KR101820653B1 - Joining apparatus of suction line for collecting chimney exhaust gas - Google Patents

Abstract

The present invention relates to a device for fastening a suction line contained in a collection device to collect harmful substances contained in exhaust gas exhausted from a chimney installed in an industrial facility such as a power plant, an incineration plant, or a factory. More specifically, a fastening support is provided between a fixing block fixated and fastened to the outside of the chimney and a fastening block where the suction line is fastened, and the fastening block can be rotated at a predetermined angle with respect to the fixing block by the fastening support to relieve shaking even if the suction line is shaken by an external force such as wind and prevent the suction line from being separated from the chimney by the shaking.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a chimney exhaust gas collecting apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for connecting a suction line included in a collecting device for collecting harmful substances contained in exhaust gas discharged from a chimney installed in an industrial facility such as a power plant, And a fastening block is provided between the fastening block to be fastened to the outside of the suction line and the fastening block to which the suction line is fastened. The fastening block can be rotated at a fixed angle with respect to the fastening block by the fastening block, The present invention relates to a fastening device for a suction line for collecting a flue gas exhaust gas so that the shake is alleviated even when the device is shaken by an external force and the suction line is not separated from the chimney by shaking.

Exhaust gases from chimneys such as thermal power plants that generate energy generated by burning fuel and incinerators that incinerate industrial wastes or other general household waste, and industrial facilities that burn fuel are harmful to humans, animals, and the natural environment. It contains various kinds of harmful substances. Examples of the harmful substances include halogen gases such as hydrogen chloride and fluorine, oxidizing substances such as nitrogen oxides and sulfurous acid gases, toxic substances such as oxygen monoxide and ammonia, combustion gases such as heavy metals and particulate substances such as lead, copper, cadmium and chromium .

When these harmful substances are absorbed by the human body and then scaled, they can cause various diseases and harmful effects on the growth of plants and animals. Accordingly, the emission levels of pollutants are regulated by laws and regulations on industrial facilities using pollutants such as incinerators and fossil fuels worldwide, and in the domestic environment, The concentration of pollutants is regulated. In addition, 'Air pollution process test method' and 'Emission criterion test method' are reported, and a method of measuring pollution of exhaust gas emitted from the chimney is presented.

The method of measuring exhaust gas pollution of the industrial chimney as described above was as follows.

In other words, a measuring hole is formed in the upper part of the industrial chimney, and a platform on which the worker can move is installed including a railing, and a ladder is provided to allow the worker to ascend and descend from the lower part of the chimney to the platform.

The device for collecting the exhaust gas sample is usually composed of a sampler, a probe and a sample line, and the sampler is a device for collecting and analyzing a sample to measure the pollution degree of the exhaust gas. The probe is a device And the sample line serves as a tool for measuring and collecting the exhaust gas sample by connecting the probe and the sampler.

In order to measure the contamination by collecting the exhaust gas sample discharged from the chimney, an operator rides on a platform on a ladder, pulls up the probe from the ground using a sling, inserts the probe into the measuring hole, And the exhaust gas sample is introduced into the sampler through the probe and the line to analyze the sample.

Once the analysis is completed, the sampler is stopped and the user on the platform removes the probe from the measuring ball, then descends to the ground using the rope, and then descends the ladder to collect the exhaust gas sample from the chimney and measure the degree of contamination Is completed.

The height of the chimney is as low as 10m and as high as 70m. It takes a short time to measure the exhaust gas of the low chimney and it is easy to work. However, in case of the high chimney, it takes up to 1 hour and 30 minutes. There is a great deal of difficulty in the measurement.

That is, in the case of a high chimney, an operator climbing the long ladder of the chimney descends the rope to the ground, and the ground operator ties the probe connected to the sampler and the line to the rope, and then the platform operator pulls the rope to pull the probe .

Since the weight of the probe and the line is not light, the worker pulling up the rope becomes a lot of force. As shown in the figure, usually two workers lift up the platform and pull the rope to pull up the probe and the line.

On the other hand, there is a problem in that when a worker performs a work, the worker stands on the platform and pulls the rope, causing a safety accident that the worker falls off the platform.

As described above, since the safety of the worker pulling the rope is not ensured, the worker is careful about the safety as much as possible. As a result, when pulling the rope, the pulling speed of the rope becomes considerably slower, It is a factor that is inevitable to lengthen, and when pulling the rope, it raises the railing of the platform), so there is a risk that the rope is broken due to the friction between the rope and the railing.

As described above, at least three workers are required in measuring exhaust gas pollution of the chimney, and the working environment includes the risk of safety accidents. In the case of measuring exhaust gas pollution in one chimney, , It takes up to 1 hour and 30 minutes to measure only four or five chimneys a day, which is a major obstacle to the company's business performance.

The following is a representative prior art technique for trapping toxic substances contained in exhaust gas.

Korean Patent Laid-Open Publication No. 10-1635826 discloses an apparatus for measuring exhaust gas contamination of an industrial chimney using a smartphone selected by the present inventor. The apparatus is disposed in a platform of a chimney, and collects exhaust gas discharged from the chimney ; A line installed on one side of the chimney from the platform to the bottom of the chimney; A main pump connected to one end of a line located at a lower portion of the chimney, and a gas sampling unit connected to the probe and a second end of a line positioned on the platform; And a smartphone communicating with and controlling the main pump and the gas sampling device, wherein the gas sampling unit is provided with an absorption liquid for absorbing the exhaust gas, and the exhaust gas is drawn from the probe by the operation of the main pump, .

In addition, although the time taken to collect pollutants from the exhaust gas of the chimney is shortened, the effect of collecting and measuring the pollution of many chimneys per day is realized, but there is a problem that the clear structure of the lines installed in the chimney can not be presented, It is required to continue research and development.

Korean Registered Patent No. 10-1635826 (Jun. 26, 2016) Korean Patent Publication No. 10-2000-0036307 (July 5, 2000)

The present invention has been made in order to solve the problems of the prior art of a fastening device for a suction line for collecting a flue gas exhaust. In the conventional collecting device, a worker constructs a toxic material collecting device up to a platform on which a measuring hole The suction line has to be pulled up, so that the safety of the operator can not be secured;

In addition, since a plurality of personnel must be located on the platform and the ground provided on the upper part of the chimney, respectively, in order to operate a plurality of equipment respectively disposed on the upper part of the chimney and the ground, The main purpose is to do.

The present invention has been made to solve the above-

A stationary block fastened to the outside of the chimney; And a fastening block for fastening the suction line to the fastening block to be fastened to the fixed block, wherein the fastening block has a chimney configured to connect the fastening block to the fastening block so as to be rotatable by a predetermined angle A fastening device for a suction line for collecting exhaust gas is proposed.

Since the suction line for placing the upper part of the chimney in the platform of the chimney and the lower part of the suction line is fixed to the outside of the chimney according to the present invention as described above, An installation operation can obtain an unnecessary effect;

As a result, it is possible to secure the safety problem of the operator, which is problematic at the time of installing the suction line, and to solve the workability degradation and the labor cost problem for the suction line installation.

1 is a perspective view showing a chimney having a fastening device for a suction line for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention.
FIG. 2 is a front view showing a chimney installed with a suction line tightening device for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention. FIG.
3 is a perspective view showing a fastening device for a suction line for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention.
4 is a side sectional view showing a fixing block of a fastening device for a suction line for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention.
5 is a perspective view showing a rotation state of a fastening block of a fastening device for a suction line for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention.
6 is an exploded perspective view showing a fastening device for a suction line for collecting flue gas exhaust gas according to a preferred embodiment of the present invention.
7 is a front sectional view showing a process of fastening a clamp of a fastening device for a suction line for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention.
FIG. 8 is a perspective view showing a closing process of a clamp cover of a fastening device for a suction line for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention. FIG.
FIG. 9 is a plan view showing a process in which a suction line is fastened to a fastening block of a fastening device for a suction line for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention. FIG.
10 is a side sectional view showing a fastening block of a fastening device for a suction line for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention.
11 is a side sectional view showing a vertical movement of an inner housing of a fastening device for a suction line for collecting a flue gas exhaust gas according to a preferred embodiment of the present invention.

The present invention relates to an apparatus and a method for connecting a suction line (110) included in a collecting apparatus for collecting harmful substances contained in exhaust gas discharged from a chimney (100) installed in an industrial facility such as a power plant, an incinerator, A stationary block 10 fastened to the outside of the stack 100; And a fastening block 20 having a fastening block 21 fastened to the fixed block 10 and fastening the suction line 110. The fastening block 21 is fixed to the fixed block 10, (10) so that the fastening block (20) is rotatable by a predetermined angle.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

First, as shown in FIG. 1, the suction line fastening apparatus according to the present invention is used to measure the types of harmful substances contained in the exhaust gas discharged from the industrial chimney 100 having a generally high height, the concentration of each harmful substance, A suction line 110 connected to the harmful material collecting device 120 for collecting harmful substances in the absorption solution and collecting the harmful substances is provided in the chimney 100 to provide a predetermined suction force (negative pressure) to the harmful material collecting device 120, As shown in Fig.

The toxic substance collecting apparatus 120 may be any known apparatus. In one embodiment, the toxic substance collecting apparatus 120 described in Korean Patent Registration No. 10-1680652 (November 23, 2016) Can be used.

In addition, the suction line 110 fastened to the chimney 100 by the fastening device of the suction line for collecting the flue gas exhaust gas according to the present invention corresponds to the "discharge flow tube" described in Korean Patent Publication No. 10-1680652.

More specifically, the harmful-substance collecting device 120 is placed on a platform 102 provided at an upper part of the chimney 100, and the upper part of the suction line 110 is filled with a gas trap And the lower part of the suction line 110 is connected to the suction pump 140 provided on the ground. At this time, the suction pump 140 is inserted into the measurement hole 101 formed in the chimney 100, and has a function of providing a suction force for sucking the exhaust gas in the chimney 100 through the probe 130 .

The suction line 110 is formed in the shape of a tube or a hose and is fixed to the outside of the chimney 100 by forming a length in the height direction of the chimney 100. At this time, the suction line 110 is made of a synthetic resin material having a certain flexibility due to an external force such as vibration or shaking due to wind or earthquake, so that the suction line 110 can be prevented from being damaged by the external force .

In addition, a separate connection pipe having a predetermined length is further provided between the upper portion of the suction line 110 and the outlet of the gas collecting member, the upper end of the suction line 110 is located outside the platform 102, The outlet of the gas collecting member located inside the platform 102 and the end of the line 110 can be interconnected.

The suction line 110 is fixed to the outside of the chimney 100 by the suction line fastening device according to the present invention. The suction line fastening devices are composed of a plurality of suction line fastening devices, and are arranged in the height direction of the chimney 100 The suction lines 110 may be fixed to the chimney 100 at regular intervals.

The suction line fastening device according to the present invention includes a fixed block 10 and a fastening block 20 which are macroscopically attached to the fastening block 10 by a fastening bar 21. [ As shown in FIG.

That is, the fixed block 10 is fixed to the outside of the chimney 100, and one side of the fixed block 10 is fixedly fixed to the chimney 100, (21) is fixedly fastened.

2 and 3, one side of the fixed block 10 is connected to the outside of the chimney 100 by a fastening member such as an anchor bolt, And a fastening block 21 provided on the fastening block 20 is fastened to a predetermined portion of the upper portion, the lower portion or the side portion of the fixed block 10 so that the fastening block 20 fastened with the suction line 110 20 are fixed to the chimney 100.

The fastening block 20 includes a fastening block 21 fastened to the fixed block 10 and fastened to the suction line 110. The fastening block 20 has a length in the height direction of the chimney 100 And a suction line 110 fixedly coupled to the chimney 100 is fastened to the fixed block 10.

That is, the fastening block 20 is preferably formed in a tubular shape or a block shape capable of gripping the suction line 110 having a vertical vertical section in the longitudinal direction, It is preferable that a part of the fastening block 20 is configured to be opened or closed in order to grasp the suction line 110 while the suction line 110 is positioned in the longitudinal direction of the fastening block 20 .

The fastening block 21 provided at the front of the fastening block 20 is connected to the fastening block 20 at one side and the fixing block 10 at the other side. So that the fixing block 10 and the fastening block 20 can be spaced apart from each other by a predetermined distance and the front end of the fastening block 21 Direction) is fixedly fastened to the fixed block 10.

At this time, any one of the fastening portion of the fastening block 21 and the fastening portion of the fastening block 10, the intermediate portion of the fastening block 21 or the rear end of the fastening block 21 and the front fastening portion of the fastening block 20 When the shake of the suction line 110 occurs in a state where the shingle block 20 is fixedly fastened to the fixed block 10 by the shore bar 21, So that the fixed block 10 can rotate at a predetermined angle.

Specifically, the suction line 110 may be swung by an external force in a state where the suction line 110 is installed outside the chimney 100, and the swinging of the suction line 110 may be performed by the suction line fastening device A portion of the upper portion of the suction line 110 positioned at the upper portion of the suction line 110 and a portion of the lower portion of the suction line 110 located at the lower portion of the suction line fastener may occur in the same direction or in different directions.

In contrast, the fastening block 21 according to the present invention is configured to connect the fastening block 20 to the fixed block 10 so that the fastening block 20 can rotate at a predetermined angle, and the swinging of the suction line 110 as described above It is possible to prevent the suction line 110 and the suction line fastening device from being damaged by the external force by forming a constant swing clearance without forcibly restraining the swinging of the suction line 110 with respect to the fixed block 10, The effect can be realized.

In this connection, the present invention can easily constitute the fixed fastening relationship of the fastening table 21 with respect to the fixed block 10, so that the operator can more easily make the fastening block 20 gripped by the suction line 110 When the suction line 110 needs to be replaced, the worker can easily separate the fastening block 21 from the fixed block 10 and remove the fastening block 21 from the fixed block 10 The fixing block 21 can be fixedly connected to the fixed block 10 in various forms as long as the fixing block 20 can be detached. Preferably, the fastening block 21 of the fastening block 20, (21a) having a fastening portion (21a-1) protruding downward corresponding to the tip of the fastening base (21); One side is connected to the rear side of the fastening head 21a, the other side is connected to the outside of the fastening block 20, and the intermediate part is connected to the one side and the other side by the rotation shaft 21b-1 so as to be rotatable And a fastening bar 21b. The fastening block 10 may have a fastening hole 11 formed therein for fastening a lower portion of the fastening head 21a.

That is, the fastening bar 21 having the above-described structure includes a fastening head 21a and a fastening bar 21b. The fastening head 21a is fastened to the fastening hole 11 formed in the fastening block 10, So that the fixed block 10 and the fastening base 21 can be mutually fitted and fastened.

More specifically, the fastening head 21a has a fastening portion 21a-1 protruding downward corresponding to the front end of the fastening bar 21, and is fastened to the fastening hole 11 of the fastening block 10, So that the main fastening force of the fastening table 21 with respect to the fixed block 10 is formed. The fastening head 21a has a fastening portion 21a-1 protruding downward from the lower surface of the fastening head 21a so as to have a lower horizontal phase than the lower surface of the fastening bar 21b as shown in FIG. The fastening hole 11 formed in the fixed block 10 is formed by a fastening part 21a-1 provided on the fastening head 21a and a lower part of the fastening head 21a 21a, hereinafter referred to as " the lower portion of the fastening head 21a " is a concept including the entire portion including the upper portion of the fastening head 21a) .

The fastening head 21a may be configured such that a lower portion of the fastening head 21a including the fastening portion 21a-1 can be accurately inserted into the fastening hole 11 formed in the fastening block 10, The fastening head 21a having the above-described fastening head 21a may have a horizontal cross section corresponding to the fastening head 21a, .

In addition, the fastening head 21a is configured to have a horizontal cross section having a greater width (diameter) than the fastening bar 21b described below, and the fastening hole 11 is formed on the upper portion of the fastening block 10 So that the fastening head 21a inserted into the fastening hole 11 is not inserted into the fastening hole 11 or released from the fastening hole 11 in the other direction except for the upper side of the fastening block 10 desirable.

When the fastening hole 11 is formed on the upper portion of the fixing block 10 and the fastening head 21a is inserted into the fastening hole 11 from the upper portion to the lower portion of the fastening hole 11, Since the load of the suction line 110 transmitted to the fixed block 10 through the coupling block 20 connected to the coupling block 21 can be continuously supported downward from the upper portion of the fixed block 10, It is possible to more reliably prevent the detachment of the fastening head 21a inserted into the hole 11. [

The fastening portion 21a-1 is configured to have a horizontal cross-sectional outer diameter smaller than the outer diameter of the horizontal cross-section of the fastening head 21a so that the worker inserts the fastening head 21a into the fastening hole 11 The fastening portion 21a-1 having a small outer diameter can be easily inserted first into the upper portion of the fastening hole 11 having a large inner diameter, and then the horizontal cross-section can be inserted into the lower portion of the fastening hole 11 having a small inner diameter. So that the ease of operation can be improved.

The other end of the fastening bar 21b is connected to the outside of the fastening block 20 while the other end of the fastening bar 21b is connected to the other end of the fastening bar 21b- And the other side is rotatably connected to the other side of the coupling head 20a so that the coupling block 20 with the suction line 110 is connected to the coupling head 21a so as to be rotatable at a predetermined angle.

One side of the fastening bar 21b is connected to the rear side of the other side of the fastening head 21a and the other end of the fastening bar 21b is fastened to the other side of the fastening bar 21b. The connecting block 20 is connected to the outside of the side portion.

When the fastening block 20 is formed of a plurality of slices, the other side of the fastening bar 21b is connected to the outside of any one of the slices.

The middle portion of the fastening bar 21b is connected to the fastening bar 21b so as to be rotatable about the rotation axis 21b-1 after the one side portion and the other side portion of the fastening bar 21b are separated, A part of one side of the fastening bar 21b connected to the fastening head 21a is held in a position fixed to the fixed block 10 and a part of the other fastening bar 21b connected to the fastening block 20 is fastened to the suction line 110 by a predetermined angle with respect to the rotation axis 21b-1.

In addition, the fastening hole 11 formed in the fixed block 10 may be configured to allow only the fastening head 21a having the fastening portion 21a-1 to be inserted therein, A support fastening hole 12 may be further formed which is communicated from the other side of the upper portion of the hole 11 to the side of the rear side of the fixed block 10 (side of the fastening block 20).

At this time, the support fastening hole 12 is formed in the upper part of the fastening hole 11 in which the fastening head 21a is inserted (the fastening hole 11 in which the lower surface of the fastening head 21a is located) A part of one side of the fastening bar 21b can be inserted and a part of one side of the fastening bar 21b inserted into the support fastening hole 12 can be inserted It is possible to realize the effect of preventing the fastening bar 21b from being rotated sideways with respect to the fastening head 21a because the side portions are supported by the support fastening holes 12. [

In the case where the fastening head 21a and the fastening bar 21b are partially inserted into the fastening hole 11 and the fastening hole 12 as described above, The upper portion of the fastening bar 21b and the upper surface of the fixed block 10 may have the same horizontal phase so that the upper portion of the fixed block 10 has a flat state.

When the fastening bar 21 includes the fastening head 21a and fastening bar 21b as described above and the fastening hole 11 is formed on the upper portion of the fastening block 10, A first magnetic body 30 is provided under the first magnetic body 21a-1 and a second magnetic body 31 is provided under the coupling hole 11 and the attraction is applied to the first magnetic body 30 can do.

That is, since the first magnetic body 30 and the second magnetic body 31 having the above-described structure act on each other, a worker moves the fastening head 21a provided with the fastening portion 21a-1 to the fastening hole 11 The first magnetic body 30 provided in the fastening portion 21a-1 of the fastening head 21a and the second magnetic body 31 provided in the lower portion of the fastening hole 11 are pulled and the fastening head 21a So that the fastening head 21a can be easily detached from the fastening hole 11 in a state where the fastening head 21a is inserted into the fastening hole 11. [ An effect of increasing the fastening force can be realized.

At this time, the present invention can further include a clamp 40 that can press the upper part of the fastening head 21a inserted and fastened in the fastening hole 11 as described above.

The clamp 40 is formed on both sides of the fixed block 10 so that the lower portion of the clamp 40 is coupled to the hinge 41, A clamp head 42 formed by bending the upper portion of the fixing block 10 toward the center of the upper portion of the fixing block 10 and pressing the upper portion of the fastening head 21a internally fastened to the fastening hole 11; A clamp body 43 connected to one side of the clamp head 42 and having a length downward from an upper portion of the fixed block 10 and a lower portion fastened to a side portion of the fixed block 10 with a hinge 41; And a push pin 44 protruding from one side of the lower portion of the clamp body 43 and having a distal end positioned on a lower surface of the fastening portion 21a-1 after passing through the fastening block 10 can do.

That is, the clamp 40 having the above-described configuration includes the clamp head, the clamp body 43 and the pressing pin 44 macroscopically, and clamps 40 are provided on both sides of the fixed block 10 And the upper part of the fastening head 21a, which is internally fastened to the fastening hole 11, is pressed downward to press the fastener.

More specifically, the clamp head 42 and the clamp body 43 are formed in an "a" shape as shown in FIG. 7, and a lower portion of the clamp head 42, which is an upper portion of the " The clamp body 43 having the upper part connected to one side of the clamp head 42 forms a length in the lower direction from the upper part of the fixed block 10, do.

At this time, it is preferable that a hinge 41 is provided at a lower portion of the clamp body 43 to fasten the clamp body 43 to be rotatable to the side of the fixed block 10. A side hole 13 is formed on the side of the fixed block 10 on which the hinge 41 is located and a clamp body 43 located at the lower portion of the hinge 41 is formed in the side hole 13. [ May be configured so that the lower end portion of the clamp body 43 can be inserted into the clamp body 43 when the clamp body 43 is rotated about the hinge 41. [

The pressing pin 44 protrudes from one side of the lower part of the clamp body 43 and has a distal end positioned on the lower surface of the fastening part 21a-1 after passing through the fixing block 10 1 of the fastening head 21a is inserted into the fastening hole 11 so that the end of the pushing pin 44 is interfered with the fastening portion 21a-1 and the pushing pin 44 is pressed As a result, the clamp body 40 with the pressing pin 44 connected thereto is rotated by the fixed block 10 about the hinge 41 so that the clamping head 21a is moved to the fixed block 10 So that they can be firmly fastened.

That is, the pressing pin 44 is bent to one side with respect to the longitudinal direction of the clamp body 43 like the clamp head 42, and the other side of the pressing pin 44 is connected to the clamp body 43 And one side thereof projects toward the upper inside of the fastening hole 11 and is projected in an inclined state.

At this time, the pushing pin 44 passes through the side of the fastening hole 11 from the outside of the side of the fixed block 10, and preferably, The through hole 44 can be formed.

7, the pair of clamps 40 having the above-described structure are arranged such that before the fastening head 21a is fitted in the fastening hole 11 of the fastening block 10, So that the clamp head (42) is in a state of being opened sideways of the fixed block (10) to keep the clamp head (42) out of the upper part of the fastening hole (11); The fastening head 21a is inserted into the fastening hole 11 and the fastening portion 21a-1 provided at the lower portion of the fastening head 21a presses the pushing pin 44 located inside the fastening hole 11 downward The clamp body 43 which is rotated about the hinge 41 by the pressing pin 44 is brought into close contact with or close to the side of the fixed block 10 and is provided on the upper part of the clamp body 43 The clamp head 42 presses the upper part of the fastening head 21a which is inserted into the fastening hole 11 so that the fastening head 21a can be caught in the fastening hole 11.

At this time, the first magnetic body 30 provided at the lower part of the coupling part 21a-1 and the second magnetic body 31 provided at the lower part of the coupling hole 11 mutually act to attract the coupling head 21a The fastening head 21a can be easily inserted into the fastening hole 11 when the fastening head 21a is fitted into the fastening hole 11 and the pushing pin 44 pressed downward by the fastening portion 21a- It is possible to more easily rotate the clamp body 43 and the clamp head 42 around the hinge 41. FIG.

When the worker separates the clamping member 21 from the fixed block 10 in order to replace the suction line 110, the worker moves the pair of clamping heads 42 to the upper side of the fixed block 10 The clamp body 43 connected to the clamp head 42 is rotated about the hinge 41 so that the end of the push pin 44 provided at the lower portion of the clamp body 43 is rotated The clamping portion 21a-1 and the clamping head 21a which are inserted into the clamping hole 11 push the lower portion of the clamping portion 21a-1 upward, (11) and can be removed from the fastening hole (11).

The present invention is also characterized in that the fastening portion 21a-1 is pressed against the distal end (one side) of the pressing pin 44 having the state of being inserted into the fastening hole 11 as described above, A pressing plate 45 may be further provided in the fastening hole 11 so that the lower part of the fastening hole 21a-1 can be lifted more easily.

That is, the pressing plate 45 is formed to have the same or similar outer diameter as the inner diameter of the fastening hole 11, and the pressing pins 44 can be positioned below the pressing plate 45.

When the engaging portion 21a-1 presses the pressing pin 44, the engaging portion 21a-1 presses the pressing plate 45 and the pressing plate 45 presses the pressing pin 44 So that the entire pressing force of the lower portion of the coupling portion 21a-1 can be uniformly transmitted to the pressing pin 44. When the pressing pin 44 lifts the coupling portion 21a-1, The pushing plate 44 lifts up the pressure plate 45 and the lifted push plate 45 lifts the entire lower portion of the fastening portion 21a-1 so that the fastening head 21a is not tilted sideways So that it can be drawn upward in the fastening hole 11.

The push plate 45 is made of a metal material or a magnetic material adherable to the magnet so that the attracting force of the first magnetic body 30 and the second magnetic body 31 is applied to the first magnetic body 30 and the second magnetic body 31 Can be configured to be communicated with each other.

In the case where the fastening head 21a is further firmly fastened in the fastening hole 11 by the clamp 40 having the above-described structure, the present invention can be applied to the upper portion of the fastening block 10, The clamp cover 50 may be further provided on the upper portion of one side of the first and second cover members 21a and 21b.

8, one end of the clamp lid 50 is coupled to the upper portion of the fixed block 10 or a portion of one side of the fastening bar 21b, A clamp head hole 51 for allowing the clamp head 42 of the clamp 40 to be inserted therein is formed.

More specifically, the clamp lid 50 is opened without covering the upper portion of the fixing block 10 before the clamping head 21a is fitted in the clamping hole 11, and when the clamping head 21a is fastened The clamping head 42 is closed in a state covering the upper portion of the fixing block 10 in a state in which the clamping head 42 is pressing the upper portion of the clamping head 21a.

At this time, the clamp lid 50 covering the upper portion of the fixed block 10 as described above allows the clamp head 42 of the pair of clamps 40 to be inserted into the clamp head hole 51 formed at the lower portion The clamp head 42 inserted into the clamp head hole 51 has a state in which the upper and the side portions are interfered by the clamp lid 50 so that the clamp 40 is not easily opened from the fixed block 10 .

The fastening block 20 fastens a certain portion of the suction line 110 having a length in the height direction of the chimney 100 in a gripping manner and fastens the fastening block 21 provided in front of the fastening block 20, The connection block 20 may be formed in various shapes as long as the connection block 20 can be separated and attached to the fixed block 10 through a plurality of inner housings 10, (20a); And a rear end of the fastening band 21 is connected to the outside of the outer housing 20a by a hinge 20f which is located outside the inner housing 20a and is hinged around the longitudinal direction of the suction line 110, (20b); And at least one leaf spring 20c provided between the inner housing 20a and the outer housing 20b.

That is, the fastening block 20 having the above-described structure has a structure including the inner housing 20a, the outer housing 20b, and the leaf spring 20c macroscopically.

Specifically, the inner housing 20a has a plurality of structures for pressing and binding the outside of the suction line 110, and has an inner shape which is the same as or similar to the outer periphery of the suction line 110, A virtual horizontal cross section of the housings 20a interconnected in the horizontal direction is configured to surround the outside of the horizontal cross section of the suction line 110. [

That is, in one embodiment, when the horizontal cross section of the suction line 110 is configured to have a circular (ring-shaped) horizontal cross-section, the inner housing 20a is a pair of ring- And each inner housing 20a surrounds one side surface and the other side surface of the suction line 110 and can press and bind the outside of the suction line 110. [

In order to increase the binding force with respect to the outer surface of the suction line 110, the inner housing 20a has a plurality of protrusions 20a-1 extending in the horizontal direction, Can be configured.

The outer housing 20b is located outside the inner housing 20a and is hinged to the hinge 20f about the longitudinal direction of the suction line 110 so that the outer housing 20b can be opened and closed. The inner housing 20a is pushed toward the suction line 110 and the suction force is applied to the suction line 110 so that the inner housing 20a is pushed toward the suction line 110. [ Thereby forming a pressing force of the inner housing 20a.

That is, the outer housing 20b may have a length in the longitudinal direction of the suction line 110, as shown in FIG. 9, and may be coupled to each other by a hinge 20f so as to be opened and closed.

The hinge 20f connecting the pair of outer housings 20b is configured such that a pair of outer housings 20b can be opened or closed in the width direction of the suction line 110. The hinge 20f Is fastened to the pair of outer housings 20b by fastening the fastening device by an operator.

The rear end of the fastening table 21 is fastened to the outer side of the outer housing 20b of the pair of outer housings 20b located in the fixed block 10.

In addition, the outer housing 20b, which is formed as a pair as described above, is hollow and has a length in the longitudinal direction of the suction line 110 in a closed state, and the inner housing 20a And the suction line 110 is gripped on the inner side of the inner housing 20a.

In addition, the leaf spring 20c is one or more elastic members provided between the inner housing 20a and the outer housing 20b. When the outer housing 20b has a closed state with respect to the hinge 20f The resilient force of the plate spring 20c is applied to the inside of the outer housing 20b and the resilient force of the leaf spring 20c is applied to the inside of the inner housing 20a, (110) to provide a pressing force to allow the suction line (110) to be fastened to the fastening block (20).

That is, the leaf spring 20c has a length in the same direction as the longitudinal direction of the outer housing 20b, and the center of the leaf spring 20c is bent in a shape protruding to one side of the leaf spring 20c, The both ends of the spring 20c press the outside of the inner housing 20a and the central portion of the leaf spring 20c presses the inside of the outer housing 20b so that the pair of outer housings 20b The resilient force by the leaf spring 20c is applied to the inner housing 20a to exert a pressing force (gripping force) against the suction line 110 located inside the inner housing 20a.

As described above, the outer housing 20b and the inner housing 20a, which sandwich the plate spring 20c, may have a connecting relationship to prevent the inner housing 20a from being detached from the inner portion of the outer housing 20b An inner groove 20b-1 is formed in an inner upper portion and a lower portion of the outer housing 20b so as to allow the upper and lower portions of the inner housing 20a to be respectively inserted into the inner groove 20b-1 May be configured to have a greater width than the thickness of the inner housing 20a.

That is, the inner groove 20b-1 having the above-described structure is formed in each of the inner and outer portions of the outer housing 20b so that the inner housing 20a is not separated from the upper and lower portions of the outer housing 20b, Since the groove 20b-1 is configured to have a greater width than the thickness of the inner housing 20a, the inner housing 20a, which is pressed inwardly of the outer housing 20b by the leaf spring 20c, The inner housing 20a can be moved at a predetermined distance in the inner direction of the housing 20b so that the inner housing 20a can press and hold the suction line 110. [

An elastic spring 20d is provided between the upper portion of the inner housing 20a and the upper portion of the outer housing 20b and between the lower portion of the inner housing 20a and the inner portion of the lower portion of the outer housing 20b, Can be further provided.

More specifically, when the inner housing 20a located inside the outer housing 20b is pulled upward or downward of the outer housing 20b by the swing of the suction line 110, (Hereinafter, referred to as " pulling force ") of the suction line 110 is relieved.

That is, between the upper part of the inner housing 20a where the elastic spring 20d is located and the upper part of the upper part of the outer housing 20b and the lower part of the inner housing 20a and the lower part of the outer housing 20b, The upper portion of the elastic spring 20d which is inserted into the inner groove 20b-1 is supported by the outer housing 20b and the upper portion of the elastic spring 20d And the lower portion supports the inner housing 20a.

At this time, when the suction line 110 is shaken by an external force, the inner housing 20a holding the suction line 110 is moved upward or downward relative to the outer housing 20b, which is fixed to the fixed block 10, And the resilient spring 20d generates a restoring force (buffering force) in which only the inner housing 20a is buffered upward or downward within the outer housing 20b.

The present invention further includes a pressure plate 20e between the elastic spring 20d and the inner housing 20a so that a buffering force by the elastic spring 20d is applied to the upper and lower surfaces of the inner housing 20a, And may be configured so as to be uniformly operated.

At this time, it is preferable that the pressure plate 20e is configured to have a horizontal cross section having the same or similar shape as the horizontal cross section of the inner groove 20b-1.

When the resilient spring 20d is further provided in the inner groove 20b-1, the inner housing 20a is positioned in the depth direction of the inner groove 20b-1 (the length of the suction line 110) At this time, the leaf spring 20c also moves up and down inside the outer housing 20b by the upward and downward movement of the inner housing 20a. The present invention minimizes the friction between the leaf spring 20c and the outer surface of the inner housing 20a or between the leaf spring 20c and the inner surface of the outer housing 20b at the same time , And the inner housing 20a can be moved up and down with respect to the outer housing 20b more smoothly.

2, a plate spring inner groove 20a-2 having a length in the vertical direction is formed outside the middle portion of the inner housing 20a, and plate springs 20a-2 are formed at both ends of the plate spring inner groove 20a-2. So that both ends of the cap 20c are fitted. The middle portion of the leaf spring 20c received in the leaf spring inner groove 20a-2 is seated on the inner surface of the outer housing 20b, and the middle portion of the leaf spring 20c in the above- When the inner housing 20a is vertically moved and returned in the outer housing 20b, it can be slid in the vertical direction naturally on the inner surface of the outer housing 20b.

That is, when both ends of the leaf spring 20c are inserted into the leaf spring inner groove 20a-2 and the middle portion of the leaf spring 20c is seated on the inner surface of the outer housing 20b, Since only the middle portion of the leaf spring 20c which moves and returns in the vertical direction together with the inner housing 20a inside the outer housing 20b rubs against the outer housing 20b, The frictional force between the leaf spring 20c and the outer housing 20b is lower than that of the inner housing 20b when friction is applied to the inner surface of the outer housing 20b, It is possible to solve the problem that may not be supported.

The process of installing the suction line 110 for collecting the exhaust gas of the chimney 100 on the chimney 100 using the suction line fastening apparatus according to the preferred embodiment of the present invention will be described in detail as follows.

First, the worker installs the plurality of fixed blocks 10 at regular intervals in the height direction of the stack 100. At this time, the operator firmly fastens the fixed block 10 to the chimney 100 by using the anchor bolts.

Thereafter, the worker pulls the suction line 110 upward in the lower part of the chimney 100, and fastens the fastening block 20 to the suction line 110 at equal intervals while being carried on a ladder of a sling or a ladder . At this time, the operator places the suction line 110 in the inner housing 20a located inside the fastening block 20, and then moves the pair of outer housings 20b provided with the inner housing 20a to the hinge 20f And fasten the cicada ring 22 located on the opposite side of the hinge 20f.

The leaf spring 20c provided inside the outer housing 20b presses the outer portion of the inner housing 20a by the pressing force of the cicadic rings 22 for locking the pair of outer housings 20b, The pressurized inner housing 20a presses the suction line 110 located inside the inner housing 20a so that the suction line 110 can be fastened to the fastening block 20 in a detached state.

The operator then places the fastening head 21a of the fastening bar 21 located at the front of the outer housing 20b in the fastening hole 11 formed in the upper portion of the fastening block 10, 1 is pushed into the inside of the fastening hole 11 to fasten the fastening head 21a to the fastening block 10.

At this time, the second magnetic body 31 provided in the lower part of the inside of the fastening hole 11 is moved to the first magnetic body 30 provided at the lower part of the fastening part 21a-1 fitted into the fastening hole 11 So that the fastening head 21a can be fastened and fastened to the fastening hole 11 more quickly and firmly by the magnetic force.

At the same time, the pressing pin 44 of the clamp 40 located inside the fastening hole 11 is moved downward by the fastening portion 21a-1 in the fastening hole 11, The clamp body 43 and the clamp head 42 by the rotation of the pressing pin 44 also rotate about the hinge 41 so that the clamp head 42 is rotated about the clamping head 41 21a so that the fastening head 21a can be fastened to the fastening hole 11 of the fastening block 10. [

The operator then covers the clamping lid 50 coupled to the hinge 52 on the upper portion of one side of the clamping bar 21b to the upper side of the fixing block 10 and clamps the clamping lid 50 formed at the lower portion of the clamping lid 50 The clamping block 20 having the suction line 110 held by any one fixed block 10 of the plurality of fixed blocks 10 is gripped so that the clamping head 42 can be fixedly inserted into the fixed block 10, ) Is completed.

Thereafter, the operator completes the installation of the suction line 110 to the chimney 100 by fastening the fastening block 20 fastened and held by the suction line 110 to each of the remaining fixed blocks 10 in the above- do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It is possible to carry out various changes in the present invention.

10: fixed block 11: fastening hole
12: Support fastening hole 13: Side hole
20: fastening block 20a: inner housing
20a-1: projection 20a-2: leaf spring inner groove
20b: outer housing 20b-1: inner groove
20c: leaf spring 20d: elastic spring
20e: pressure plate 20f: hinge
21: fastening base 21a: fastening head
21a-1: fastening portion 21b: fastening bar
21b-1: rotation shaft 22: cicada ring
30: first magnetic body 31: second magnetic body
40: Clamp 41: Hinge
42: Clamp head 43: Clamp body
44: pressing pin 45: pressing plate
50: clamp cover 51: clamp head hole
52: Hinge 100: chimney
101: Measuring ball 102: Platform
110: Suction line 120:
130: probe 140: suction pump

Claims (7)

delete A stationary block 10 fixed to the outside of the chimney 100; And a fastening block 20 having a fastening block 21 fastened to the fixed block 10 and fastening the suction line 110. The fastening block 21 is fixed to the fixed block 10, (10) so as to be rotatable by a predetermined angle,
The fastening table (21) of the fastening block (20)
A fastening head 21a having a fastening portion 21a-1 protruding downward corresponding to the tip of the fastening base 21;
One side is connected to the rear side of the fastening head 21a, the other side is connected to the outside of the fastening block 20, and the intermediate part is connected to the one side and the other side by the rotation shaft 21b-1 so as to be rotatable And a fastening bar (21b)
The fixed block (10)
Wherein a fastening hole (11) for internally fastening a lower portion of the fastening head (21a) is formed on an upper portion of the fastening head (21a).
3. The method of claim 2,
The first magnetic body 30 is provided under the coupling part 21a-1,
And a second magnetic body (31) to which attraction force with the first magnetic body (30) is applied is provided below the fastening hole (11).
The method of claim 3,
A pair of clamps 40 are provided on both sides of the fixed block 10 so that the lower portion of the fixed block 10 is rotatably coupled to the hinge 41,
The clamp (40)
A clamp head 42 formed by bending the upper portion of the clamp 40 toward the center of the upper portion of the fixing block 10 and pressing the upper portion of the fastening head 21a internally fastened to the fastening hole 11;
A clamp body 43 connected to one side of the clamp head 42 and having a length downward from an upper portion of the fixed block 10 and a lower portion fastened to the side of the fixed block 10 with a hinge 41;
And a push pin 44 protruding from one side of the lower portion of the clamp body 43 and having a distal end positioned on the lower surface of the fastening portion 21a-1 after passing through the fixed block 10 And the suction line is connected to the suction line.
A stationary block 10 fixed to the outside of the chimney 100; And a fastening block 20 having a fastening block 21 fastened to the fixed block 10 and fastening the suction line 110. The fastening block 21 is fixed to the fixed block 10, (10) so as to be rotatable by a predetermined angle,
The fastening block (20)
A plurality of inner housings (20a) for pressing and binding the outside of the suction line (110);
And a rear end of the fastening band 21 is connected to the outside of the outer housing 20a by a hinge 20f which is located outside the inner housing 20a and is hinged around the longitudinal direction of the suction line 110, (20b);
And at least one leaf spring (20c) provided between the inner housing (20a) and the outer housing (20b).
6. The method of claim 5,
An elastic spring 20d is further provided between the upper portion of the inner housing 20a and the upper portion of the outer housing 20b and between the lower portion of the inner housing 20a and the inner portion of the lower portion of the outer housing 20b, And the suction line is connected to the suction line.
The method according to claim 6,
Wherein a pressure plate (20e) is further provided between the elastic spring (20d) and the inner housing (20a).

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