CN219647120U - Moisture remover device for sampling rod - Google Patents

Abstract

The utility model discloses a sampling rod moisture remover device which comprises a sampling tube, a drying tube, a balloon and a butt joint hose, wherein the sampling tube, the drying tube, the balloon and the balloon are sequentially communicated and installed in a sealing way through a plurality of sections of butt joint hoses, the sampling tube is communicated and installed with an air inlet pipe of the drying tube, an air outlet pipe of the drying tube is communicated and installed with an air inlet pipe of the balloon.

Description

Moisture remover device for sampling rod

Technical Field

The utility model relates to the field of a sampling rod moisture remover device, and belongs to the technical field of mining equipment.

Background

The data obtained by monitoring sampling is an effective method for directly judging spontaneous combustion of coal, so that the sampling quality must be ensured, and when drilling gas is collected, the quality of a gas sample is influenced due to the fact that the humidity of a downhole site, particularly the humidity in a goaf is large, and the gas sample containing moisture brings great damage to a chromatograph gas analyzer.

Disclosure of Invention

The utility model aims to provide a sampling rod dehumidifier device which solves the problems in the background technology.

The utility model adopts the following technical scheme for realizing the purposes: the utility model provides a sampling rod deliquescent device, includes sampling tube, drying tube, sacculus, bladder, butt joint hose, and sampling tube, drying tube, sacculus, bladder are through the airtight order intercommunication installation of multisection butt joint hose, and the sampling tube is installed with the intake pipe intercommunication of drying tube, and the outlet duct of drying tube is installed with the intake pipe intercommunication of sacculus.

Preferably, the drying pipe is composed of a front airtight pipe, a main body pipe, a rear airtight pipe, a filter element and a drying agent inner pipe, wherein the front airtight pipe, the main body pipe and the rear airtight pipe are installed in a threaded airtight manner, and the filter element and the drying agent inner pipe are installed in sequence based on the inner diameter of the main body pipe.

Preferably, the drier inner tube comprises preceding filter screen, back filter screen, subregion baffle, backward flow through-hole and water conservancy diversion slope, preceding filter screen and back filter screen are installed according to order fixed-position welding with subregion baffle, have the backward flow through-hole based on subregion baffle plate body axis position machine-shaping, are certain angle inclined welding based on two backward flow through-hole borders and install the water conservancy diversion slope.

Preferably, each partition of the partition baffles is filled with a silica gel desiccant.

Compared with the prior art, the utility model has the beneficial effects that:

the drier inner tube comprises preceding filter screen, back filter screen, subregion baffle, backward flow through-hole and water conservancy diversion slope, and the subregion baffle is divided into four subregions with the silica gel drier and is filled, and the silica gel drier has guaranteed the dehumidification effect of drier through backward flow through-hole and the reciprocal backward flow compounding of water conservancy diversion slope.

Drawings

FIG. 1 is a schematic view of the structure of a sample rod moisture trap apparatus of the present utility model;

FIG. 2 is a schematic view of the mounting structure of the sample rod moisture trap apparatus of the present utility model;

FIG. 3 is a schematic view of a drying tube according to the present utility model;

FIG. 4 is a schematic view of the structure of the desiccant inner tube according to the present utility model;

in the figure: 1. sampling tube 2, drying tube, 3, sacculus, 4, the bladder, 5, butt joint hose, 6, preceding airtight pipe, 7, main part pipe, 8, back airtight pipe, 9, filter core, 10, drier inner tube, 11, preceding filter screen, 12, back filter screen, 13, partition baffle, 14, backward flow through-hole, 15, water conservancy diversion slope.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1-4, the moisture remover device for the sampling rod comprises a sampling tube 1, a drying tube 2, a balloon 3, a bladder 4 and a butt joint hose 5, wherein the sampling tube 1, the drying tube 2, the balloon 3 and the bladder 4 are in airtight sequential communication installation through a plurality of sections of butt joint hoses 5, the sampling tube 1 is in communication installation with an air inlet pipe of the drying tube 2, and an air outlet pipe of the drying tube 2 is in communication installation with the air inlet pipe of the balloon 3.

The drying pipe 2 is composed of a front airtight pipe 6, a main body pipe 7, a rear airtight pipe 8, a filter element 9 and a drying agent inner pipe 10, wherein the front airtight pipe 6, the main body pipe 7 and the rear airtight pipe 8 are installed in a threaded airtight manner, the filter element 9 and the drying agent inner pipe 10 are sequentially installed based on the inner diameter of the main body pipe 7, and the filter element 9 filters solid impurities in air.

The drying agent inner tube 10 is composed of a front filter screen 11, a rear filter screen 12, a partition baffle 13, a backflow through hole 14 and a diversion slope 15, wherein the front filter screen 11, the rear filter screen 12 and the partition baffle 13 are sequentially welded and installed in a positioning mode, the backflow through hole 14 is formed in a machining mode based on the axis position of a plate body of the partition baffle 13, the diversion slope 15 is installed on the edge of the two backflow through holes 14 in an inclined welding mode at a certain angle, and the diversion slope 15 is used for guiding movement of the drying agent during reciprocating movement of the backflow through hole 14.

Each partition of the partition baffle 13 is filled with a silica gel drying agent, and the silica gel drying agent has stable dehumidifying effect and long service time.

The specific use mode is as follows: the utility model provides a sampling rod deliquescent ware device, this device design is applicable to the dehumidification drying process of the gaseous sampling in-process in mine, during the sampling, installs the drying tube additional between sampling rod and bladder, and the gaseous business turn over drying tube that passes through the air vent of gathering absorbs vapor, and then realizes the dehumidification of sampling gas, and the drier inner tube design of drying tube has the partition baffle, and the partition baffle is divided into four partition filling with the silica gel drier, and the silica gel drier has guaranteed the dehumidification effect of drier through back flow through-hole and the reciprocal backward flow compounding of water conservancy diversion slope, has realized the design of the interior drier developments compounding of whole drying tube body.

The foregoing is a preferred embodiment of the present utility model, and it will be apparent to those skilled in the art from this disclosure that changes, modifications, substitutions and alterations can be made without departing from the principles and spirit of the utility model.

Claims (4)

1. The utility model provides a sampling rod deliquescent device, includes sampling tube (1), drying tube (2), sacculus (3), bladder (4), butt joint hose (5), its characterized in that: the air inlet device comprises a sampling tube (1), a drying tube (2), a balloon (3) and a bladder (4), wherein the sampling tube (1) is communicated with an air inlet pipe of the drying tube (2), and an air outlet pipe of the drying tube (2) is communicated with an air inlet pipe of the balloon (3) through a plurality of sections of butt joint hoses (5).

2. A sampling wand dehumidifier apparatus as claimed in claim 1, wherein: the drying pipe (2) comprises a front airtight pipe (6), a main body pipe (7), a rear airtight pipe (8), a filter element (9) and a drying agent inner pipe (10), wherein the front airtight pipe (6), the main body pipe (7) and the rear airtight pipe (8) are installed in a threaded airtight manner, and the filter element (9) and the drying agent inner pipe (10) are installed in sequence based on the inner diameter of the main body pipe (7).

3. A sampling wand moisture trap apparatus according to claim 2, wherein: the drying agent inner tube (10) comprises a front filter screen (11), a rear filter screen (12), partition baffles (13), backflow through holes (14) and diversion slopes (15), wherein the front filter screen (11) and the rear filter screen (12) are installed with the partition baffles (13) according to sequential fixed-position welding, the backflow through holes (14) are formed in the position of the axis of the plate body based on the partition baffles (13), and the diversion slopes (15) are installed on the basis of the fact that the edges of the two backflow through holes (14) are in certain-angle inclined welding.

4. A sampling wand moisture trap apparatus according to claim 3, wherein: each partition of the partition baffle (13) is filled with a silica gel desiccant.