CN204302051U - Sampler - Google Patents

Abstract

The utility model relates to ore dressing plant sampling pulp technical field, especially relates to sampler, comprising: the first sampler, receiving system, sample ore gathering-device, driving mechanism, controller, and housing; First sampler is used for being arranged in ore slurry pipeline, to collect the ore pulp in ore slurry pipeline; Receiving system is communicated with the first sampler; Sample ore gathering-device is arranged on the below of the first sampler, for receiving the ore pulp that the first sampler flows out; Driving mechanism is connected with receiving system, for driving receiving system to move, flows in sample ore gathering-device to make the ore pulp in receiving system; Driving mechanism is electrically connected with controller, and controller moves receiving device for controlling drives structure.Due to the sampler that the utility model provides, it is sampled by machine, thus the sample that manually goes avoided in correlation technique exists many uncertain factors, so ore pulp representativeness improves, thus makes the Quality advance of last sample.

Description

Sampler

Technical field

The utility model relates to ore dressing plant sampling pulp technical field, especially relates to sampler.

Background technology

Ore dressing plant sampling is to calculate mineral processing production technical indicator, determining product quality and check the condition of production, take the process of representative sample ore in ore dressing plant.Sampling not only will have strict takes method, but also needs correct sample processing preparation process, to ensure the minimum mass of representativeness of sample and sample.

In correlation technique ore dressing plant sampling pulp process in, be generally pass through manual sampling.And representative in order to ensure sample ore, need strictly according to sampling the interval time sampled and sample time.So sampling personnel needed according to predetermined sampling interval time and sample time, sample from ore slurry pipeline, after repeatedly sampling, obtain sample ore.

But, because manual sampling exists many uncertain factors in correlation technique, such as: sampling personnel are according to the number of times preset and time, sample bucket is utilized to sample to default sample point, although, sampling personnel can utilize alarm clock or utilize other device to remind sampling personnel sampling, and sample personnel once busy not on alarm clock or other alarm set side, or go out the laziness of sampling personnel, cause and miss correct sample time or cause sampling number of times to reduce etc., so, the representativeness of ore pulp can be made to reduce, thus cause the quality of last sample to reduce.

Utility model content

The purpose of this utility model is to provide sampler and sampling shampoo paste, low to solve the ore pulp representativeness existed in prior art, the low-quality technical problem of last sample.

The sampler that the utility model provides, comprising: the first sampler, receiving system, sample ore gathering-device, driving mechanism, controller, and for supporting the housing of receiving system and driving mechanism; First sampler is used for being arranged in ore slurry pipeline, to collect the ore pulp in ore slurry pipeline; Receiving system is communicated with the first sampler; Sample ore gathering-device is arranged on the below of the first sampler, for receiving the ore pulp that the first sampler flows out; Driving mechanism is connected with receiving system, for driving receiving system to move, flows in sample ore gathering-device to make the ore pulp in receiving system; Driving mechanism is electrically connected with controller, and controller moves receiving device for controlling drives structure.

Further, the first sampler is the hollow housing of both ends open; The one end open of the first sampler is communicated with receiving system; The other end opening of the first sampler is rectangle, and its long limit is used for vertically being arranged in ore slurry pipeline.

Further, the first sampler, towards the direction near receiving system, in gradually-reducing shape.

Further, driving mechanism is cylinder, and one end of cylinder is fixed on housing, and the other end is connected with receiving system.

Further, receiving system is flexible pipe; One end of flexible pipe is communicated with the first sampler, and the other end is arranged in housing; Driving mechanism is connected with the sidewall of flexible pipe.

Further, sample ore gathering-device comprises the second sampler and sample ore bucket; Second sampler is the hollow housing of both ends open, and the second sampler is arranged in housing; The one end open of the second sampler is communicated with the sample ore bucket be arranged on outside housing by pipeline; Second sampler is gradually-reducing shape towards the one end near pipeline; The ore pulp that second sampler flows out for receiving receiving system.

Further, housing is the hollow housing of both ends open; The lower ending opening of housing is used for being communicated with flotation trough.

The sampler that the utility model provides, it comprises drive system, the first sampler, receiving system, driving mechanism, controller and sample ore gathering-device.When not sampling, the ore pulp that the first sampler intercepts from ore slurry pipeline is flowed out by receiving system.When sampling, controller starts driving mechanism and drives receiving system to move, thus makes receiving system move to the top of sample ore gathering-device, and passes through from the top of ore pulp gathering-device, and then the ore pulp that receiving system is flowed out flows in sample ore gathering-device.Subsequently, receiving system is moved to original position according to former route by driving mechanism again, and receiving device is passed through again above ore pulp gathering-device, and ore pulp flows in sample ore gathering-device again, thus completes primary sample.Due to the sampler that the utility model provides, it controls driving mechanism by controller, thus sample according to the sample interval of presetting and sampling number of times, thus the sample that manually goes avoided in correlation technique exists many uncertain factors, strictly according to the sample interval of presetting, per tour sampling number of times, and the speed of driving mechanism motion samples, so ore pulp representativeness improves, thus makes the Quality advance of last sample.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model detailed description of the invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in detailed description of the invention or description of the prior art below, apparently, accompanying drawing in the following describes is embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The structural representation of sampler when not sampling that Fig. 1 provides for the utility model embodiment;

The structural representation of sampler when sampling that Fig. 2 provides for the utility model embodiment.

Reference numeral:

1-first sampler; 2-receiving system; 3-sample ore gathering-device;

4-housing; 5-driving mechanism; 6-ore slurry pipeline;

7-magnetic valve; 8-flotation trough; 31-second sampler;

32-pipeline; 33-sample bucket.

Detailed description of the invention

Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

In description of the present utility model, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

The structural representation of sampler when not sampling that Fig. 1 provides for the utility model embodiment; The structural representation of sampler when sampling that Fig. 2 provides for the utility model embodiment; As depicted in figs. 1 and 2, the sampler that the present embodiment provides, comprising: the first sampler 1, receiving system 2, sample ore gathering-device 3, driving mechanism 5, controller, and for supporting the housing 4 of receiving system 2 and driving mechanism 5; First sampler 1 for being arranged in ore slurry pipeline 6, to collect the ore pulp in ore slurry pipeline 6; Receiving system 2 is communicated with the first sampler 1; Sample ore gathering-device 3 is arranged on the below of the first sampler 1, for receiving the ore pulp that the first sampler 1 flows out; Driving mechanism 5 is connected with receiving system 2, for driving receiving system 2 to move, flows in sample ore gathering-device 3 to make the ore pulp in receiving system 2; Driving mechanism is electrically connected with controller, and controller moves receiving device for controlling drives structure.

Wherein, the structure of the first sampler 1 has multiple, such as: the first sampler 1 cylindrically, the sidewall of cylinder can be provided with stock inlet, and the lower end of cylinder is provided with grout outlet, and grout outlet is communicated with receiving system 2; First sampler 1 can also be the hollow housing of both ends open; The one end open of the first sampler 1 is communicated with receiving system 2; The other end opening of the first sampler 1 is rectangle, and its long limit is used for vertically being arranged in ore slurry pipeline 6, and such first sampler 1 can extract the ore pulp of each height in ore slurry pipeline 6, thus further can improve the representativeness of sample ore.

In addition, driving mechanism 5 can be various structures, such as: driving mechanism 5 can comprise motor, gear and catch bar, the power output shaft of motor is provided with gear, the sidewall of catch bar is provided with the tooth bar be meshed with gear, catch bar is connected with receiving system 2 away from one end of motor, by the cooperation of gear and tooth bar, make catch bar promote receiving system 2, make the ore pulp flowed out in receiving system 2 flow in sample ore gathering-device 3;

Driving mechanism 5 can also be hydraulic cylinder, and one end of hydraulic cylinder is arranged on housing 4, and the other end is connected with receiving system 2, thus realizes the movement of receiving system 2;

Driving mechanism 5 can also be cylinder, and one end of cylinder is fixed on housing 4, and the other end is connected with receiving system 2, and cylinder is communicated with air pump by magnetic valve 7, and magnetic valve 7 and air pump are all electrically connected with control.By controlling Controlling solenoid valve 7, thus whether control air pump is communicated with the space of the piston both sides in cylinder, thus realizes promoting reciprocating motion of the pistons.

In addition, receiving system 2 also can be various structures, such as: receiving system 2 can comprise receiving tube and first time receiving tube on first, on first receiving tube and first time receiving tube all L-shaped, on first, one end of receiving tube is communicated with the first sampler 1, the other end is arranged in first time receiving tube, and this end can receive in-pipe at first time, and driving mechanism 5 is connected with first time receiving tube; Receiving system 2 can also comprise receiving tube and second time receiving tube on second, and on second, one end of receiving tube is communicated with the first sampler 1, and the other end is positioned at the top that second time receiving tube is funnelform port, and driving mechanism 5 is connected with second time receiving tube.And receiving system 2 is preferably flexible pipe; One end of flexible pipe is communicated with the first sampler 1, and the other end is arranged in housing 4; Driving mechanism 5 is connected with the sidewall of flexible pipe.Utilize flexible pipe to receive ore pulp in the first sampler 1, the burden of driving mechanism 5 can be alleviated, reduce the power consumption of driving mechanism 5, extend the service life of sampler, and make simple, cost of manufacture is low.

The structure of sample ore gathering-device 3 is multiple, and such as sample ore gathering-device 3 can be the container that tank or glassware etc. can take up liquid.

The sampler that the present embodiment provides, it comprises driving mechanism, the first sampler 1, receiving system 2, driving mechanism 5 and sample ore gathering-device 3.When not sampling, the ore pulp that the first sampler 1 intercepts from ore slurry pipeline 6 is flowed out by receiving system 2.When arriving the sampling time point preset, controller starts driving mechanism 5 and drives receiving system 2 to move thus make receiving system 2 move to the top of sample ore gathering-device, and pass through from the top of ore pulp gathering-device, and then in the ore pulp inflow sample ore gathering-device that receiving system 2 is flowed out subsequently, receiving system 2 is moved to original position according to former route by driving mechanism 5 again, receiving device is passed through again above ore pulp gathering-device, and ore pulp flows in sample ore gathering-device again, thus completes primary sample.

Due to the sampler that the utility model provides, it controls driving mechanism by controller, thus sample according to the sample interval of presetting and sampling number of times, thus the manual sampling avoided in correlation technique exists many uncertain factors, strictly according to the sample interval of presetting, per tour sampling number of times, and the speed of driving mechanism motion samples, so ore pulp representativeness improves, thus makes the Quality advance of last sample.

As depicted in figs. 1 and 2, on the basis of above-described embodiment, in order to the ore pulp in the first sampler 1 can be more representative, further, the first sampler 1, towards the direction near receiving system 2, in gradually-reducing shape.Like this, the first sampler 1 is in the process of sampling, and the openend large by cross section intercepts ore pulp in ore slurry pipeline 6.Ore pulp in first sampler 1 is by the effect of self gravitation, and ore pulp flows toward receiving system 2 direction, because the first sampler 1 is in gradually-reducing shape, thus ore pulp is mixed fully, and according to certain flow rate, not only improve the representativeness of sample ore, but also can quantitative sampling.

As depicted in figs. 1 and 2, in the above-described embodiments, further, sample ore gathering-device 3 comprises the second sampler 31 and sample ore bucket; Second sampler 31 is the hollow housing of both ends open, and the second sampler 31 is arranged in housing 4; The one end open of the second sampler 31 is communicated with the sample ore bucket be arranged on outside housing 4 by pipeline 32; Second sampler 31 is gradually-reducing shape towards the one end near pipeline 32; The ore pulp that second sampler 31 flows out for receiving receiving system 2.Carry out second time by the ore pulp in the second sampler 31 pairs of receiving systems 2 to intercept, thus further improve the accuracy of quantitative sampling, and then further improve the representativeness of sample ore.

As depicted in figs. 1 and 2, on the basis of above-described embodiment, further, housing 4 is the hollow housing of both ends open; The lower ending opening of housing 4 is used for being communicated with flotation trough 8.Wherein, flotation device is the equipment for flotation pulp, and ore slurry pipeline 6 is communicated with flotation trough 8.When sampling, driving mechanism 5 promotes receiving system 2 and moves, and the ore pulp in receiving system 2 is flowed in sample ore gathering-device 3.After receiving system 2 rests on the sample ore gathering-device 3 default time, receiving system 2 is moved to original position by driving mechanism 5, now, in order to avoid the ore pulp loss in receiving system 2, the below of housing 4 is provided with flotation trough 8, thus avoids the ore pulp in ore slurry pipeline 6 to lose.

By the interval time of controller setting sampling, and the time of every sub-sampling, such as: within 12 hours, be one class, get a sample every 1 hour, each sample time is 5s, namely can be completed by controller.Sampling personnel only need after 12 hours, are fetched by sample bucket 33 and carry out next experimental procedure.Not only save manpower, also improve quality and the efficiency of sampling.

In each above-mentioned embodiment, the first sampler 1, receiving system 2, sample ore gathering-device 3, driving mechanism 5, and can for multiple for the housing 4 supporting receiving system 2 and driving mechanism 5; First sampler 1, receiving system 2, sample ore gathering-device 3, driving mechanism 5 and housing 4 form a sampling unit, and each sampling unit may be used for being placed on the sample point of a pipeline, samples.And controller can be one, a controller is electrically connected with multiple driving mechanism respectively, thus controls multiple driving mechanism work, thus realizes multidraw.

In other words, above-mentioned sampler can be one, also can be multiple; When sampler is multiple, the controller on multiple sampler can be changed into a master controller; Master controller is electrically connected with the driving mechanism 5 in each sampler respectively, works for the driving mechanism 5 controlled on each sampler.Multiple sampler is controlled by a master controller, multiple sampler is arranged on the different position of ore slurry pipeline 6, the sampling of a sample point is responsible for by a sampler, sampling efficiency can not only be improved, also reduce a large amount of pipelines 32 to safeguard, and the problem mutually polluted between sample ore can not be there is.

Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims (7)

1. sampler, is characterized in that, comprising: the first sampler, receiving system, sample ore gathering-device, driving mechanism, controller, and for supporting the housing of described receiving system and described driving mechanism;

Described first sampler is used for being arranged in ore slurry pipeline, to collect the ore pulp in ore slurry pipeline;

Described receiving system is communicated with described first sampler; Described sample ore gathering-device is arranged on the below of described first sampler, for receiving the ore pulp that described first sampler flows out;

Described driving mechanism is connected with described receiving system, for driving described receiving system to move, flows in described sample ore gathering-device to make the ore pulp in described receiving system;

Described driving mechanism is electrically connected with described controller, and described controller moves described receiving system for controlling described driving mechanism.

2. sampler according to claim 1, is characterized in that, described first sampler is the hollow housing of both ends open;

The one end open of described first sampler is communicated with described receiving system; The other end opening of described first sampler is rectangle, and its long limit is used for vertically being arranged in ore slurry pipeline.

3. sampler according to claim 2, is characterized in that, described first sampler, towards the direction near described receiving system, in gradually-reducing shape.

4. sampler according to claim 1, is characterized in that, described driving mechanism is cylinder, and one end of described cylinder is fixing on the housing, and the other end is connected with described receiving system.

5. sampler according to claim 1, is characterized in that, described receiving system is flexible pipe;

One end of described flexible pipe is communicated with described first sampler, and the other end is arranged in described housing; Described driving mechanism is connected with the sidewall of described flexible pipe.

6. sampler according to claim 1, is characterized in that, described sample ore gathering-device comprises the second sampler and sample ore bucket;

Described second sampler is the hollow housing of both ends open, and described second sampler is arranged in described housing; The one end open of described second sampler is communicated with the sample ore bucket be arranged on outside described housing by pipeline; Described second sampler is gradually-reducing shape towards the one end near described pipeline; The ore pulp that described second sampler flows out for receiving described receiving system.

7. the sampler according to any one of claim 1-6, is characterized in that, described housing is the hollow housing of both ends open; The lower ending opening of described housing is used for being communicated with flotation trough.