CN211954906U - Novel intelligent combined sampling machine - Google Patents

Abstract

The utility model discloses a novel intelligent combined sampling machine, which comprises a feeding conveyor, a primary crusher and a primary constant-mass divider which are arranged in sequence, wherein a sample collection discharge port of the primary constant-mass divider is connected with a bin of a vibration feeder, and a sample abandoning discharge port of the primary constant-mass divider is connected with a water sample constant-mass divider through a second feeding conveyor; the vibration feeder is sequentially connected with a secondary crusher and a secondary constant-mass divider, an outlet of the secondary constant-mass divider is connected with the constant-ratio divider through a first feeding conveyor, and an outlet of the constant-ratio divider is connected with the analysis sample collecting barrel; each main part is connected with the control cabinet through a corresponding control module. The division ratio of each division device in the application is dynamically adjusted according to the weight of the incoming sample, the division ratios of all stages are averaged, meanwhile, the uniform feeding device is added before division, and the representativeness and the accuracy of division can be improved.

Description

Novel intelligent combined sampling machine

Technical Field

The utility model relates to a novel intelligent combined sampling machine.

Background

The quality of a reserved sample cannot be automatically adjusted in real time when the weight of an incoming sample changes in a traditional combined sampling machine, the contraction ratio of each level of contraction and separation device can be manually adjusted only according to experience, the change range of the weight of the incoming sample is small, the weight of the reserved sample cannot be accurately controlled, the sample can be manufactured in multiple times when a sample with large weight is encountered, and the sampling efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects of the prior art, providing a novel intelligent combined sampling machine.

A novel intelligent combined sampling machine comprises a feeding conveyor, a primary crusher and a primary constant-mass divider which are sequentially arranged, wherein a sample collecting discharge port of the primary constant-mass divider is connected with a bin of a vibration feeder, and a sample discarding discharge port of the primary constant-mass divider is connected with a water sample constant-mass divider through a second feeding conveyor; the vibration feeder is sequentially connected with a secondary crusher and a secondary constant-mass divider, an outlet of the secondary constant-mass divider is connected with the constant-ratio divider through a first feeding conveyor, and an outlet of the constant-ratio divider is connected with the analysis sample collecting barrel; the feeding conveyor, the primary crusher, the secondary crusher, the primary constant-mass divider, the secondary constant-mass divider, the first feeding conveyor, the second feeding conveyor and the constant-ratio divider are all connected with the control cabinet through corresponding control modules.

Preferably, the main control unit in the control cabinet is a PLC program control unit.

Preferably, the first-stage constant-mass divider and the second-stage constant-mass divider are both inverted Y-shaped, a turning plate is arranged in the middle of the constant-mass divider, and the center of the turning plate is connected with a rotating shaft of the servo motor.

Preferably, the dust remover is further included, and the dust remover is connected with the main box body of the sampling machine.

Preferably, the surface of the control cabinet is provided with a touch screen input device.

Preferably, a first outlet of the moisture sample fixed mass splitter is connected with the moisture sample collecting barrel, and a second outlet of the moisture sample fixed mass splitter is connected with the sample discarding conveyor.

Preferably, the percentage of the water sample fixed mass divider is 1/1.7-1/11.9.

Preferably, the percentage of the first-stage constant mass divider is 1/1.3-1/10.

And a control unit in the control cabinet automatically calculates the division ratios of the primary constant-mass divider, the secondary constant-mass divider and the water sample constant-mass divider according to the weight of the incoming sample, so as to obtain a final reserved sample with constant weight.

In practical application, the sample set in the first stage constant mass splitter is 20-500kg, the sample set in the second stage constant mass splitter is 15-50kg, the sample set in the first stage constant mass splitter is dynamically and automatically adjusted in the ratio of 1/1.3-1/10, the sample set in the second stage constant mass splitter is 5.2-6.2kg, the sample set in the second stage constant mass splitter is 1/2.4-1/9.6, and the sample set in the water sample constant mass splitter is 3-4.2kg, and the sample set in the second stage constant mass splitter is 1/1.7-1/11.9.

Has the advantages that:

the division ratio of each division device in the application is dynamically adjusted according to the weight of the incoming sample, the division ratios of all stages are averaged, meanwhile, an even feeding device is additionally arranged before division, irregular material flow is integrated into regular material flow, and therefore the representativeness and the accuracy of division are greatly improved.

Compared with the traditional sampling machine, the sampling machine has higher efficiency and high automation degree, and reduces the risk of impurity doping.

Drawings

FIG. 1 is a schematic structural diagram of a novel intelligent combined sampling machine;

FIG. 2 is a schematic diagram of the operation of the fixed mass splitter;

1. the system comprises a feeding conveyor 2, a primary crusher 3, a primary constant-mass splitter 4, a vibratory feeder 5, a secondary crusher 6, a secondary constant-mass splitter 7, a first feeding conveyor 8, a constant-ratio splitter 9, an analysis sample collecting barrel 10, a dust remover 11, a second feeding conveyor 12, a water sample constant-mass splitter 13, a water sample collecting barrel 14, a sample discarding conveyor 15 and a control cabinet.

Detailed Description

In order to deepen the understanding of the present invention, the present invention will be further described in detail with reference to the following embodiments and the attached drawings, and the embodiments are only used for explaining the present invention, and do not constitute the limitation to the protection scope of the present invention.

As shown in fig. 1-a, a novel intelligent combined sampling machine comprises a feeding conveyor 1, a primary crusher 2 and a primary constant mass splitter 3 which are arranged in sequence, wherein a sample collecting discharge port of the primary constant mass splitter 3 is connected with a bin of a vibration feeder 4, and a sample discarding discharge port of the primary constant mass splitter 3 is connected with a water sample constant mass splitter 12 through a second feeding conveyor 11; the first outlet of the moisture sample fixed mass splitter 12 is connected with a moisture sample collecting barrel 13, and the second outlet is connected with a sample discarding conveyor 14.

The vibration feeder 4 is sequentially connected with a secondary crusher 5 and a secondary constant-mass divider 6, the outlet of the secondary constant-mass divider 6 is connected with a constant-ratio divider 8 through a first feeding conveyor 7, and the outlet of the constant-ratio divider 8 is connected with an analysis sample collecting barrel 9; the feeding device comprises a feeding conveyor 1, a primary crusher 2, a secondary crusher 5, a primary constant-mass divider 3, a secondary constant-mass divider 6, a first feeding conveyor 7, a second feeding conveyor 11 and a constant-ratio divider 8, which are all connected with a control cabinet 15 through corresponding control modules, wherein a main control unit in the control cabinet is a PLC program control unit, and a touch screen input device is arranged on the surface of the control cabinet.

The dust remover also comprises a dust remover 10, wherein the dust remover 10 is connected with a main box body of the sampling machine.

The operation mode is as follows:

the samples are weighed manually and poured into the silo of the material conveyor 1.

Inputting the weight of an incoming sample into a touch screen input device, clicking corresponding parameter options (such as primary crushing discharge granularity, secondary crushing discharge granularity, sampling port cutting linear velocity and the like), starting equipment, enabling the coal sample to enter a primary crusher 2 through an inlet conveyor 1, enabling the crushed coal sample to obtain 15-50kg of reserved sample through a primary fixed mass divider 3, temporarily storing the reserved sample in a bin of a vibration feeder 4, uniformly supplying the reserved sample to a secondary crusher 5 when 50% of the reserved sample is reached, temporarily storing all samples passing through a secondary fixed mass divider 6 on a first feeding conveyor 7, after secondary fixed mass division is finished, simultaneously operating the first feeding conveyor 7 and a fixed ratio divider 8, and finally obtaining 8 samples and storing the 8 samples in an analysis sample collection barrel 9.

The full water sample is collected from the waste sample of the first-stage constant mass division, the waste sample is shaped by the second feeding conveyor 11 and then enters the water sample constant mass division device 12, the water sample after division enters the water sample collecting barrel 13, and all the waste samples are collected to the waste sample conveyor 14.

As shown in fig. 2, the first-stage constant mass splitter and the second-stage constant mass splitter are both inverted Y-shaped, a turning plate is arranged in the middle of the constant mass splitter, and the center of the turning plate is connected with a rotating shaft of a servo motor. When there is the blanking in the top, by servo motor drive epaxial board that turns over, both sides are swayd, when turning over the board in the position one, the blanking of top is through turning over the board swift current to the export of corresponding blanking one, when turning over the board in the position two, the blanking of top is through turning over the board swift current to the export of corresponding blanking two, accomplish getting, giving up to the appearance of coming, the volume of getting, giving up can be controlled to the time of berthhing to both sides through PLC control servo motor operation, the speed of controlling servo motor operation through PLC can obtain different cutting blanking streamline speeds.

When in use, the sample setting is between 20 and 500kg, the reserved sample of the first-stage constant mass splitter 3 is between 15 and 50kg, the percentage of the reserved sample is dynamically and automatically adjusted between 1/1.3 and 1/10, the reserved sample of the second-stage constant mass splitter 6 is between 5.2 and 6.2kg, the percentage of the reserved sample is dynamically and automatically adjusted between 1/2.4 and 1/9.6, and the reserved sample of the water sample constant mass splitter 12 is between 3 and 4.2kg, the percentage of the reserved sample is dynamically and automatically adjusted between 1/1.7 and 1/11.9.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A novel intelligent combined sampling machine is characterized by comprising a feeding conveyor, a primary crusher and a primary constant-mass divider which are sequentially arranged, wherein a sample collecting discharge port of the primary constant-mass divider is connected with a bin of a vibration feeder, and a sample discarding discharge port of the primary constant-mass divider is connected with a water sample constant-mass divider through a second feeding conveyor; the vibration feeder is sequentially connected with a secondary crusher and a secondary constant-mass divider, an outlet of the secondary constant-mass divider is connected with the constant-ratio divider through a first feeding conveyor, and an outlet of the constant-ratio divider is connected with the analysis sample collecting barrel; the feeding conveyor, the primary crusher, the secondary crusher, the primary constant-mass divider, the secondary constant-mass divider, the first feeding conveyor, the second feeding conveyor and the constant-ratio divider are all connected with the control cabinet through corresponding control modules.

2. A novel intelligent combined sampling machine as claimed in claim 1, wherein the main control unit in the control cabinet is a PLC program control unit.

3. A novel intelligent combined sampling machine as claimed in claim 1, wherein the primary constant mass splitter is of an inverted Y shape, a turning plate is arranged in the middle of the constant mass splitter, and the center of the turning plate is connected with a rotating shaft of a servo motor.

4. A novel intelligent combined sampling machine according to claim 1, characterized by further comprising a dust remover, wherein the dust remover is connected with a main box body of the sampling machine.

5. A novel intelligent combined sampling machine as claimed in claim 1, wherein the surface of the control cabinet is provided with touch screen input device.

6. A novel intelligent combined sample making machine as claimed in claim 1, wherein the first outlet of said moisture sample fixed mass splitter is connected with a moisture sample collection barrel, and the second outlet is connected with a sample abandoning conveyor.

7. A novel intelligent combined sample making machine as claimed in claim 1, wherein the percentage reduction ratio of said water sample fixed mass divider is 1/1.7-1/11.9.

8. A novel intelligent combined sample making machine as claimed in claim 1, wherein the percentage of said first-stage constant-mass reductor is 1/1.3-1/10.

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