CN202614557U - Sampling device for pyrophyllite micro-powders - Google Patents

Abstract

The utility model discloses a sampling device for pyrophyllite micro-powders, which comprises a delivery pipe, wherein the delivery pipe comprises a feed opening and a discharge port; the discharge port is connected with a bin inlet pipe; the delivery pipe is provided with a sending tank; the sending tank is communicated with a gas blow pipe; a gas blow pipe valve is arranged on the gas blow pipe; a delivery pipe valve is arranged on the delivery pipe between the sending tank and the feed opening; the upper part of the discharge port is connected with a sampling tube; a sampling tank is arranged at the outlet of the sampling tube; and a sampling tube valve is arranged on the sampling tube. The gas blow pipe valve, the delivery pipe valve and the sampling tube valve are respectively connected with a control center in a controlling manner. The gas blow pipe blows powders in the sending tank into the sampling tube, so that the ingredients of the powders which fall into the sampling tank finally are mostly identical to the ingredients of the powders flowing through the delivery pipe, and the accuracy of detection results can be improved; and the control center is adopted to control the on-off of the pipe valves, so that automatic sampling can be achieved, the labor intensity of manual work can be reduced, and the scientificity and the accuracy rate of the sampling detection can be further improved at the same time.

Description

A kind of sampler of pyrophillite micro mist

Technical field

The utility model relates to a kind of production equipment of pyrophillite micro mist, a kind of specifically sampler that the pyrophillite micro mist behind the semi-manufacture is detected in advance usefulness.

Background technology

The pyrophillite powder of nanometer particle size is a primary raw material of making spun glass because of its Main Ingredients and Appearance is silicon dioxide and alundum (Al.Because of the silicon dioxide that contained in the various pyrophillite ores and the content of alundum (Al are not quite similar, the pyrophillite ore through after first broken, the thin broken and abrasive dust, need regularly carry out the detection of composition to half-finished micro mist.Existing pyrophillite micro mist detects the sampler of usefulness and just on the tube wall of delivery pipe, opens a hole usually, and a ball valve switch is installed on the hole again, through the folding of ball valve switch, detects the micro mist that sticks to ball valve switch inwall as sample.But being the content that sticks to the alundum (Al of the pyrophillite micro mist on the tube wall, actual conditions to be higher than the content of the alundum (Al of the pyrophillite micro mist of flowing through in the delivery pipe; Cause testing result and actual conditions to have deviation; Simultaneously; Sampling can only be adopted manual mode, and is both inconvenient, also wayward sample time.

The utility model content

For overcoming above-mentioned defective, the utility model aims to provide a kind ofly both can easily take a sample, and can obtain the sampler of the pyrophillite micro mist of testing result comparatively accurately simultaneously again.

For achieving the above object, the technical scheme that the utility model adopts is: a kind of sampler of pyrophillite micro mist comprises a delivery pipe with charging aperture and discharging opening; Be connected with on the said discharging opening one with the perpendicular warehouse entry pipe of delivery pipe; On delivery pipe, have one and send jar, said two ends that send jar are connected with gas blow pipe respectively, and said gas blow pipe is provided with an air blowing pipe valve; Have one on the said delivery pipe that sends between jar and the charging aperture and carry pipe valve; The top of said discharging opening is connected with an inverted U-shaped stopple coupon, and the exit of said stopple coupon is provided with a sampling jar, and said stopple coupon is provided with the sampling pipe valve.

The sampler of the pyrophillite micro mist of the utility model also comprises a control center, said air blowing pipe valve, carry pipe valve and sampling pipe valve respectively with control center's control linkage.

Has a level-sensing device, said level-sensing device and control center's control linkage on the said transmission jar.

Adopted the sampler of the pyrophillite micro mist of the utility model, at first powder is stirred in sending jar fully, then; Blow to stopple coupon to the powder that sends in the jar through gas blow pipe; Make and finally fall the powder composition basically identical of flowing through in interior powder of sampling jar and the delivery pipe, improved the accuracy of testing result, simultaneously; Adopt the control of control center to the keying of each pipe valve; Make sampling realize robotization, both reduced artificial labour intensity, further improved science and accuracy rate that sampling detects simultaneously.

Description of drawings

Fig. 1 is the structural representation of the utility model.

Among the figure: 1-charging aperture, 2-discharging opening, 3-delivery pipe, 4-send jar, the 5-gas blow pipe, and 6-air blowing pipe valve, 7-carries pipe valve, 8-warehouse entry pipe, 9-stopple coupon, the 10-pipe valve of taking a sample, 11-control center, 12-level-sensing device, 13-sampling jar.

Embodiment

As shown in Figure 1; The utility model discloses a kind of sampler of pyrophillite micro mist; Comprise a delivery pipe 3 with charging aperture 1 and discharging opening 2, be connected with on the said discharging opening 2 one with the perpendicular warehouse entry pipe 8 of delivery pipe 3, half-finished pyrophillite micro mist is by charging aperture 1 entering; Get into warehouse entry pipe 8 through delivery pipe 3 from discharging opening 2, finally get into bin.

The innovative point of the sampler of the pyrophillite micro mist of the utility model mainly is on delivery pipe 3, to have one and sends jar 4; Said two ends that send jar 4 are connected with gas blow pipe 5 respectively; Said gas blow pipe 5 is provided with an air blowing pipe valve 6, and said gas blow pipe 5 also needs to be connected with compressed air gas source; Have one on the said delivery pipe 3 that sends between jar 4 and the charging aperture 1 and carry pipe valve 7; The top of said discharging opening 2 is connected with an inverted U-shaped stopple coupon 9; The exit of said stopple coupon 9 is provided with a sampling jar 13, and said stopple coupon 9 is provided with sampling pipe valve 10.

When normal operating conditions, said conveying pipe valve 7 is for what often open, and said air blowing pipe valve 6 is normally closed with sampling pipe valve 10.When needs are taken a sample to the pyrophillite micro mist; At first need close and carry pipe valve 7, open air blowing pipe valve 6 and sampling pipe valve 10 then simultaneously, like this; The gases at high pressure that compressed air gas source produces get into through gas blow pipe 5 and send in the jar 4; When sending pyrophillite micro mists in jars 4 and blow to discharging opening 2, there is part pyrophillite micro mist to get into sampling jar 13 through stopple coupon 9, realized the pyrophillite micro mist is taken a sample.After sampling finishes, at first close air blowing pipe valve 6 and sampling pipe valve 10, open then and carry pipe valve 7, get back to normal duty again.

For the robotization that realizes the pyrophillite micro mist is taken a sample; Reduce artificial labour intensity; Simultaneously also be for through the timing sampling of pyrophillite micro mist being realized the accuracy of final test results; The sampler of the pyrophillite micro mist of the utility model can also be provided with a control center 11, said air blowing pipe valve 6, carry pipe valve 7 and sampling pipe valve 10 respectively with control center's 11 control linkages.Timing controlled is carried out in keying through 11 pairs of air blowing pipe valves 6 of control center, conveying pipe valve 7 and sampling pipe valve 10, realizes the pyrophillite micro mist is taken a sample automatically.

Another innovative point of the sampler of the pyrophillite micro mist of the utility model is to have a level-sensing device 12 on the said transmission jar 4, said level-sensing device 12 and control center's 11 control linkages.When the powder that sends jar 4 arrived certain amount, level-sensing device 12 sent signal and gives control center 11, and 11 pairs of air blowing pipe valves 6 of control center, conveying pipe valve 7 and sampling pipe valve 10 send the action that signal is opened or closed then, realize primary sample.

Claims (3)

1. the sampler of a pyrophillite micro mist; Comprise a delivery pipe (3) with charging aperture (1) and discharging opening (2); Be connected with on the said discharging opening (2) one with the perpendicular warehouse entry pipe (8) of delivery pipe (3); It is characterized in that on delivery pipe (3), having one and send jar (4), said two ends that send jar (4) are connected with gas blow pipe (5) respectively, and said gas blow pipe (5) is provided with an air blowing pipe valve (6); Have one on the said delivery pipe (3) that sends between jar (4) and the charging aperture (1) and carry pipe valve (7); The top of said discharging opening (2) is connected with an inverted U-shaped stopple coupon (9), and the exit of said stopple coupon (9) is provided with a sampling jar (13), and said stopple coupon (9) is provided with sampling pipe valve (10).

2. the sampler of pyrophillite micro mist according to claim 1 is characterized in that it also comprises a control center (11), said air blowing pipe valve (6), carry pipe valve (7) with take a sample pipe valve (10) respectively with control center (11) control linkage.

3. the sampler of pyrophillite micro mist according to claim 2 is characterized in that having a level-sensing device (12) in the said transmission jar (4), said level-sensing device (12) and control center (11) control linkage.