CN215262669U - Sampling device in carbon emission total amount on-line continuous analysis and measurement system - Google Patents

Abstract

The utility model provides a sampling device among the online continuous analysis measurement system of total amount of carbon emission belongs to the online continuous analysis measurement system of total amount of carbon emission and samples technical field, include: the device comprises a sampling rod, a loading mechanism, an ash collecting box, a blocking cover, a movable column, an ash removing steel plate and a reciprocating push-pull mechanism, wherein the reciprocating push-pull mechanism is connected with the movable column so as to enable the movable column to reciprocate in a linear sampling channel in the sampling rod. The utility model provides a current collection pipe among the sampling device because the dust blocks up, need the artifical clearance of interval time, waste time and energy, inefficiency is unfavorable for the problem of the high-efficient operation of the online continuous analysis measurement system of carbon emission total amount.

Description

Sampling device in carbon emission total amount on-line continuous analysis and measurement system

The technical field is as follows:

the utility model belongs to the technical field of sampling among the online continuous analysis measurement system of carbon emission total amount, concretely relates to sampling device among the online continuous analysis measurement system of carbon emission total amount.

Background art:

the carbon emission total on-line continuous analysis and measurement system provides timely and reliable data for monitoring and accounting the greenhouse gas emission of carbon dioxide.

Sampling device is playing the effect of gathering carbon dioxide in the online continuous analysis measurement system of total amount of carbon emission, however, its in-process at factory flue waste gas collection, the collection pipe among this sampling device is because the dust blocks up, needs the artifical clearance of interval time, wastes time and energy, and is inefficient, is unfavorable for the online continuous analysis measurement system high-efficient operation of total amount of carbon emission.

The utility model has the following contents:

the embodiment of the utility model provides a sampling device among the online continuous analysis measurement system of carbon emission total amount has solved the collection pipe among the current sampling device because the dust blocks up, needs the artifical clearance of bay time, wastes time and energy, and is inefficient, is unfavorable for the problem of the online continuous analysis measurement system high-efficient operation of carbon emission total amount.

The embodiment of the utility model provides a sampling device among carbon emission total amount on-line continuous analysis measurement system, include:

the sampling rod is internally provided with a through linear sampling channel and a sampling hole is formed in the side wall of a pipe section extending into the flue;

a loading mechanism that mounts the sampling rod on the flue;

the side wall of the ash collecting box is provided with a sampling output port, the ash collecting box is installed on the loading mechanism, the tail end of the sampling rod, which is positioned outside the flue, is inserted into the ash collecting box body, and a linear sampling channel in the sampling rod is communicated with the interior of the ash collecting box;

the blocking cover is arranged on and covers the head end of the sampling rod in the flue;

the first end of the movable column penetrates through the dust collection box and can extend to the end head in the linear sampling channel in the sampling rod, and the diameter of the movable column is smaller than the aperture of the linear sampling channel in the sampling rod;

the ash removal steel plate is fixedly connected to the first end head of the movable column;

and the reciprocating push-pull mechanism is connected with the movable column so as to reciprocate the movable column in the linear sampling channel in the sampling rod.

In one or more embodiments, the loading mechanism comprises:

a support table installed outside the flue;

the sheath tube is sleeved on the sampling rod and connected to the supporting table; and

a mounting flange mounting the sheathing tube on the flue.

In one or more embodiments, the reciprocating push-pull mechanism comprises:

an installation table installed outside the flue;

the side part of the clamping block is provided with a slide way, and the bottom of the clamping block is arranged on the mounting table;

the sliding long plate is horizontally arranged, connected to the clamping block and capable of sliding on the slide way of the clamping block;

the rack is fixedly connected to the front side surface of the sliding long plate;

the driving device is meshed with the rack and can drive the rack to move;

the top of the supporting block is provided with a sliding hole for the movable column to slide, and the supporting block is arranged on the mounting table; and

and one end of the connecting rod is fixedly connected with the second end of the movable column, and the other end of the connecting rod is fixedly connected with one end of the sliding long plate.

In one or more embodiments, the driving device includes:

a driving motor installed on the installation table;

a driving shaft vertically disposed and connected to the driving motor; and

and the gear is in key connection with the driving shaft and is meshed with the rack.

In one or more embodiments, one end of the connecting rod is connected to the second end of the movable post by a bolt.

In one or more embodiments, the connecting rod is L-shaped.

In one or more embodiments, the sampling device in the online continuous analysis and measurement system for total carbon emissions further includes:

the fan is arranged outside the flue;

one end of the air inlet pipe is connected with the fan, and the other end of the air inlet pipe extends into the linear sampling channel of the sampling rod;

and the control valve is arranged on the air inlet pipe.

The embodiment of the utility model provides an in the online continuous analysis measurement system of carbon emission total amount sampling device adopt reciprocal push-pull mechanism with the post reciprocating motion in the sharp sampling passageway of sampling pole, and drive dust cleaning to the collection ash incasement in the straight line sampling passageway of deashing steel sheet with the sampling pole, accomplish the interior dust cleaning work of the straight line sampling passageway of sampling pole, at the in-process of this dust cleaning, need not carry out the dismouting with sampling device on the flue, the closing cap can avoid during the large particle size impurity gets into sharp sampling passageway in the flue, in order to block up the sampling device sampling, this sampling device has solved the collection pipe among the current sampling device because the dust blocks up, need interval time manual cleaning, waste time and energy, low efficiency, be unfavorable for the online continuous analysis measurement system high-efficient problem of operation of carbon emission total amount.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Description of the drawings:

the accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of a sampling device in an on-line continuous analysis and measurement system for carbon emission total amount according to an embodiment of the present invention;

reference numerals: 10. a sampling rod; 101. a linear sampling channel; 102. a sampling hole; 20. a flue; 30. a loading mechanism; 301. a support table; 302. sheathing a pipe; 303. installing a flange; 40. A dust collection box; 401. a sampling output port; 50. a blocking cover; 60. a movable post; 70. cleaning a steel plate; 80. a reciprocating push-pull mechanism; 801. an installation table; 802. a clamping block; 803. a sliding long plate; 804. a rack; 805. a drive device; 8051. a drive motor; 8052. a drive shaft; 8053. a gear; 806. a bolt; 807. a connecting rod; 90. a fan; 100. an air inlet pipe; 110. and (4) controlling the valve.

The specific implementation mode is as follows:

in order to make the technical solution of the present invention's purpose, technical solution and advantages clearer, the following description will be combined with the drawings of the specific embodiments of the present invention, to carry out clear and complete description on the technical solution of the embodiments of the present invention. Like reference symbols in the various drawings indicate like elements. It should be noted that the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a sampling device in a carbon emission total amount online continuous analysis and measurement system, including: the device comprises a sampling rod 10, a loading mechanism 30, an ash collection box 40, a blocking cover 50, a movable column 60, an ash removal steel plate 70 and a reciprocating push-pull mechanism 80.

The sampling rod 10 is internally provided with a straight sampling channel 101 which is penetrated, and a sampling hole 102 is formed in the side wall of a pipe section which extends into the flue 20;

the loading mechanism 30 mounts the sampling rod on the flue 20;

a sampling output port 401 is formed in the side wall of the ash collecting box 40, the ash collecting box 40 is installed on the loading mechanism 30, the tail end of the sampling rod 10, which is positioned outside the flue 20, is inserted into the ash collecting box 40, and a linear sampling channel 101 in the sampling rod 10 is communicated with the interior of the ash collecting box 40;

the blocking cover 50 is arranged on and covers the head end of the sampling rod positioned in the flue 20;

the first end of the movable column 60 penetrates through the dust collection box 40 and can extend to the end head in the linear sampling channel 101 in the sampling rod 10, and the diameter of the movable column 60 is smaller than the aperture of the linear sampling channel 101 in the sampling rod 10; the movable post 60 does not interfere with the collection of exhaust gas within the linear sampling channel 101 within the sampling rod 10.

The ash removal steel plate 70 is fixedly connected to the first end head of the movable column 60;

the reciprocating push-pull mechanism 80 is coupled to the movable column 60 to reciprocate the movable column 60 within the linear sampling passage 101 in the sampling rod 10.

Initially, the deashing steel plate 70 is at the end of the linear sampling channel 101 in the sampling rod 10, which is located in the flue 20, the sampling hole 102 is at a position on the sampling rod 10 near its end, the sampling hole 102 is kept a certain distance away from the ash removal steel plate 70 at the initial position, so that the ash removal steel plate 70 does not obstruct the waste gas in the flue 20 from entering the linear sampling channel 101 in the sampling rod 10 through the sampling hole 102, when the normal sampling of the sampling device is affected by excessive dust in the linear sampling channel 101 in the sampling rod 10, the reciprocating push-pull mechanism 80 drives the movable column 60 to move, thereby promoting the ash removing steel plate 70 to slide in the linear sampling channel 101 in the sampling rod 10, the dust in the dust collecting box can be cleaned to the dust collecting box 40, and the sampling output port 401 on the side wall of the dust collecting box 40 can lead the collected waste gas to other analysis devices in the carbon emission total quantity on-line continuous analysis and measurement system.

The sampling device in the on-line continuous analysis and measurement system for the total carbon emission in the embodiment of the utility model adopts the reciprocating push-pull mechanism 80 to reciprocate the movable column 60 in the linear sampling channel 101 in the sampling rod 10, and drives the dust cleaning steel plate 70 to clean the dust in the linear sampling channel 101 of the sampling rod 10 into the dust collecting box 40, so as to complete the dust cleaning work in the linear sampling channel 101 of the sampling rod 10, in the dust cleaning process, the sampling device does not need to be disassembled and assembled on the flue 20, the closing cover can prevent impurities with large particle size in the flue 20 from entering the linear sampling channel 101 to block the sampling device for sampling, this sampling device has solved the collection pipe among the current sampling device because the dust blocks up, needs the artifical clearance of interval time, wastes time and energy, and is inefficient, is unfavorable for the problem of the online continuous analysis measurement system high-efficient operation of carbon emission total amount.

In one embodiment, the loading mechanism 30 includes: support table 301, shield tube 302, and mounting flange 303.

Supporting table 301 is installed outside flue 20, and protecting pipe 302 suit is on sampling rod 10 and is connected on supporting table 301, and protecting pipe 302 is installed on flue 20 to mounting flange 303.

In one embodiment, the reciprocating push-pull mechanism 80 includes: a mounting table 801, a clamping block 802, a sliding long plate 803, a rack 804, a driving device 805, a supporting block and a connecting rod 807.

The mounting table 801 is mounted outside the flue 20;

the side of the clamping block 802 is provided with a slide way, and the bottom of the clamping block 802 is arranged on the mounting table 801;

the sliding long plate 803 is horizontally placed and connected to the clamping block 802 and can slide on the slide way of the clamping block 802;

the rack 804 is fixedly connected to the front side surface of the sliding long plate 803;

the driving device 805 is meshed with the rack 804 and can drive the rack 804 to move;

the top of the supporting block 806 is provided with a sliding hole for the movable column 60 to slide, and the supporting block 806 is installed on the installation platform 801; and

one end of the connecting rod 807 is fixedly connected to the second end of the movable column 60 and the other end is fixedly connected to one end of the sliding long plate 803.

The driving device 805 drives the rack 804 to move, so that the sliding long plate 803 slides in the slide way of the clamping block 802, and the connecting rod 807 moves under the action of the sliding long plate 803, and drives the movable column 60 to move in the linear sampling channel 101 of the sampling rod 10.

In one embodiment, the driving device 805 includes: a drive motor 8051, a drive shaft 8052, and a gear 8053.

The driving motor 8051 is mounted on the mounting table 801; the driving shaft 8052 is vertically placed and connected to the driving motor 8051;

gear 8053 is keyed to drive shaft 8052 and engages rack 804.

Preferably, one end of the connecting rod 807 is bolted to the second end of the movable post 60.

Preferably, the connecting rod 807 is L-shaped.

In one embodiment, the sampling device in the online continuous analysis and measurement system for total carbon emission further comprises: a fan 90, an air inlet duct 100 and a control valve 110.

The fan 90 is arranged outside the flue 20; one end of the air inlet pipe 100 is connected with the fan 90, and the other end extends into the linear sampling channel 101 of the sampling rod 10; the control valve 110 is installed on the intake duct 100.

The design scheme assists in cleaning impurities in the linear sampling channel 101 in the sampling rod 10, specifically, the control valve 110 is opened, the fan 90 conveys wind power into the linear sampling channel 101 of the sampling rod 10 through the air inlet pipe 100, and dust in the linear sampling channel 101 is cleaned into the dust collection box 40 or enters the flue 20 through the sampling hole 102.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the technical means, but also comprises the technical scheme consisting of the equivalent replacement of the technical features. The present invention is not to be considered as the best thing, and belongs to the common general knowledge of the technicians in the field.

Claims (7)

1. A sampling device in a carbon emission total quantity on-line continuous analysis and measurement system is characterized by comprising:

the sampling rod (10) is internally provided with a through linear sampling channel (101) and a sampling hole (102) on the side wall of a pipe section extending into the flue (20);

a loading mechanism (30) that mounts the sampling rod on the flue (20);

the side wall of the ash collecting box (40) is provided with a sampling output port (401), the ash collecting box (40) is installed on the loading mechanism (30), the tail end of the sampling rod (10) which is positioned outside the flue (20) is inserted into the ash collecting box (40), and a linear sampling channel (101) in the sampling rod (10) is communicated with the interior of the ash collecting box (40);

a blocking cover (50) mounted on and covering the sampling rod at the head end inside the flue (20);

a first end of the movable column (60) penetrates through the dust collection box (40) and can extend to the end head in a linear sampling channel (101) in the sampling rod (10), and the diameter of the movable column (60) is smaller than the aperture of the linear sampling channel (101) in the sampling rod (10);

the ash removal steel plate (70) is fixedly connected to the first end head of the movable column (60);

a reciprocating push-pull mechanism (80) connected to the movable column (60) to reciprocate the movable column (60) within a linear sampling channel (101) within the sampling rod (10).

2. The sampling device in the total carbon emission amount on-line continuous analysis measuring system according to claim 1, wherein the loading mechanism (30) comprises:

a support table (301) mounted outside the flue (20);

a sheath tube (302) which is sleeved on the sampling rod (10) and is connected to the support platform (301); and

a mounting flange (303) mounting the sheathing tube (302) on the flue (20).

3. The sampling device in the total carbon emission online continuous analysis and measurement system according to claim 2, wherein the reciprocating push-pull mechanism (80) comprises:

an installation table (801) installed outside the flue (20);

a clamping block (802) with a slide way on the side, wherein the bottom of the clamping block (802) is installed on the installation platform (801);

a sliding long plate (803) which is horizontally placed and connected to the clamping block (802) and can slide on the slide way of the clamping block (802);

a rack (804) fixedly connected to a front side surface of the sliding long plate (803);

a driving device (805) which is meshed with the rack (804) and can drive the rack (804) to move;

a supporting block (806) with a sliding hole at the top for sliding the movable column (60), wherein the supporting block (806) is installed on the installation platform (801); and

and a connecting rod (807) having one end fixedly connected to the second end of the movable column (60) and the other end fixedly connected to one end of the sliding long plate (803).

4. The sampling device in the total carbon emission amount on-line continuous analysis measuring system according to claim 3, wherein the driving device (805) comprises:

a drive motor (8051) mounted on the mounting table (801);

a driving shaft (8052) vertically placed and connected to the driving motor (8051); and

a gear (8053) keyed on the drive shaft (8052) and meshing with the rack (804).

5. The sampling device in the total carbon emission amount on-line continuous analysis measuring system according to claim 4, wherein one end of the connecting rod (807) is connected to the second end of the movable column (60) by a bolt.

6. The sampling apparatus in the total carbon emission amount on-line continuous analysis measuring system according to claim 5, wherein the connecting rod (807) has an L-shape.

7. The sampling device in the total carbon emission online continuous analysis and measurement system according to claim 6, wherein the sampling device in the total carbon emission online continuous analysis and measurement system further comprises:

a fan (90) disposed outside the flue (20);

an air inlet pipe (100), one end of which is connected with the fan (90) and the other end of which extends into the linear sampling channel (101) of the sampling rod (10);

a control valve (110) mounted on the air inlet duct (100).

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