CN205035448U - Prevent priming device that ion type rare earth mine massif slided - Google Patents

Prevent priming device that ion type rare earth mine massif slided Download PDF

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Publication number
CN205035448U
CN205035448U CN201520702572.4U CN201520702572U CN205035448U CN 205035448 U CN205035448 U CN 205035448U CN 201520702572 U CN201520702572 U CN 201520702572U CN 205035448 U CN205035448 U CN 205035448U
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China
Prior art keywords
mould bag
strata
grouting pipe
floor
ore
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CN201520702572.4U
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Chinese (zh)
Inventor
钟久安
楼日新
王全根
李乔斌
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四川共拓岩土科技股份有限公司
盛和资源控股股份有限公司
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Priority to CN201520702572.4U priority Critical patent/CN205035448U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P10/00Technologies related to metal processing
    • Y02P10/20Recycling

Abstract

The utility model discloses a prevent priming device that ion type rare earth mine massif slided, it includes upper mould bag (1), lower floor mould bag (2), slip casting pipe I (5) and slip casting pipe II (6), upper strata mould bag (1) cover is in the upper end of stock (3), lower floor mould bag (2) cover is at the lower extreme of stock (3), slip casting pipe I's (5) the thick liquid mouth that advances sets up the top in upper mould bag (1), be provided with the thick liquid aperture of a plurality of and upper mould bag (1) inner chamber intercommunication on slip casting pipe I's (5) the cylinder, be provided with thick liquid aperture a plurality of and lower floor mould bag (2) inner chamber intercommunication on slip casting pipe II's (6) the cylinder, the liquid outlet setting of annotating liquid pipe (4) is between upper mould bag (1) and lower floor mould bag (2). The beneficial effects of the utility model are that: low in manufacturing cost, avoided the medicament to enter into between non - ore body layer and the ore body layer NOT AND ore body layer, because the effect of stock effectively prevents between clay layer and the ore body layer, produce the sliding phenomenon between ore body layer and the basement rock.

Description

A kind of priming device preventing ion type rareearth ore rock-mass slippage
Technical field
The utility model relates to a kind of priming device preventing ion type rareearth ore rock-mass slippage.
Background technology
The technique of traditional exploitation ion type rareearth is leaching process and heap leaching method, leaching process and heap leaching method are more or less the same, its processing step is first topsoil stripping, excavation is containing mine body again, then ore is transported in mine-dipping pool, with medicament is poured in mine-dipping pool subsequently, and the ionic soluble rare earth in ore body enters in medicament, finally collects mother liquor.But it is serious to there is ecological damage in leaching process and heap leaching method, severe water and soil erosion, the defect of ecological recovery difficulty.
Therefore, people's many employings in_situ leaching technique carries out collection mother liquor, in_situ leaching technique first on mine, beats liquid filling hole, medicament is added again to reach the object in leaching ore deposit in liquid filling hole, ionic soluble rare earth in ore body layer enters in medicament to become mother liquor, mother liquor flows out from mine, finally be collected, thus achieve the extraction of ion type rareearth, therefore in_situ leaching technique is without the need to excavating massif, and only beat a small amount of liquid filling hole and receive liquid tunnel, this technique is very little to ecological damage, and surface mining, Jin Kuang factory and tailings factory etc. can not be formed discardedly, ecological recovery is easy.If but when fluid injection intensity (i.e. medicament injection speed too fast or injection rate is excessive), contact part between clay seam and ore body layer, contact part between ore body layer and basement rock produce slippage, finally cause landslide, normal extraction can not be carried out to ion type rareearth in ore body.
Utility model content
The purpose of this utility model is the shortcoming overcoming prior art, provide a kind of medicament can be avoided to enter into non-ore body layer and between ore body layer and non-ore body layer, low cost of manufacture, to produce sliding phenomenon between clay seam and ore body layer, between ore body layer and basement rock because the effect of anchor pole effectively prevent, use the priming device simply preventing ion type rareearth ore rock-mass slippage.
The purpose of this utility model is achieved through the following technical solutions: a kind of priming device preventing ion type rareearth ore rock-mass slippage, it comprises upper strata mould bag, lower floor's mould bag, anchor pole, liquid injection tube, Grouting Pipe I and Grouting Pipe II, described upper strata mould bag is enclosed within the upper end of anchor pole, lower floor's mould bag is enclosed within the lower end of anchor pole, described Grouting Pipe I is from insertion upper strata, the top mould bag of upper strata mould bag, the pastry mouth of Grouting Pipe I is arranged on the top of upper strata mould bag, the cylinder of Grouting Pipe I is provided with pulp aperture that is multiple and upper strata mould bag inner space, described Grouting Pipe II runs through upper strata mould bag from the top of upper strata mould bag and inserts in lower floor's mould bag, the pastry mouth of Grouting Pipe II is arranged on the top of upper strata mould bag, the cylinder of Grouting Pipe II is provided with pulp aperture that is multiple and lower floor's mould bag inner space, described liquid injection tube runs through upper strata mould bag and arranges from the top of upper strata mould bag, and the fluid inlet of liquid injection tube is arranged on the top of upper strata mould bag, the liquid outlet of liquid injection tube is arranged between upper strata mould bag and lower floor's mould bag.
Described upper strata mould bag and the two ends of lower floor's mould bag all by wire colligation on anchor pole.
The all vertical setting of described anchor pole, liquid injection tube, Grouting Pipe I and Grouting Pipe II.
The contact position of the contact position of described liquid injection tube and upper strata mould bag, Grouting Pipe I and upper strata mould bag is all by wire colligation.
The contact position at described Grouting Pipe II and two ends, Mo Dai upper end, upper strata is all by wire colligation, and the contact position of described Grouting Pipe II and lower floor's mould bag upper end is by wire colligation.
The diameter of described anchor pole is 16 ~ 36mm.
Described anchor pole also can be fixed link.
The utility model has the following advantages: the utility model effectively prevent due to when medicament injection speed is too fast or injection rate is excessive, and the phenomenon that the boundary between clay seam and ore body layer, boundary between ore body layer and basement rock produce slippage causes and landslide occurs.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is operating diagram of the present utility model;
In figure, 1-upper strata mould bag, 2-lower floor mould bag, 3-anchor pole, 4-liquid injection tube, 5-Grouting Pipe I, 6-Grouting Pipe II, 7-wire, 8-clay seam, 9-ore body layer, 10-basement rock, 11-liquid filling hole.
Embodiment
Be further described the utility model below in conjunction with accompanying drawing, protection domain of the present utility model is not limited to the following stated:
Embodiment one: as shown in Figure 1, a kind of priming device preventing ion type rareearth ore rock-mass slippage, it comprises upper strata mould bag 1, lower floor's mould bag 2, anchor pole 3, liquid injection tube 4, Grouting Pipe I5 and Grouting Pipe II6, described upper strata mould bag 1 is enclosed within the upper end of anchor pole 3, lower floor's mould bag 2 is enclosed within the lower end of anchor pole 3, the two ends of upper strata mould bag 1 and lower floor's mould bag 2 all by wire 7 colligation on anchor pole 3, the diameter of anchor pole 3 is 16 ~ 36mm.
As shown in Figure 1, Grouting Pipe I5 is from insertion upper strata, the top mould bag 1 of upper strata mould bag 1, the pastry mouth of Grouting Pipe I5 is arranged on the top of upper strata mould bag 1, the cylinder of Grouting Pipe I5 is provided with pulp aperture that is multiple and upper strata mould bag 1 inner space, described Grouting Pipe II6 runs through upper strata mould bag 1 from the top of upper strata mould bag 1 and inserts in lower floor's mould bag 2, the pastry mouth of Grouting Pipe II6 is arranged on the top of upper strata mould bag 1, the cylinder of Grouting Pipe II6 is provided with pulp aperture that is multiple and lower floor's mould bag 2 inner space, described liquid injection tube 4 runs through upper strata mould bag 1 from the top of upper strata mould bag 1 and arranges, and the fluid inlet of liquid injection tube 4 is arranged on the top of upper strata mould bag 1, the liquid outlet of liquid injection tube 4 is arranged between upper strata mould bag 1 and lower floor's mould bag 2.
As shown in Figure 1, all vertical setting of institute's anchor pole 3, liquid injection tube 4, Grouting Pipe I5 and Grouting Pipe II6, the contact position of the contact position of liquid injection tube 4 and upper strata mould bag 1, Grouting Pipe I5 and upper strata mould bag 1 is all by wire 7 colligation; The contact position at Grouting Pipe II6 and two ends, mould bag 1 upper end, upper strata is all by wire 7 colligation, and the contact position of described Grouting Pipe II6 and lower floor's mould bag 2 upper end is by wire 7 colligation.
As shown in Figure 2, the working process step of the present embodiment one is as follows:
Step one: drilling liquid filling hole, utilize rig to drill clay seam 8 and ore body layer 9 downwards in turn from the top of clay seam 8, and pierce the degree of depth 2 ~ 2.4m in basement rock 10, borehole diameter is not less than 50mm, thus forms liquid filling hole 11;
Step 2: first by shown in diagram 1, by upper strata mould bag 1, lower floor's mould bag 2, anchor pole 3, liquid injection tube 4, Grouting Pipe I5, Grouting Pipe II6 adopts wire 7 colligation to assemble, distance between upper strata mould bag 1 and lower floor's mould bag 2 is determined according to ore body layer thickness, anchor pole 3 is guaranteed to be inserted at the bottom of the hole of liquid filling hole 11, and ensure that the line of delimitation between clay seam 8 and ore body layer 9 is all more than or equal to 50cm far from the vertical distance of the upper and lower ends of upper strata mould bag 1, ensure the upper of the line of delimitation distance lower floor mould bag 2 between ore body layer 9 and basement rock 10 simultaneously, the vertical distance of lower end is all more than or equal to 50cm,
Step 3: the injection of grout, entrance through Grouting Pipe I5 injects grout, the pulp aperture of grout on Grouting Pipe I5 enters in upper strata mould bag 1, the grout injected makes the volume of upper strata mould bag 1 increase gradually, the boundary between clay seam 8 and ore body layer 9 is tightly fitted under the effect that upper strata mould bag 1 spreads at cement, increase the bonding strength between clay seam 8 and ore body layer 9, under the effect of anchor pole 3, avoid the phenomenon occurring slippage and landslide between clay seam 8 and ore body layer 9, thus achieve the slip casting of upper strata mould bag 1; Entrance simultaneously through Grouting Pipe II6 injects grout, the pulp aperture of grout on Grouting Pipe II6 enters in lower floor's mould bag 2, the grout injected makes the volume of lower floor's mould bag 2 increase gradually, the line of delimitation place between ore body layer 9 and basement rock 10 is tightly fitted under the effect that lower floor's mould bag 2 spreads at cement, increase the bonding strength of ore body layer 9 and basement rock 10, under the effect of anchor pole 3, avoid the phenomenon occurring slippage and landslide between ore body layer 9 and basement rock 10, thus achieve the slip casting of lower floor's mould bag 2;
Step 4: the injection of medicament, inlet end through liquid injection tube 4 passes into liquid injection tube 4, medicament enters in the region between upper strata mould bag 1 and lower floor's mould bag 2 in liquid filling hole 11, thus achieve the injection of medicament, ion type rareearth in ore body dissolves in medicament by medicament becomes mother liquor, under the water conservancy diversion of the peripheral liquid guide system of ore body, achieve the collection of mother liquor, the method effectively prevent due to when medicament injection speed is too fast or injection rate is excessive, boundary between clay seam 8 and ore body layer 9, the phenomenon that boundary between ore body layer 9 and basement rock 10 produces slippage causes generation massif to come down, also avoid medicament simultaneously and enter into non-ore body layer and between ore body layer and non-ore body layer.
Embodiment two: the distinctive points of this embodiment and embodiment one is: described anchor pole 3 is fixed link, and water is passed in upper strata mould bag 1 and lower floor's mould bag 2, feedwater simultaneously applies pressure effect, and high pressure water makes upper strata mould bag 1, lower floor's mould bag 2 and hole wall close contact.After fluid injection completes, pressure release power, can propose priming device in hole, this priming device is just reusable, greatly provides cost savings.
The above is only preferred implementation of the present utility model, be to be understood that the utility model is not limited to the form disclosed by this paper, should not regard the eliminating to other embodiments as, and can be used for other combinations various, amendment and environment, and can in contemplated scope described herein, changed by the technology of above-mentioned instruction or association area or knowledge.And the change that those skilled in the art carry out and change do not depart from spirit and scope of the present utility model, then all should in the protection domain of the utility model claims.

Claims (7)

1. one kind prevents the priming device of ion type rareearth ore rock-mass slippage, it is characterized in that: it comprises upper strata mould bag (1), lower floor's mould bag (2), anchor pole (3), liquid injection tube (4), Grouting Pipe I(5) and Grouting Pipe II(6), described upper strata mould bag (1) is enclosed within the upper end of anchor pole (3), lower floor's mould bag (2) is enclosed within the lower end of anchor pole (3), described Grouting Pipe I(5) from the insertion upper strata, top mould bag (1) on upper strata mould bag (1), Grouting Pipe I(5) pastry mouth be arranged on the top on upper strata mould bag (1), Grouting Pipe I(5) cylinder on be provided with pulp aperture that is multiple and upper strata mould bag (1) inner space, described Grouting Pipe II(6) run through upper strata mould bag (1) from the top on upper strata mould bag (1) and insert in lower floor's mould bag (2), Grouting Pipe II(6) pastry mouth be arranged on the top on upper strata mould bag (1), Grouting Pipe II(6) cylinder on be provided with pulp aperture that is multiple and lower floor's mould bag (2) inner space, described liquid injection tube (4) runs through upper strata mould bag (1) and arranges from the top on upper strata mould bag (1), and the fluid inlet of liquid injection tube (4) is arranged on the top on upper strata mould bag (1), the liquid outlet of liquid injection tube (4) is arranged between upper strata mould bag (1) and lower floor's mould bag (2).
2. a kind of priming device preventing ion type rareearth ore rock-mass slippage according to claim 1, is characterized in that: described upper strata mould bag (1) and the two ends of lower floor's mould bag (2) all by wire (7) colligation on anchor pole (3).
3. a kind of priming device preventing ion type rareearth ore rock-mass slippage according to claim 1, is characterized in that: described anchor pole (3), liquid injection tube (4), Grouting Pipe I(5) and Grouting Pipe II(6) all vertical setting.
4. a kind of priming device preventing ion type rareearth ore rock-mass slippage according to claim 1 or 3, is characterized in that: the contact position on described liquid injection tube (4) and upper strata mould bag (1), Grouting Pipe I(5) with the contact position on upper strata mould bag (1) all by wire (7) colligation.
5. a kind of priming device preventing ion type rareearth ore rock-mass slippage according to claim 1, it is characterized in that: described Grouting Pipe II(6) with the contact position at mould bag (1) two ends, upper end, upper strata all by wire (7) colligation, described Grouting Pipe II(6) pass through wire (7) colligation with the contact position of lower floor mould bag (2) upper end.
6. a kind of priming device preventing ion type rareearth ore rock-mass slippage according to claim 1, is characterized in that: the diameter of described anchor pole (3) is 16 ~ 36mm.
7. a kind of priming device preventing ion type rareearth ore rock-mass slippage according to claim 1, is characterized in that: described anchor pole (3) also can be fixed link.
CN201520702572.4U 2015-09-11 2015-09-11 Prevent priming device that ion type rare earth mine massif slided CN205035448U (en)

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Application Number Priority Date Filing Date Title
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105177282A (en) * 2015-09-11 2015-12-23 四川共拓岩土科技股份有限公司 Liquid injection device for preventing ion-type rare earth mine bodies from slipping

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105177282A (en) * 2015-09-11 2015-12-23 四川共拓岩土科技股份有限公司 Liquid injection device for preventing ion-type rare earth mine bodies from slipping
CN105177282B (en) * 2015-09-11 2017-05-10 四川共拓岩土科技股份有限公司 Liquid injection device for preventing ion-type rare earth mine bodies from slipping

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Granted publication date: 20160217

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