloses a kind of ore pulp, including baffle box and leads slurry chute, and the arrival end of the baffle box be connected to ore slurry pipeline, and described lead starches chute and be downwardly inclined setting and be connected to the outlet end of baffle box；Multiple energy dissipation piers are equipped with inside the baffle box.The present invention on ore slurry pipeline by being arranged baffle box, energy dissipation pier is set in baffle box, energy dissipating is carried out to the ore pulp in conveying, reduce the potential energy of pulp conveying, and the ore pulp after energy dissipating is shunted by leading slurry chute, ore pulp can be uniformly sent into subsequent production, the quality of subsequent finished product can be effectively improved.

Description

Ore pulp gives mine system

Technical field

The present invention relates to mineral processing production technical field, especially a kind of ore pulp gives mine system.

Background technique

Dressing plant in process of production, often since topography height difference and environment influence, needs to be pumped with ore slurry pump Ore pulp, by pulp conveying to destination, ore pulp is too strong due to potential energy during transportation, will cause when docking with subsequent handling Ore pulp sputtering, pulp conveying is difficult to even and feeds subsequent handling, and it is unstable to will cause production environment, influences subsequent production, Therefore it needs to cut down the potential energy of ore pulp during pulp conveying, ore pulp can be evenly supplied in subsequent handling.

Summary of the invention

The technical problems to be solved by the present invention are: providing a kind of can carry out efficiency to the ore pulp in conveying and spare to mine Ore pulp give mine system.

To solve above-mentioned technical problem the technical scheme adopted by the invention is that: ore pulp gives mine system, including baffle box and Slurry chute is led, the arrival end of the baffle box is connected to ore slurry pipeline, and the slurry chute of leading is downwardly inclined setting and and baffle box Outlet end connection；Multiple energy dissipation piers are equipped with inside the baffle box.

Further, the energy dissipation pier parallel arrangement is in the bottom of baffle box.

Further, the slurry chute of leading is flaring structure, leads slurry chute and branch into multiple points of slots.

Further, the surface of the energy dissipation pier is made of sequentially connected fair current face, choked flow face and energy dissipating face；It is described Fair current face extends downward into choked flow face by starting point of the junction of baffle box and ore slurry pipeline, and the choked flow face is curved upward Cambered surface, energy dissipating face are to extend to baffle box downward and lead the cambered surface of slurry chute junction, the choked flow face and energy dissipating face circular arc mistake Degree.

The beneficial effects of the present invention are: the present invention by the way that baffle box is arranged on ore slurry pipeline, is arranged in baffle box and disappears Can pier energy dissipating is carried out to the ore pulp in conveying, reduce the potential energy of pulp conveying, and by lead slurry chute to the ore pulp after energy dissipating into Row shunts, and ore pulp can be uniformly sent into subsequent production, the quality of subsequent finished product can be effectively improved.

Detailed description of the invention

Fig. 1 is cross-sectional view of the invention；

Fig. 2 is top view of the invention；

In the figure, it is marked as 1- baffle box, 2- lead slurry chute, 21- divide slot, 3- ore slurry pipeline, 4- energy dissipation pier, the fair current face 41-, The choked flow face 42-, the energy dissipating face 43-.

Specific embodiment

To facilitate the understanding of the present invention, the present invention is further detailed with reference to the accompanying drawing.

As depicted in figs. 1 and 2, ore pulp of the present invention is made of baffle box 1 with slurry chute 2 is led to mine system, energy dissipating The arrival end of case 1 is connected to ore slurry pipeline 3, and ore slurry pump is pumped ore pulp and conveyed by ore slurry pipeline 3 to destination, due to high-land Low difference, ore pulp generate very big potential energy during transportation, need to carry out energy dissipating to ore pulp in order to avoid influencing subsequent production.The present invention In order to realize the energy dissipating to ore pulp, inside baffle box 1 be equipped with multiple energy dissipation piers 4,4 quantity of energy dissipation pier according to transfer ore pulp amount into Row selection, multiple 4 parallel arrangements of energy dissipation pier are in the bottom of baffle box, after ore pulp is transported in baffle box 1, by energy dissipation pier 4 Energy dissipating after flow into be connected to 1 outlet end of baffle box lead starch chute 2 in, lead starch chute 2 be downwardly inclined.For reality in the present invention Existing ore pulp spares to mine, will lead slurry chute 2 and is set as flaring structure, and is equipped with multiple points of slots 21, ore pulp on leading slurry chute 2 Destination is delivered to after being divided 21 uniform divided flows of slot.

As shown in Figure 1, the surface of energy dissipation pier 4 is made of sequentially connected fair current face 41, choked flow face 42 and energy dissipating face 43；It is suitable Stream interface 41 extends downward into choked flow face by starting point of the junction of baffle box 1 and ore slurry pipeline 3, and choked flow face 42 is curved upward Cambered surface, energy dissipating face 43 are to extend to baffle box 1 downward and lead the cambered surface of slurry 2 junction of chute, choked flow face 42 and the circle of energy dissipating face 43 Arc is excessive.After ore pulp is delivered in baffle box 1 by ore slurry pipeline 3, first flow downward along fair current face 41, the gradient in fair current face 41 Less than the gradient of ore slurry pipeline 3, preliminary energy dissipating is first carried out to ore pulp by the reduction of the transport path gradient, first slowly reduces ore pulp Potential energy, then by choked flow face 42 to ore pulp choked flow, the flow velocity and potential energy of ore pulp is greatly lowered, finally by energy dissipating face 43 Last energy dissipating is carried out to ore pulp.

Claims (4)

1. ore pulp gives mine system, it is characterised in that: including baffle box (1) and lead slurry chute (2), the entrance of the baffle box (1) End is connected to ore slurry pipeline (3), and slurry chute (2) of leading is downwardly inclined setting and is connected to the outlet end of baffle box (1)；It is described Multiple energy dissipation piers (4) are equipped with inside baffle box (1).

2. ore pulp as described in claim 1 gives mine system, it is characterised in that: energy dissipation pier (4) parallel arrangement is in baffle box (2) bottom.

3. ore pulp as described in claim 1 gives mine system, it is characterised in that: slurry chute (2) of leading is flaring structure, leads slurry Chute (2) branches into multiple points of slots (21).

4. ore pulp as described in claim 1 gives mine system, it is characterised in that: the surface of the energy dissipation pier (4) is by being sequentially connected Fair current face (41), choked flow face (42) and energy dissipating face (43) composition；The fair current face (41) is with baffle box (1) and ore slurry pipeline (3) junction is that starting point extends downward into choked flow face, and the choked flow face (42) is that curved cambered surface, energy dissipating face (43) are upward Baffle box (1) is extended to downward and leads the cambered surface of slurry chute (2) junction, the choked flow face (42) and energy dissipating face (43) circular arc mistake Degree.