CN211292938U - Vehicle-mounted mobile full-automatic sampling and sample preparation system - Google Patents

Abstract

The utility model belongs to a sampling equipment technical field relates to a sampling, system appearance and analysis detecting system of a large amount of bulk material. On-vehicle portable full-automatic sampling system includes: an automotive chassis; the sampling device is connected with the control system and realizes the sampling of the article to be detected through the control system; the sample preparation device is used for receiving the sample collected by the sampling device and carrying out sample preparation treatment on the sample; and the control system is arranged on the automobile chassis and is used for controlling the operation and parameter setting of each device. The utility model discloses a full-automatic sampling system of on-vehicle portable has and removes convenient, easy operation, the manifold advantage of control mode, can realize full section sampling, breakage, division, collection appearance integration, advantages such as sampling efficiency height.

Description

Vehicle-mounted mobile full-automatic sampling and sample preparation system

Technical Field

The utility model belongs to a sampling equipment technical field relates to a sampling, system appearance and analysis detecting system of a large amount of bulk material.

Background

The sampling and sample-making system is a device for sampling and sample-making bulk materials in detection and assay applied to industrial departments such as ports, electric power, chemical engineering, geology, metallurgy, cement, analysis and detection service, scientific research and the like. The traditional manual sample collection and preparation method is influenced by more objective factors such as selection of sampling points, sampling quality and sample mixing and reduction, and is easy to introduce larger sampling and sample preparation deviation. The sampling process needs workers to climb the piles or get on the train for sampling, the potential safety hazard of work is large, and in order to ensure the production safety of the sampling process, the sampling can be usually carried out only on the surface layers of the train, the automobile or the piles, so that the representativeness of the sampled products is poor, and the controllability of the sampling process is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the prior art, the utility model provides an automatic sampling system that degree of automation is high, sampling efficiency is high, the security is high.

The utility model provides a technical scheme that its technical problem adopted is: on-vehicle portable full-automatic sampling system includes:

an automotive chassis;

the sampling device is connected with the control system and realizes the sampling of the article to be detected through the control system;

the sample preparation device is used for receiving the sample collected by the sampling device and carrying out sample preparation treatment on the sample;

and the control system is arranged on the automobile chassis, is connected with the sampling device and the sample preparation device, and controls the operation and parameter setting of each device.

As a further improvement of the utility model, the sampling device include hydraulic pressure sampling arm and sample thief, hydraulic pressure sampling arm with control system connect, the sample thief is connected with hydraulic pressure sampling arm.

As a further improvement of the utility model, the sampler comprises a grabbing sampler and a spiral sampler; the grabbing sampler or the spiral sampler is fixed at the front end of the hydraulic sampling arm through a fixed pin bolt.

As a further improvement of the utility model, the spiral sampler mainly comprises a spiral sampling drill bit, a rotating shaft and a hydraulic spiral driving mechanism; the upper end of the spiral sampling drill bit is connected with the lower end of the rotating shaft through a shaft sleeve; the outer part of the rotating shaft is provided with a rotating shaft outer cylinder, and the outer part of the shaft sleeve is provided with a connecting sleeve; the connecting sleeve is connected with the lower end of the rotating shaft outer cylinder and is fixed by a fixing sleeve and a bolt; the hydraulic screw driving mechanism is arranged at the upper end of the rotating shaft.

As a further improvement of the utility model, the sample preparation device comprises an automatic feeding device, an automatic division device, a sample crushing device and an automatic sample collecting device; the automatic feeding device is arranged above the main frame through a bolt; the automatic division device is arranged at the downstream of the automatic feeding device, and a division notch of the automatic division device horizontally and vertically corresponds to a discharge port of the upstream automatic feeding device; the material crushing device is arranged above the automobile chassis, and a feeding port of the material crushing device is connected with a sample reserving notch of the automatic division device through a stainless steel chute; the automatic sample collecting device is suspended below the automobile chassis, and a feeding port of the automatic sample collecting device is connected with a discharging port below the sample crushing device through a stainless steel chute.

As the utility model discloses an optimal mode, the utility model discloses a full-automatic sampling system of on-vehicle portable is still including abandoning the appearance device, abandon the appearance device and install in vehicle chassis top, abandon the appearance incision through stainless steel chute and automatic division device and be connected.

The utility model discloses a full-automatic sampling system of on-vehicle portable compares with prior art, has following beneficial effect: (1) flexible transition and suitable for different types of operation sites

The movable type sampling device has the advantages of being flexible in transferring to various operation sites for sampling and collecting, achieving shallow layer sampling, deep layer sampling and full section sampling, being high in sampling height and wide in range, and being particularly suitable for manual sampling occasions without mechanical sampling equipment or inconvenient for mechanical sampling.

(2) Automation of sampling process

The PLC is controlled by a touch screen computer, full-automatic, semi-automatic or manual operation in the sampling and preparing process is realized, sampling, crushing, division and sample collection are integrated, and sampling points are randomly selected according to set parameters such as sampling points, depth and the like to automatically complete the sampling process.

(3) Short sampling period

The vehicle-mounted mobile sampling vehicle only needs 300 seconds for a complete sampling period. Compared with the existing manual sampling, the mobile sampling vehicle has the outstanding characteristics of being scientific, accurate, time-saving, labor-saving and high in working efficiency.

(4) Can be normally used in severe environment

The air temperature is low in winter in the north of China, the phenomenon that the frozen layer of ores and coal is thick in winter is common, and aiming at the special working condition, the sampler can be a heavy spiral sampler, and special steel and a special welding process are selected, so that the sampling vehicle can work normally under extremely severe environment (-30 ℃), and the sampling vehicle is very suitable for the sampling requirements of ores and coal in severe winter in the north of China.

(5) Full-closed automatic sample preparation

After sample preparation, the automatic sample collecting device is automatically packaged, sample sealing is timely realized after the sample barrel is filled, water loss and other pollution caused by long sample exposure time are reduced, and the accuracy of the test sample is ensured.

(6) Recording and sampling process in whole course

The system is provided with a monitoring camera system device, can monitor sampling operation through a vehicle-mounted liquid crystal screen, and intelligently controls the whole process. The sampling sub-sample is shot during sampling, and the image during sampling can be recorded and stored.

Drawings

Fig. 1 is a schematic overall structure diagram of one embodiment of the vehicle-mounted mobile full-automatic sampling and sample-making system of the present invention;

FIG. 2 is an overall structural view of another embodiment;

FIG. 3 is a schematic diagram of the construction of a spiral sampler;

FIG. 4 is a schematic view of a helical sampling drill bit;

fig. 5 is a partially enlarged view of fig. 3.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The utility model discloses on-vehicle portable full-automatic sampling system of one of them embodiment, as shown in figure 1 or 2, mainly include vehicle chassis 101, install hydraulic pressure sampling arm 102, automatic feeder 104, automatic division device 105, material breaker 106, sample collection device 107, abandon a kind device 108 and electric power supply unit 109, control system 110 on vehicle chassis 101. The operation and parameter setting of each device in the system are controlled by the control system 110. The hydraulic sampling arm 2 realizes 360-degree full-rotation and telescopic work through a hydraulic control system.

The sample thief is installed to hydraulic pressure sampling arm 102 front end, the utility model discloses a two kinds of sample samplers that the sample thief design was installed and is accorded with relevant material (iron ore, coal) sampling standard (ISO3082-2009 iron ore-sample and system appearance procedure, ISO13909-2016 coal-sample and system appearance procedure) snatch sample thief 103 and spiral sample thief 111 respectively. The grabbing sampler 103 or the spiral sampler 111 is fixed at the front end of the hydraulic sampling arm 102 through a fixed pin, and sampling grabbing or spiral sampling is realized through the control system 110.

As shown in fig. 3, 4 and 5, in one embodiment of the present invention, the spiral sampler 111 mainly comprises a spiral sampling drill bit 1, a drill bit connecting sleeve 2, a bearing 3, a gland 4, a fixed parallel key 5, a nut 6, a fixed sleeve 7, a drill rod connecting sleeve 8, a fixed nut 9, a shaft sleeve 10, a rotating shaft outer cylinder 11, a rotating shaft 12, and a hydraulic spiral driving mechanism 13.

The upper section of the spiral sampling drill bit 1 is sleeved with a bearing 3, and a gland 4 is arranged above the bearing 3. The upper end of the spiral sampling drill bit 1 is connected with the lower end of a rotating shaft 12 through a shaft sleeve 10, a drill bit connecting sleeve 2 is sleeved on the upper section of the spiral sampling drill bit 1 and the outer portion of the shaft sleeve 10, and a rotating shaft outer cylinder 11 is arranged on the outer portion of the rotating shaft 12. The inner side of the drill bit connecting sleeve 2 is provided with a fixed parallel key 5, the fixed parallel key 5 is fixedly connected with a key groove at the lower end of the rotating shaft outer cylinder 11, a fixed sleeve 7 is sleeved above the drill bit connecting sleeve 2, the fixed sleeve 7 is connected with the drill bit connecting sleeve 2 through a bolt 6, a connecting sleeve 8 is sleeved above the fixed sleeve 7, and the connecting sleeve 8 is fixed at the lower part of the rotating shaft outer cylinder 11 through a screw 9, so that the drill bit connecting sleeve 2 is connected with the rotating shaft outer cylinder 11. The lower end of the rotating shaft outer cylinder 11 abuts against the gland 4, thereby restricting the axial movement of the bearing 3.

The rotary shaft 12 is connected to a hydraulic screw drive 13 via a pin. The hydraulic screw driving mechanism 13 is connected with the control system 110, and under the control of the control system 110, the rotating shaft 12 is driven to rotate to drive the screw sampling drill bit 1 to complete sampling.

During the rotary sampling process of the spiral sampler 111, the drill bit connecting sleeve 2, the fixed sleeve 7, the connecting sleeve 8 and the rotary shaft outer cylinder 11 play a role in protection and do not rotate.

In the embodiment of the present invention, the spiral sampling drill bit 1 is composed of a middle drill rod and a spiral groove disposed on the drill rod.

And the sample obtained by the sampler is sent to a sample preparation device through a hydraulic sampling arm to carry out preliminary sample preparation. As shown in fig. 1 or 2, the sample preparation device includes an automatic feeding device 104, an automatic dividing device 105, a sample crushing device 106, and an automatic sample collecting device 107. The automatic feeding device 104 is arranged above the main frame of the system equipment through bolts; the automatic division device 105 is installed at the downstream of the automatic feeding device 104, and the division notch of the automatic division device horizontally and vertically corresponds to the discharge port of the upstream automatic feeding device 104. The sample crushing device 106 is arranged above the automobile chassis 101, and a feeding port of the sample crushing device is connected with a sample reserving notch of the automatic division device 105 through a stainless steel chute.

The sample put into the automatic feeding device 104 is shaped by the automatic feeding device 104 and then is fed into the automatic division device 105 at a constant speed to divide the sample, and the divided sample enters the sample crushing device 106 through the chute to be crushed.

As shown in figure 1, the automatic sample collecting device 7 is suspended below an automobile chassis 101 through a mounting bolt, a feeding port above the automatic sample collecting device 107 is connected with a discharging port below the sample crushing device 106 through a stainless steel chute, and a sample crushed by the sample crushing device 106 enters a stainless steel sample collecting barrel in the automatic sample collecting device 107 through a chute and is sealed.

The sample discarding device 108 is installed above the automobile chassis 101 and connected with the sample discarding notch of the automatic reduction and separation device 105 through a stainless steel chute. After the reduced reject falls through the chute to the reject device 108, the reject device 108 operates to return the sample to the sample stack. In some embodiments of the present invention, the sample discarding device 108 is a telescopic sample discarding belt conveyor.

As shown in fig. 1, the power supply device 109 is a generator set, and a generator set of a corresponding load is selected according to the electrical load of the entire system.

The utility model discloses on-vehicle portable full-automatic sampling system appearance system, the work flow is:

1. selecting a proper sampler according to the material to be sampled; connecting a sampler with a hydraulic sampling arm;

2. the control system controls the hydraulic sampling arm to move above a material pile to be sampled and controls the sampler to collect a sample;

3. the sample obtained by the sampler is sent to a sample preparation device through a hydraulic sampling arm to carry out preliminary sample preparation;

4. and after sample preparation is finished, the sample is stored in a sealed mode, and redundant samples are sent back to a storage yard through a sample discarding device.

The utility model discloses on-vehicle portable full-automatic sampling system appearance system mainly is applicable to sampling and the system appearance of bulk material such as ore, coal, compares with artifical sampling, and the advantage that has lies in:

the mechanized sampling operation of the material pile is realized. The working condition of manual material pile climbing sampling is replaced. The effective operation of mechanical sampling according to the rules is ensured, and meanwhile, the operation of stacking operation is not influenced. Has obvious advantages compared with manual sampling.

In order to meet the requirements of port safe production operation, manual sampling operation is basically carried out by waiting until ship unloading (unloading) stacking work is finished and then entering a stock ground for sampling operation. This does not satisfy a wide range of sampling coverage. Meanwhile, due to the limitation of manual sampling tools and the influence of factors such as safe production, manual sampling is generally limited to the sampling operation at the pile root below the height of 2.5 meters of the stock pile. The utility model discloses a no matter on-vehicle portable full-automatic sampling system no matter from sampling quality, sampling point and sampling area's distribution structure, be higher than far away and be superior to the sampling quality and the sampling point distribution coverage of artifical sample.

Claims (3)

1. On-vehicle portable full-automatic sampling system, its characterized in that includes:

an automotive chassis;

the sampling device is connected with the control system and realizes the sampling of the article to be detected through the control system;

the sample preparation device is used for receiving the sample collected by the sampling device and carrying out sample preparation treatment on the sample;

the control system is arranged on the automobile chassis and used for controlling the operation and parameter setting of each device;

the sampling device comprises a hydraulic sampling arm and a sampler, the hydraulic sampling arm is connected with the control system, and the sampler is connected with the hydraulic sampling arm;

the sampler is fixed at the front end of the hydraulic sampling arm through a fixed pin bolt and comprises a grabbing sampler and a spiral sampler;

the spiral sampler mainly comprises a spiral sampling drill bit, a rotating shaft and a hydraulic spiral driving mechanism; the upper end of the spiral sampling drill bit is connected with the lower end of the rotating shaft through a shaft sleeve; the outer part of the rotating shaft is provided with a rotating shaft outer cylinder, and the outer part of the shaft sleeve is provided with a connecting sleeve; the connecting sleeve is connected with the lower end of the rotating shaft outer cylinder and is fixed by a fixing sleeve and a bolt; the hydraulic screw driving mechanism is arranged at the upper end of the rotating shaft.

2. The vehicle-mounted mobile full-automatic sample collecting and preparing system of claim 1, wherein the sample preparing device comprises an automatic feeding device, an automatic dividing device, a sample crushing device and an automatic sample collecting device; the automatic feeding device is arranged above the main frame through a bolt; the automatic division device is arranged at the downstream of the automatic feeding device, and a division notch of the automatic division device horizontally and vertically corresponds to a discharge port of the upstream automatic feeding device; the material crushing device is arranged above the automobile chassis, and a feeding port of the material crushing device is connected with a sample reserving notch of the automatic division device through a stainless steel chute; the automatic sample collecting device is suspended below the automobile chassis, and a feeding port of the automatic sample collecting device is connected with a discharging port below the sample crushing device through a stainless steel chute.

3. The vehicle-mounted mobile full-automatic sample collection and preparation system according to any one of claims 1-2, further comprising a sample discarding device, wherein the sample discarding device is mounted above a chassis of the automobile and is connected with the sample discarding notch of the automatic reduction and separation device through a stainless steel chute.

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