CN205015184U - Ration is automatic sampling device of ore pulp regularly - Google Patents
Ration is automatic sampling device of ore pulp regularly Download PDFInfo
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- CN205015184U CN205015184U CN201520713503.3U CN201520713503U CN205015184U CN 205015184 U CN205015184 U CN 205015184U CN 201520713503 U CN201520713503 U CN 201520713503U CN 205015184 U CN205015184 U CN 205015184U
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Abstract
The utility model belongs to the technical field of concentrator additional equipment, especially, relate to a ration is automatic sampling device of ore pulp regularly. It includes pulp tank, be equipped with the sampler in the pulp tank, the sampler with go into the ore deposit pipe and be connected, go into the ore deposit pipe and go into the ore deposit valve to be connected, it is connected with the ore pulp cylinder body to go into the ore deposit valve, ore pulp cylinder body and ore pulp piston sliding connection, the ore pulp piston is connected with the piston rod, the piston rod is connected with cylinderpiston, cylinderpiston and pneumatic cylinder body sliding connection, the pneumatic cylinder body is connected with the pneumatic valve, the pneumatic valve still is connected with ore removal valve and air supply, the ore removal valve is connected with ore pulp cylinder body and ore pulp outlet pipe respectively, ore pulp outlet pipe below is equipped with the sample bucket, go into the ore deposit valve, ore removal valve and pneumatic valve all are connected with the DCS system. The utility model discloses can realize ore pulp ration, timesharing automatic sampling in the chute, the technological index of the period of reflection that the sample can be accurate. Solve the sample limitation that the manual sampling brought.
Description
Technical field
The utility model belongs to the technical field of ore separators auxiliary device, especially relates to a kind of quantitative timing ore pulp automatic sampling device.
Background technology
In dressing Production Process, constantly detect the various technique correlation parameters of ore pulp in chute.This takes out mine plasm in chute in real time with regard to needs and detects, sampling method carries out hand sampling with sampling cutter from pulp conveying chute, then sample is put in ore pulp sample cup, due to the sample that sampling is a certain moment, representativeness is not had concerning sample a time period, technic index situation in a period of time can not be reflected.Only have the continuous sampling of real-time quantitative, constantly detect, truly could reflect the actual process index of ore pulp.
Summary of the invention
The purpose of this utility model is to provide a kind of quantitative timing ore pulp automatic sampling device, the inaccurate problem of technic index of the sampling limitation that solution hand sampling brings and reflection, ore pulp real-time quantitative automatic sampling in chute can be realized, ensure that institute's sample thief reflects the technic index of a period really and accurately.
The purpose of this utility model is realized by following technical proposals:
Quantitative timing ore pulp automatic sampling device of the present utility model, comprise pulp tank, it is characterized in that: in described pulp tank, be provided with a sampler, this sampler with enter pipe and be connected, this enters pipe and enters ore deposit valve and be connected, this enters ore deposit valve and is connected with ore pulp cylinder body, this ore pulp inner surface of cylinder block and ore pulp piston are slidably connected, this ore pulp piston is connected with one end of piston rod, the other end of this piston rod is connected with cylinder piston, this cylinder piston and pneumatic cylinder inside surface are slidably connected, this pneumatic cylinder is connected with pneumatic valve, this pneumatic valve is also connected with ore removal valve and source of the gas simultaneously, the entrance point of this ore removal valve is connected with described ore pulp cylinder body, the endpiece of this ore removal valve is connected with one end of ore pulp effuser, sample bucket is provided with below the other end of this ore pulp effuser, described enters ore deposit valve, ore removal valve is all connected with DCS system with pneumatic valve.
Described pneumatic cylinder by pneumatic cylinder with the pneumatic left closure plate that is connected of two ends, pneumatic cylinder left and right and pneumatic right closure plate formed therewith respectively, described pneumatic left closure plate with pneumatic right closure plate is respectively equipped with the air hole be connected with described pneumatic valve pipe, the center of described pneumatic right closure plate is provided with the pneumatic slide opening be slidably connected with described piston rod.
Described ore pulp cylinder body by ore pulp cylinder barrel with the left closure plate of ore pulp that is connected of two ends, ore pulp cylinder barrel left and right and the right closure plate of ore pulp formed therewith respectively, the left closure plate of described ore pulp is respectively equipped with the interlock slide opening be slidably connected with described piston rod and vent port, described pneumatic right closure plate is respectively equipped with the ore removal hole that is connected with described ore removal valve and with described enter that ore deposit valve is connected enter hole, ore deposit.
Feature of the present utility model is:
Adopt the utility model can realize quantitative, the time-sharing automatic sampling of ore pulp in chute, sample can reflect the technic index of a period accurately.Solve the inaccurate problem of technic index of sampling limitation that hand sampling brings and reflection.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Embodiment
Embodiment of the present utility model is further illustrated below in conjunction with accompanying drawing.
As shown in Figure 1, quantitative timing ore pulp automatic sampling device of the present utility model, comprise pulp tank 11, it is characterized in that: in described pulp tank 11, be provided with a sampler 12, this sampler 12 with enter pipe 13 and be connected, this enters pipe 13 and enters ore deposit valve 14 and be connected, this enters ore deposit valve 14 and is connected with ore pulp cylinder body 4, this ore pulp cylinder body 4 inside surface and ore pulp piston 5 are slidably connected, this ore pulp piston 5 is connected with one end of piston rod 3, the other end of this piston rod 3 is connected with cylinder piston 2, this cylinder piston 2 is slidably connected with pneumatic cylinder 1 inside surface, this pneumatic cylinder 1 is connected with pneumatic valve 15, this pneumatic valve 15 is also connected with ore removal valve 6 and source of the gas 16 simultaneously, the entrance point of this ore removal valve 6 is connected with described ore pulp cylinder body 4, the endpiece of this ore removal valve 6 is connected with one end of ore pulp effuser 7, sample bucket 9 is provided with below the other end of this ore pulp effuser 7, described enters ore deposit valve 14, ore removal valve 6 is all connected with DCS system 10 with pneumatic valve 15, label 8 is connecting cable, pneumatic cylinder lumen segmentation is become the left chamber of gas and the right chamber of gas by described cylinder piston, ore pulp inner chamber of cylinder block is divided into pneumatic cavity and ore pulp chamber by described ore pulp piston.
Described pneumatic cylinder 1 by pneumatic cylinder 1-2 with respectively therewith the pneumatic left closure plate 1-1 that is connected of pneumatic cylinder about 1-2 two ends and pneumatic right closure plate 1-3 formed, described pneumatic left closure plate 1-1 is respectively equipped with on pneumatic right closure plate 1-3 the air hole be connected with described pneumatic valve 15 pipe, and the center of described pneumatic right closure plate 1-3 is provided with the pneumatic slide opening be slidably connected with described piston rod 3.
Described ore pulp cylinder body 4 by ore pulp cylinder barrel 4-2 with respectively therewith the ore pulp left closure plate 4-1 that is connected of ore pulp cylinder barrel about 4-2 two ends and the right closure plate 4-3 of ore pulp formed, described ore pulp left closure plate 4-1 is respectively equipped with the interlock slide opening and vent port 4-4 that are slidably connected with described piston rod 3, described pneumatic right closure plate 4-3 is respectively equipped with the ore removal hole be connected with described ore removal valve 6 and with described enter that ore deposit valve 14 is connected enter hole, ore deposit.
The utility model controls pneumatic valve 15 by DCS system 10 and commutates to gas, control opening or closing into ore deposit valve 14 and ore removal valve 6 simultaneously, enter ore deposit valve 14 and ore removal valve 6 is retaining valve, cylinder piston 2 drives ore pulp piston 5 to move left and right, the process of moving to left is the ore pulp chamber internal procedure that ore pulp or air enter ore pulp cylinder body, the process of moving to right be ore pulp or air from discharge process in ore pulp chamber, suction ore pulp is sampling process, and suction air is cleaning course.General sampling is once just clean once ensures that each sample index is accurate, samples number of times at the appointed time and is controlled by DCS system setting program.
Claims (3)
1. a quantitative timing ore pulp automatic sampling device, comprise pulp tank, it is characterized in that: in described pulp tank, be provided with a sampler, this sampler with enter pipe and be connected, this enters pipe and enters ore deposit valve and be connected, this enters ore deposit valve and is connected with ore pulp cylinder body, this ore pulp inner surface of cylinder block and ore pulp piston are slidably connected, this ore pulp piston is connected with one end of piston rod, the other end of this piston rod is connected with cylinder piston, this cylinder piston and pneumatic cylinder inside surface are slidably connected, this pneumatic cylinder is connected with pneumatic valve, this pneumatic valve is also connected with ore removal valve and source of the gas simultaneously, the entrance point of this ore removal valve is connected with described ore pulp cylinder body, the endpiece of this ore removal valve is connected with one end of ore pulp effuser, sample bucket is provided with below the other end of this ore pulp effuser, described enters ore deposit valve, ore removal valve is all connected with DCS system with pneumatic valve.
2. quantitative timing ore pulp automatic sampling device according to claim 1, it is characterized in that: described pneumatic cylinder by pneumatic cylinder with the pneumatic left closure plate that is connected of two ends, pneumatic cylinder left and right and pneumatic right closure plate formed therewith respectively, described pneumatic left closure plate with pneumatic right closure plate is respectively equipped with the air hole be connected with described pneumatic valve pipe, the center of described right closure plate is provided with the pneumatic slide opening be slidably connected with described piston rod.
3. quantitative timing ore pulp automatic sampling device according to claim 1, it is characterized in that: described ore pulp cylinder body by ore pulp cylinder barrel with the left closure plate of ore pulp that is connected of two ends, ore pulp cylinder barrel left and right and the right closure plate of ore pulp formed therewith respectively, the left closure plate of described ore pulp is respectively equipped with the interlock slide opening be slidably connected with described piston rod and vent port, described pneumatic right closure plate is respectively equipped with the ore removal hole that is connected with described ore removal valve and with described enter that ore deposit valve is connected enter hole, ore deposit.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520713503.3U CN205015184U (en) | 2015-09-16 | 2015-09-16 | Ration is automatic sampling device of ore pulp regularly |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520713503.3U CN205015184U (en) | 2015-09-16 | 2015-09-16 | Ration is automatic sampling device of ore pulp regularly |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205015184U true CN205015184U (en) | 2016-02-03 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201520713503.3U Active CN205015184U (en) | 2015-09-16 | 2015-09-16 | Ration is automatic sampling device of ore pulp regularly |
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| CN (1) | CN205015184U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN115784286A (en) * | 2022-11-29 | 2023-03-14 | 南京金焰锶业有限公司 | Automatic sampling device and process for continuous carbonization process of strontium carbonate |
-
2015
- 2015-09-16 CN CN201520713503.3U patent/CN205015184U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN115784286A (en) * | 2022-11-29 | 2023-03-14 | 南京金焰锶业有限公司 | Automatic sampling device and process for continuous carbonization process of strontium carbonate |
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| Date | Code | Title | Description |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C56 | Change in the name or address of the patentee | ||
| CP01 | Change in the name or title of a patent holder |
Address after: 114001 Anshan District, Liaoning, No. 219 Road, No. 39, Tiedong Patentee after: Anshan Iron and Steel Group Mining Co., Ltd. Address before: 114001 Anshan District, Liaoning, No. 219 Road, No. 39, Tiedong Patentee before: Anshan Iron & Steel Group Mining Co., Ltd. |