CN216695682U - Continuous monitoring equipment for smoke emission - Google Patents

Abstract

The utility model relates to a continuous monitoring facilities of fume emission relates to the monitoring technology field, and it is including setting up the collection subassembly at sample pipeline sample end, the collection subassembly includes first collecting box and second collecting box, and first collecting box is arranged in the flourishing smoke and dust that blows off in the sample pipeline that connects, and the second collecting box sets up in first collecting box below and communicates with first collecting box, and the second collecting box is used for collecting the sedimentary smoke and dust in the first collecting box. This application has the effect that reduces the smoke and dust and causes secondary pollution's possibility.

Description

Continuous monitoring equipment for smoke emission

Technical Field

The application relates to the technical field of monitoring, in particular to continuous monitoring equipment for smoke emission.

Background

Many industries today emit large quantities of harmful fumes and fumes in projects, and these pollutants are extremely harmful to the environment and to human beings. In recent years, along with the continuous enhancement of environmental awareness of people and the attention of the nation on atmospheric pollution monitoring, the regulation on smoke and fume emission is also increasingly enhanced.

The utility model discloses a chinese utility model patent that the bulletin number is CN207366277U discloses a fume emission continuous monitoring system, including have a plurality ofly respectively with the blowback pipeline of the blowback inlet end of different positions intercommunication in order to form different blowback sections of flue gas sampling pipeline, the blowback pipeline is including can communicateing in the terminal companion's of companion's heat blowback pipeline of heat sampling tube, when companion's heat blowback pipeline and companion's heat sampling tube intercommunication, carries out the blowback to the companion's heat sampling tube, clears up sampling flue gas sampling pipeline to a certain extent.

In view of the above-described related art, the inventors consider that secondary pollution is easily caused by blown smoke when back-blow cleaning is performed on the smoke.

SUMMERY OF THE UTILITY MODEL

In order to reduce the possibility that secondary pollution is caused by smoke, the application provides continuous monitoring equipment for smoke emission.

The application provides a fume emission continuous monitoring equipment adopts following technical scheme:

the continuous monitoring equipment for the smoke emission comprises a collecting assembly arranged at a sampling end of a sampling pipeline, wherein the collecting assembly comprises a first collecting box and a second collecting box, the first collecting box is used for containing smoke blown out from the sampling pipeline, the second collecting box is arranged below the first collecting box and communicated with the first collecting box, and the second collecting box is used for collecting the deposited smoke in the first collecting box.

Through adopting above-mentioned technical scheme, when the smoke and dust in the sample pipeline was blown out, partial smoke and dust fell into first collecting box, fell into the second collecting box via first collecting box, and the deposit also can be swept into the second collecting box in the smoke and dust in first collecting box, and when the smoke and dust accumulation in the second collecting box was more, concentrated the smoke and dust of clearing up in the second collecting box, reduced the smoke and dust and caused secondary pollution's possibility.

Optionally, the second collecting box is detachably connected with the first collecting box.

Through adopting above-mentioned technical scheme, when clearing up the smoke and dust in the second collecting box, be convenient for dismouting second collecting box.

Optionally, a connecting piece is arranged between the second collecting box and the first collecting box, the connecting piece comprises a connecting hopper and a connecting pipe, one end of the connecting hopper is communicated with the first collecting box, and the other end of the connecting hopper is communicated with the second collecting box.

Through adopting above-mentioned technical scheme, the smoke and dust falls into the connecting hopper via first collecting box in, again via connecting hopper and connecting pipe fall into the second collecting box, when reducing the dismantlement second collecting box, the possibility in the first collecting box is floated to the smoke and dust in the second collecting box.

Optionally, the bottom of the first collecting box is arranged obliquely.

Through adopting above-mentioned technical scheme, the smoke and dust of being convenient for deposit in first collecting box falls into the connecting hopper.

Optionally, the collecting assembly further includes a first dust-proof plate, the first dust-proof plate is disposed at one end of the first collecting box far away from the sampling pipeline, a sliding groove is formed in a side wall of the first collecting box, the first dust-proof plate slides along the sliding groove close to or far away from a bottom wall of the first collecting box, and the first collecting box is divided into a dust collecting cavity and a sampling cavity by the first dust-proof plate.

Through adopting above-mentioned technical scheme, when dismantling the second collecting box, first dust partition plate separates first collecting box, reduces the possibility that the smoke and dust falls into the sample pipeline again.

Optionally, the collecting assembly further comprises a second dust-proof plate and a blowing piece, the second dust-proof plate is far away from the sampling pipeline and is connected with the top end of the first collecting box, the second dust-proof plate can seal the dust collecting cavity, a blowing opening is formed in the second dust-proof plate, and the blowing piece is connected with the blowing opening of the second dust-proof plate.

Through adopting above-mentioned technical scheme, when clearing up the dust collection chamber in the first collecting box, start the piece of blowing, the piece of blowing is bloied the inside wall that the dust collection chamber that first collecting box, first dust barrier and second dust barrier enclose establishes into for sedimentary smoke and dust falls into in the second collecting box.

Optionally, the lower end of the first dust-separation plate is connected with a driving part, and the driving part is used for driving the first dust-separation plate to lift.

Through adopting above-mentioned technical scheme, when first collecting box and second collecting box normal use, start the driving piece, the driving piece drives first dust removal board and rises for the dust collection chamber communicates with the sample chamber, is convenient for collect the smoke and dust to the second collecting box in.

Optionally, a filter opening is formed in the second collecting box close to the connecting pipe, and a filter screen is connected to the filter opening.

Through adopting above-mentioned technical scheme, when starting the hair-dryer, the filter screen not only makes the second collecting box keep ventilating, is convenient for collect the smoke and dust, filters the smoke and dust simultaneously, reduces the smoke and dust and causes secondary pollution.

In summary, the present application includes at least one of the following beneficial technical effects:

by arranging the first collecting box and the second collecting box, part of smoke dust is subjected to primary deposition in the first collecting box, and part of smoke dust enters the second collecting box through the first collecting box to collect the smoke dust blown out of the sampling pipeline, so that the possibility of secondary pollution caused by the smoke dust is reduced;

through setting up the piece of blowing, first dust removal board and second dust removal board, first dust removal board, second dust removal board and first collecting box enclose and establish into the dust collection chamber, and the piece of blowing restarts blows in the second collecting box to the sedimentary smoke and dust of first dust removal board, second dust removal board and first collecting box inside wall, collects the smoke and dust, and the reduction smoke and dust causes secondary pollution.

Drawings

Fig. 1 is a schematic structural diagram of a continuous monitoring device for smoke emission according to an embodiment of the present application.

Fig. 2 is a perspective sectional view of a smoke emission continuous monitoring apparatus of an embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Description of reference numerals: 1. a collection assembly; 11. a first collection tank; 111. a dust collecting plate; 112. an inclined plate; 113. a chute; 12. a second collection tank; 121. a filter port; 122. a filter screen; 123. a connecting member; 1231. a connecting hopper; 1232. a connecting pipe; 13. a first dust barrier; 131. a drive member; 14. a second dust-proof plate; 141. an air blowing port; 15. a blowing member; 2. a dust collection chamber; 3. a sampling cavity.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses fume emission continuous monitoring equipment.

Referring to fig. 1 and 2, the continuous monitoring equipment for smoke emission comprises a collecting assembly 1, the collecting assembly 1 comprises a first collecting box 11 and a second collecting box 12, the first collecting box 11 is connected to a sampling end of a sampling pipeline through a bolt, the first collecting box 11 is a box body with an upper end and a lower end both provided with an open cuboid, a dust collecting plate 111 is welded at one end, away from the sampling pipeline, of the first collecting box 11, an inclined plate 112 is welded at one end, close to the sampling pipeline, of the dust collecting plate 111, the upper surface of the dust collecting plate 111 is parallel to the upper surface of the first collecting box 11, one end of the inclined plate 112 is welded with the dust collecting plate 111, the other end of the inclined plate is fixedly connected with the sampling pipeline through a bolt, one end, close to the sampling pipeline, of the inclined plate 112 is higher than one end, close to the dust collecting plate 111, of the first collecting box 11 is used for containing smoke blown out from the sampling pipeline, and dust deposited on the dust collecting plate 111 is facilitated by the inclined plate 112.

The second collecting box 12 is arranged below the first collecting box 11, a connecting piece 123 is arranged between the second collecting box 12 and the first collecting box 11, the connecting piece 123 comprises a connecting hopper 1231 and a connecting pipe 1232, one end of the connecting hopper 1231 with a larger opening is fixedly connected with the bottom of the first collecting box 11 through a bolt, one end of the connecting pipe 1232 is communicated with the connecting hopper 1231, the other end of the connecting pipe is fixedly connected with the second collecting box 12 through a flange, and the first collecting box 11 is communicated with the second collecting box 12 through the connecting piece 123; the first collecting box 11 is used for containing smoke dust blown out from the sampling pipeline, and the second collecting box 12 is used for collecting the smoke dust deposited in the first collecting box 11. Second collecting box 12 is close to connecting pipe 1232 department and has seted up filtration mouth 121, and filtration mouth 121 department elasticity joint has filter screen 122, and filter screen 122 not only makes second collecting box 12 keep ventilating, is convenient for collect the smoke and dust, filters the smoke and dust simultaneously, and the reduction smoke and dust causes secondary pollution.

Referring to fig. 2 and 3, the collecting assembly 1 further includes a first dust-proof plate 13, a second dust-proof plate 14 and a blowing member 15, the first dust-proof plate 13 is disposed at an end of the first collecting box 11 away from the sampling pipeline, a sliding slot 113 is formed in a side wall of the first collecting box 11 along a height direction of the first collecting box, the first dust-proof plate 13 slides along the sliding slot 113, a driving member 131 is connected to a lower end of the first dust-proof plate 13, the driving member 131 is a cylinder, an output end of the driving member 131 penetrates through the first collecting box 11 and is connected to the first dust-proof plate 13 through a bolt, a housing of the driving member 131 is fixedly connected to an outer side of the first collecting box 11 through a bolt, the driving member 131 can drive the first dust-proof plate 13 to ascend and descend, when the driving member 131 drives the first dust-proof plate 13 to descend, the bottom surface of the first dust-proof plate 13 is engaged with the upper surface of the dust-proof plate 111, and at this time, the first dust-proof plate 13 divides the first collecting box 11 into the dust-proof chamber 2 and the sampling chamber 3, and the dust-proof chamber 2 is used for collecting dust deposited or sliding from the inclined plate 112 onto the dust-proof plate 111.

Referring to fig. 2 and 3, the second dust-proof plate 14 is far away from the sampling pipeline and is fixedly connected with the top end of the first collection box 11 through a bolt, the upper surface of the second dust-proof plate 14 is parallel to the upper surface of the first collection box 11, the second dust-proof plate 14 can seal the dust collection cavity 2, an air blowing port 141 is formed in the second dust-proof plate 14, an air blowing piece 15 is connected to the air blowing port 141 of the second dust-proof plate 14, and the air blowing piece 15 is an air blower. When the first collection box 11, the first dust-proof plate 13 and the second dust-proof plate 14 enclose the dust-collecting chamber 2, the blowing piece 15 is started, and the blowing piece 15 blows the inner side wall of the dust-collecting chamber 2 enclosed by the first collection box 11, the first dust-proof plate 13 and the second dust-proof plate 14, so that deposited smoke dust falls into the second collection box 12.

The implementation principle of the continuous monitoring equipment for flue gas emission in the embodiment of the application is as follows: when the sampling pipeline is subjected to back flushing, the driving part 131 is started, the driving part 131 drives the first dust-separation plate 13 to ascend, the back-flushed smoke dust falls into the first collection box 11, falls into the dust-collection plate 111 through the inclined plate 112, falls into the connecting hopper 1231 through the dust-collection plate 111, falls into the second collection box 12 through the connecting pipe 1232, and the smoke gas is discharged out of the second collection box 12 through the filter screen 122; when the more dust of first collecting box 11 inside wall adhesion, start driving piece 131, driving piece 131 drives first dust removal board 13 and descends, make first collecting box 11, first dust removal board 13 and second dust removal board 14 enclose and establish into sealed dust collection chamber 2, open and blow a 15, it is to first collecting box 11 to blow a 15, the inside wall of dust collection chamber 2 that first dust removal board 13 and second dust removal board 14 enclose and establish bloies, make sedimentary smoke and dust fall into second collecting box 12, when collecting the dust, reduce the possibility that the smoke and dust caused secondary pollution.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. Continuous monitoring facilities of fume emission, its characterized in that: including setting up collection subassembly (1) at sample pipeline sample end, collection subassembly (1) includes first collecting box (11) and second collecting box (12), and first collecting box (11) are arranged in connecing the smoke and dust that blows off in the sample pipeline greatly, and second collecting box (12) set up in first collecting box (11) below and with first collecting box (11) intercommunication, and second collecting box (12) are arranged in collecting the sedimentary smoke and dust in first collecting box (11).

2. The fume emission continuous monitoring apparatus according to claim 1, wherein: the second collecting box (12) is detachably connected with the first collecting box (11).

3. The fume emission continuous monitoring apparatus according to claim 2, wherein: be provided with connecting piece (123) between second collecting box (12) and first collecting box (11), connecting piece (123) are including connecting hopper (1231) and connecting pipe (1232), connecting hopper (1231) one end and first collecting box (11) intercommunication, the other end and second collecting box (12) intercommunication.

4. The fume emission continuous monitoring apparatus according to claim 1, wherein: the bottom of the first collecting box (11) is obliquely arranged.

5. The fume emission continuous monitoring apparatus according to claim 1, wherein: the collecting assembly (1) further comprises a first dust separation plate (13), the first dust separation plate (13) is arranged at one end, away from the sampling pipeline, of the first collecting box (11), a sliding groove (113) is formed in the side wall of the first collecting box (11), the first dust separation plate (13) slides along the bottom wall, close to or away from the first collecting box (11), of the sliding groove (113), and the first collecting box (11) is divided into a dust collection cavity (2) and a sampling cavity (3) by the first dust separation plate (13).

6. The fume emission continuous monitoring apparatus according to claim 1, wherein: the collection assembly (1) further comprises a second dust-proof plate (14) and a blowing piece (15), the second dust-proof plate (14) is far away from the sampling pipeline and is connected with the top end of the first collection box (11), the second dust-proof plate (14) can seal the dust collection cavity (2), a blowing opening (141) is formed in the second dust-proof plate (14), and the blowing piece (15) is connected with the blowing opening (141) of the second dust-proof plate (14).

7. The fume emission continuous monitoring apparatus according to claim 5, wherein: the lower end of the first dust-proof plate (13) is connected with a driving piece (131), and the driving piece (131) is used for driving the first dust-proof plate (13) to lift.

8. The fume emission continuous monitoring apparatus according to claim 3, wherein: the second collecting box (12) is provided with a filtering port (121) near the connecting pipe (1232), and the filtering port (121) is connected with a filtering net (122).

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