CN112697665A - Dust treatment effect monitoring facilities - Google Patents
Dust treatment effect monitoring facilities Download PDFInfo
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- CN112697665A CN112697665A CN202011414175.9A CN202011414175A CN112697665A CN 112697665 A CN112697665 A CN 112697665A CN 202011414175 A CN202011414175 A CN 202011414175A CN 112697665 A CN112697665 A CN 112697665A
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Abstract
The invention relates to the technical field of dust monitoring, and discloses dust treatment effect monitoring equipment which comprises a treatment effect monitoring mechanism, an electrode start-stop mechanism and an automatic switching mechanism, wherein the electrode start-stop mechanism is arranged on the back side surface of the treatment effect monitoring mechanism, the automatic switching mechanism is arranged on the electrode start-stop mechanism, a plurality of gas inlet pipes A are connected with gas outlet pipes of a plurality of flue gas purification equipment through the arrangement of the treatment effect monitoring mechanism, so that a small amount of purified flue gas is extracted for automatic detection, a user can quickly judge whether the content of particulate matters in the flue gas discharged by the gas inlet pipes A at corresponding positions exceeds the standard according to the stop position of a sliding plate, so that the user is assisted to adjust the purification strength of the flue gas purification equipment, the problem that the content of the particulate matters in the discharged flue gas still exceeds the standard is avoided, and compared with the existing detection mode, monitoring, avoiding the complex problems of maintenance, decontamination and the like.
Description
Technical Field
The invention relates to the technical field of dust monitoring, in particular to a dust treatment effect monitoring device.
Background
In the qualified standard of fume emission, need monitor the dust class particulate matter content in the flue gas, assist gas cleaning equipment to avoid dust class particulate matter to fly away and lead to air pollution problems such as haze to appear in the external world.
Current patent number CN107421861A provides a dust monitor, possess the advantage of stopping the condition emergence of optical signal decay even losing when facing abominable monitoring environment, but the realization of its monitoring effect relies on various current monitoring facilities to carry out the analysis to the signal of transmission after elements such as sensor contact flue gas and realize, equipment cost is high not only, and when application is on the monitoring of dust class particulate matter, the dust is very easily adhered to on the sensor, lead to sensor detection effect to use the reduction along with time, lead to maintenance and loaded down with trivial details problem such as clearance to appear often.
Present patent number CN105628567A provides a dust detection device, the injury of wet flue gas to the dust meter lens that has possessed furthest's reduction, reduce the number of times of artifical clearance lens, guarantee measured data's continuity, the benefit of reliability, but above-mentioned device only can monitor equipment exhaust flue gas such as single exhaust duct when using, monitoring range is extremely low, use under the numerous conditions of exhaust apparatus such as large-scale factory, need corresponding being equipped with numerous above-mentioned equipment, be unfavorable for data collection, save cost and improve monitoring efficiency.
Therefore, a dust control effect monitoring device is needed to solve the above problems.
Disclosure of Invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides a dust control effect monitoring device to solve the problems.
(II) technical scheme
In order to achieve the purpose, the invention provides the following technical scheme: a dust treatment effect monitoring device comprises a treatment effect monitoring mechanism, an electrode starting and stopping mechanism and an automatic switching mechanism, wherein the electrode starting and stopping mechanism is arranged on the back side surface of the treatment effect monitoring mechanism, the automatic switching mechanism is arranged on the electrode starting and stopping mechanism, the treatment effect monitoring mechanism comprises a monitoring box, a movable groove penetrating through the top surface of the monitoring box is formed in the back side surface of the monitoring box, a sliding hole A is formed in the top end of the back side surface of the movable groove, five air inlet pipes A penetrating through the monitoring box are fixedly connected to the bottom surface of the movable groove, an electrode plate is fixedly connected to the inner wall of the top surface of the movable groove, a T-shaped sliding plate is sleeved into the inner wall of the sliding hole A, a fitting box is fixedly connected to the left side surface of the sliding plate in the sliding hole A, a friction force adjusting mechanism which is fitted to a pushing seat and can adjust friction force is fixedly installed in the fitting box, promote seat bottom surface inner wall and seted up spout A, spout B that the transversal type of personally submitting is seted up to spout A bottom surface, spout B inner wall embolias rolling bearing and rolling bearing inner wall fixedly connected with bull stick, spout A inner wall embolias the slide, slide right flank fixedly connected with spring A, slide left surface fixedly connected with is fold condition's elastic plate, elastic plate left end fixedly connected with internally mounted has the flitch of magnet, the flitch is through magnetic force and slide attraction, bull stick outer wall fixedly connected with stay cord, stay cord left end and flitch fixed connection, promote seat bottom surface inner wall fixed mounting have the rotation motor, it is the transmission relation through the drive belt with the bull stick to rotate motor drive shaft.
Preferably, the top surface, the right flank and the back center of the laminating box are all hollowed out, the friction force adjusting mechanism comprises a fixing plate, the fixing plate is fixedly connected to the inner wall of the back of the laminating box, a threaded groove is formed in the top surface of the fixing plate, a bolt is connected to the top surface of the fixing plate through threads, and the top surface of the bolt is provided with a friction plate with bristles through the top surface fixedly connected with a rotating bearing.
Preferably, the number of the bolts and the friction plates is five and the bolts and the friction plates are distributed at equal intervals from left to right.
Preferably, the bottom surface of the movable groove is fixedly connected with five air inlet pipes B penetrating through the monitoring box on the front side of the air inlet pipe A, and valves are arranged on the air inlet pipes A and the air inlet pipes B.
Preferably, the electrode is opened and is shut down the mechanism and including the mount that is the C style of calligraphy body, mount fixed connection is on monitoring case back top, the quantity of plate electrode is five and interconnect into the cuboid through the insulation board each other, the mount openly corresponds the position of five plate electrodes and all sets up porosely and downthehole the emboliaed inserted bar, the positive fixedly connected with semicylinder shape of inserted bar opens the board that stops, open and stop the board that stops positive fixedly connected with electrode post of board, the plate electrode back is seted up porosely and electrode post and is inserted wherein, automatic switching mechanism's structural fixedly connected with spring B, spring B's front end fixedly connected with push pedal, the push pedal with open and stop the board laminating, the outer wall fixedly connected with left surface that the slide is located the activity inslot and the collection ash section of.
Preferably, the bottom surface of the ash collecting cylinder A is fixedly connected and communicated with a hollow ash collecting cylinder B, and the bottom surface of the sliding plate is in a hollow state and is communicated with the ash collecting cylinder B.
Preferably, the automatic switching mechanism comprises a cylinder with a hollow left side surface, the cylinder is fixedly connected to the inner wall of the bottom surface of the movable groove corresponding to the sliding plate, a piston is sleeved on the inner wall of the cylinder, a round rod is fixedly connected to the left side surface of the piston, the round rod is fixedly connected with the sliding plate, the positions of the top surface of the fixing frame corresponding to the five inserting rods are fixedly connected with a sliding plate A, the position of the front surface of the fixing frame corresponding to the five inserting rods is fixedly connected with a sliding plate B, the sliding plate B is connected with the rear end of a spring B, the front surface of the sliding plate B is provided with a sliding hole B in a sleeved relation with the inserting rods, the top surface of the sliding plate A is provided with a sliding hole C, an air inlet column with a hollow center and fixedly provided with an air pipe connector is sleeved inside the sliding hole C, the back side surface of the sliding plate is fixedly connected with an air delivery plate with a bottom surface which is flush with, the inserting rod and the air inlet column are made of materials capable of being attracted by magnetic force, an air pipe A is fixedly mounted on an air pipe joint on the air delivery plate, one end, far away from the air delivery plate, of the air pipe A is fixedly connected and communicated with the cylinder, the front face of the fixing frame is fixedly connected with hollow air guide plates on the left sides of the five sliding plates B, the bottom end of the air inlet column is communicated with the air guide plates through the air pipe B, the right side faces of the air guide plates are fixedly connected and communicated with bellows capable of expanding and retracting after being inflated, and one end, far away from the air guide plates, of the bellows is fixedly connected with the sliding.
(III) advantageous effects
Compared with the prior art, the invention provides a dust treatment effect monitoring device, which has the following beneficial effects:
1. this dust treatment effect monitoring facilities, setting through treatment effect monitoring mechanism, outlet duct through with a plurality of intake pipe A and a plurality of gas cleaning equipment is connected, thereby extract the flue gas after a small amount of purifications and carry out automated inspection, whether the user can judge particulate matter content in the intake pipe A exhaust flue gas of relevant position according to the dwell position of slide fast exceeds standard, thereby help the user to adjust the purification intensity of gas cleaning equipment, the problem of avoiding exhaust flue gas particulate matter content still to exceed standard, and compare in current detection mode, do not use monitoring facilities such as sensor, avoid maintenance and loaded down with trivial details problem such as scrubbing, also possess high monitoring volume, the position that changes intake pipe A improves monitoring range, use and benefit such as concentrated show monitoring data.
2. This dust treatment effect monitoring facilities through frictional force adjustment mechanism's setting, lets the user can change the frictional force between the slide of plate electrode and sliding state as required to change the monitoring range of slide to particulate matter content in the exhaust flue gas, improved the adaptability and the performance such as practicality of device.
3. This dust treatment effect monitoring facilities through the setting of a plurality of bolts and friction plate, lets the scope that frictional force adjustment mechanism adjusted further enlarge, reduces the operation degree of difficulty and the maneuverability of fine setting, and the effectual effect that improves the device monitoring has further improved the adaptability and the performance such as practicality of device.
4. This dust treatment effect monitoring facilities, setting through intake pipe B, let the device not only can monitor the flue gas after the purification, also can monitor the flue gas before the purification through simple operation, help the user to adjust the intensity of flue gas purification equipment according to the monitoring effect, can let flue gas purification equipment suitably reduce purification intensity to the lower flue gas of particulate matter content, be favorable to reducing the consumption of flue gas purification equipment to the energy, avoid useless energy loss, after carrying out fume emission's rational planning, can be through changing the emission position of the flue gas of low particulate matter content, avoid the long-time high load operation of single flue gas purification equipment to lead to reduce life-span and effect reduction problem.
5. This dust treatment effect monitoring facilities, through frictional force adjustment mechanism's setting, when utilizing admission pipe B to monitor unpurified flue gas, particulate matter content is must more in the flue gas of unpurified, utilizes frictional force adjustment mechanism's regulating power can change the intensity to flue gas monitoring to conveniently monitor the less flue gas of flue gas particulate matter content in the appropriate scope, guarantee to assist the function implementation that the user adjusted flue gas purification equipment intensity.
6. This dust treatment effect monitoring facilities through the setting of electrode start-stop mechanism, lets the slide can the automatic disconnection electrode of plate electrode at the slip in-process to do not need to monitor at every turn and carry out manual clearance after qualified, thereby let the device possess the ability of long-term automation operation, and the particulate matter can fall in ash collecting barrel A voluntarily after breaking away from the plate electrode, thereby avoid the problem of clearance difficulty.
7. This dust treatment effect monitoring facilities opens the setting of stopping the mechanism through the electrode, when the particulate matter of adhesion on the needs manual clearance plate electrode, slides back and forth in slide opening A through manual pulling slide, utilizes the slide to promote to open the mode that stops the board disconnection electrode plate electrode and can get off the particulate matter clearance on the plate electrode, improves operating efficiency and efficiency that resets.
8. This dust treatment effect monitoring facilities, through the setting of an album ash section of thick bamboo B, the particulate matter of collecting in an album ash section of thick bamboo A can be discharged through an album ash section of thick bamboo B and slide to avoid in an album ash section of thick bamboo A particulate matter to pile up too much loaded down with trivial details problem that needs regular clearance, further improve the degree of automation of device.
9. This dust treatment effect monitoring facilities, setting through automatic switching mechanism, can drive the board that starts and stops automatically after the slide meets unqualified flue gas of granule content and breaks away from the plate electrode, thereby play the effect of record unqualified position, and avoid the follow-up gliding effect of separation slide, guarantee that the slide can both be in the slide opening A reciprocal slip in the cycle that the motor stops and starts rotating at every turn, thereby further improve the degree of automation of device, also need not the user to stare the function of device and break off the electrode of electrode plate at the interval of monitoring at every turn, further improve convenience and the efficiency that the device used.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic cross-sectional front view of the present invention;
FIG. 3 is an enlarged view taken at A of FIG. 2 according to the present invention;
FIG. 4 is a schematic top sectional view of the pushing base of the present invention;
FIG. 5 is an enlarged view of FIG. 4 at B according to the present invention;
FIG. 6 is a schematic view of the monitoring box of the present invention;
FIG. 7 is an enlarged view of the invention at C of FIG. 6;
FIG. 8 is a schematic view of the fixing frame of the present invention in a partial cross-sectional configuration;
FIG. 9 is a schematic structural view of the box of the present invention;
FIG. 10 is a side cross-sectional view of the monitoring box of the present invention;
FIG. 11 is a schematic structural view of a dust collecting container A and a dust collecting container B according to the present invention.
In the figure: 1. a treatment effect monitoring mechanism; 101. a monitoring box; 102. an air inlet pipe A; 103. an electrode plate; 104. a slide plate; 105. fitting the box; 106. a pushing seat; 107. a rotating rod; 108. a slide plate; 109. a spring A; 1010. an elastic plate; 1011. pasting a board; 1012. pulling a rope; 1013. a transmission belt; 1014. rotating the motor; 2. a friction force adjusting mechanism; 201. a fixing plate; 202. a bolt; 203. a friction plate; 3. an air inlet pipe B; 4. an electrode start and stop mechanism; 401. a fixed mount; 402. an insulating plate; 403. inserting a rod; 404. pushing the plate; 405. a spring B; 406. starting and stopping the plate; 407. an electrode column; 408. a dust collecting cylinder A; 409. a dust collecting cylinder B; 5. an automatic switching mechanism; 501. a cylinder; 502. a piston; 503. a round bar; 504. a sliding plate A; 505. a sliding plate B; 506. an air inlet column; 507. a gas transmission plate; 508. a trachea A; 509. a trachea B; 5010. A gas guide plate; 5011. a bellows; 6. a movable groove; 7. a slide hole A; 8. a chute A; 9. a chute B; 10. a slide hole B; 11. and (4) a slide hole C.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-11, a dust control effect monitoring device comprises a control effect monitoring mechanism 1, an electrode start/stop mechanism 4 and an automatic switching mechanism 5, wherein the electrode start/stop mechanism 4 is arranged on the back side surface of the control effect monitoring mechanism 1, the automatic switching mechanism 5 is arranged on the electrode start/stop mechanism 4, the control effect monitoring mechanism 1 comprises a monitoring box 101, a movable groove 6 penetrating through the top surface of the monitoring box 101 is arranged on the back side surface of the monitoring box 101, a slide hole a7 is arranged at the top end of the back side surface of the movable groove 6, five air inlet pipes a102 penetrating through the monitoring box 101 are fixedly connected to the bottom surface of the movable groove 6, an electrode plate 103 is fixedly connected to the inner wall of the top surface of the movable groove 6, a T-shaped slide plate 104 is sleeved on the inner wall of the slide hole a7, a bonding box 105 is fixedly connected to the left side surface of the slide plate 104 positioned in the slide hole a7, a friction force adjusting mechanism 2, the right side of the monitoring box 101 is fixedly connected with a pushing seat 106 with a hollowed-out top end of the side, the inner wall of the bottom of the pushing seat 106 is provided with a sliding groove A8, the bottom of the sliding groove A8 is provided with a sliding groove B9 with a convex cross section, the inner wall of the sliding groove B9 is sleeved with a rotating bearing, the inner wall of the rotating bearing is fixedly connected with a rotating rod 107, the inner wall of the sliding groove A8 is sleeved with a sliding plate 108, the right side of the sliding plate 108 is fixedly connected with a spring A109, the left side of the sliding plate 108 is fixedly connected with an elastic plate 1010 in a folded state, the left end of the elastic plate 1010 is fixedly connected with a patch 1011 with a magnet inside, the patch 1011 is attracted to the sliding plate 104 by magnetic force, the outer wall of the rotating rod 107 is fixedly connected with a pulling rope 1012, the left end of the pulling rope 1012 is fixedly connected with the patch 1011, the inner wall of the pushing seat 106 is fixedly provided with a In the movable groove 6, a rotating motor 1014 is arranged to start at a timing, particles in the smoke in the movable groove 6 are adsorbed by the electrode plate 103 with the electrode in the process of being discharged through the sliding hole A7, then the rotating motor 1014 starts the rotation of the transmission shaft, the rotating motor 1014 transmits the rotation of the transmission shaft to the rotating rod 107 through a transmission belt 1013, the rotating rod 107 rotates and pulls the pulling rope 1012 to be wound on the outer wall of the rotating rod, the pulling rope 1012 pulls the elastic plate 1010 to be contracted and the pasting plate 1011 to be close to the pushing seat 106 along with the winding, and the pasting plate 1011 pulls the sliding plate 104 to be positioned at the rightmost end of the monitoring box 101 through magnetic force. Then the rotating motor 1014 stops at a fixed time, the elastic plate 1010 rebounds to push the sliding plate 104 to slide in the sliding hole A7, when the smoke conducted by a certain air inlet pipe A102 contains more particulate matters, more particulate matters are adsorbed on the electrode plate 103 at the corresponding position, so that the roughness of the bottom surface of the electrode plate 103 at the corresponding position is increased, when the sliding plate 104 slides on the electrode plate 103 along with the rebounding of the elastic plate 1010, when the friction force adjusting mechanism 2 in the jointing box 105 contacts with the bottom surface of the electrode plate 103 with high roughness, a large friction force is generated, the friction force is larger than the elasticity of the spring A109, the sliding plate 104 is directly blocked from moving, the rebounding force of the elastic plate is reflected on the sliding plate 108, the sliding plate 108 is pushed to slide in the sliding groove A8 and compress the spring A109, and the stop position of the sliding plate 104 indicates the position of the electrode plate 103 with high roughness, namely the position of the air inlet pipe A102 with high, then, the sliding plate 104 is pulled to reset along with the starting of the rotating motor 1014, the spring A109 rebounds to drive the sliding plate 108 to reset, then the electrode plate 103 is manually powered off once to clean the adsorbed dust for the next detection, through the arrangement of the treatment effect monitoring mechanism 1, a plurality of air inlet pipes A102 are connected with the air outlet pipes of a plurality of flue gas purification devices, so that a small amount of purified flue gas is extracted for automatic detection, a user can quickly judge whether the content of particulate matters in the flue gas discharged by the air inlet pipes A102 at corresponding positions exceeds the standard or not according to the staying position of the sliding plate 104, so that the user is assisted to adjust the purification strength of the flue gas purification devices, the problem that the content of the particulate matters in the discharged flue gas still exceeds the standard is avoided, and compared with the existing detection mode, the monitoring devices such as sensors are not used, and the complicated, the monitoring system also has the purposes and advantages of high monitoring amount, changing the position of the air inlet pipe A102 to improve the monitoring range, displaying the monitoring data in a centralized mode and the like.
The centers of the top surface, the right side surface and the back surface of the attaching box 105 are all hollowed out, the friction force adjusting mechanism 2 comprises a fixing plate 201, the fixing plate 201 is fixedly connected to the inner wall of the back surface of the attaching box 105, a thread groove is formed in the top surface of the fixing plate 201, a bolt 202 is in threaded connection with the top surface of the bolt 202, a friction plate 203 with bristles arranged on the top surface is fixedly connected to the top surface of the bolt 202 through a rotating bearing, the distance between the friction plate 203 and the electrode plate 103 is changed by rotating the bolt 202, the friction force is changed by adjusting the pressure between the top surface of the friction plate 203 and the electrode plate 103, so that the friction force between the electrode plate 103 and the sliding plate 104 under the same particulate matter content is adjusted, a user can change the monitoring range of the sliding plate 104 according to needs, and the friction force between the electrode, thereby changing the monitoring range of the sliding plate 104 on the content of the particulate matters in the discharged flue gas and improving the adaptability, the practicability and other performances of the device.
The quantity of bolt 202 and friction plate 203 is five and controls equidistant distribution, through the setting of a plurality of bolts 202 and friction plate 203, lets the scope that frictional force adjustment mechanism 2 adjusted further expand, reduces the operation degree of difficulty and the maneuverability of fine setting, and the effectual effect that improves the device monitoring has further improved performances such as adaptability and the practicality of device.
Five air inlet pipes B3 penetrating through the monitoring box 101 are fixedly connected to the front side of an air inlet pipe A102 on the bottom surface of the movable tank 6, valves are arranged on the air inlet pipe A102 and the air inlet pipe B3, firstly, the air inlet pipe B3 is connected with a smoke exhaust end which does not pass through smoke purification equipment, then, the air inlet pipe A102 is closed by closing a valve, then, the friction force adjusting mechanism 2 is adjusted according to needs, then, the device is started, when the device passes through a first air inlet pipe B3, the device does not stop, namely, the content of particulate matters in smoke exhausted from a corresponding position is small, so that the purification strength of the smoke purification equipment can be properly reduced, when the device passes through a first air inlet pipe B3, the sliding plate 104 stops, namely, the content of the particulate matters in the smoke at the corresponding position is large, the valve of the first air inlet pipe B3 is closed, the valve of the first air inlet pipe A102 is started, the starting device is sequentially and, through the arrangement of the air inlet pipe B3, the device not only can monitor the purified flue gas, but also can monitor the flue gas before purification through simple operation, assist the user to adjust the intensity of the flue gas purification equipment according to the monitoring effect, properly reduce the purification intensity of the flue gas with lower particulate matter content by the flue gas purification equipment, be beneficial to reducing the energy consumption of the flue gas purification equipment, avoid useless energy loss, and avoid the problems of service life reduction and effect reduction caused by long-time high-load operation of single flue gas purification equipment by changing the emission position of the flue gas with low particulate matter content after reasonable planning of flue gas emission, through the arrangement of the friction force adjusting mechanism 2, when the air inlet pipe B3 is used for monitoring the unpurified flue gas, the particulate matter content in the unpurified flue gas is more, the intensity of monitoring the flue gas can be changed by utilizing the adjusting capacity of the friction force adjusting mechanism 2, so that the flue gas with less content of flue gas particles in a proper range can be conveniently monitored, and the function implementation of assisting a user in adjusting the intensity of the flue gas purification equipment is ensured.
The electrode start and stop mechanism 4 comprises a C-shaped fixing frame 401, the fixing frame 401 is fixedly connected to the top end of the back of the monitoring box 101, the number of the electrode plates 103 is five, the electrode plates are mutually connected into a rectangular body through an insulating plate 402, the positions of the front surface of the fixing frame 401 corresponding to the five electrode plates 103 are provided with holes, the inserting rods 403 are sleeved in the holes, the front surface of each inserting rod 403 is fixedly connected with a semi-cylindrical start and stop plate 406, the front surface of each start and stop plate 406 is fixedly connected with an electrode column 407, the back surface of each electrode plate 103 is provided with a hole, the electrode columns 407 are inserted into the holes, the automatic switching mechanism 5 is structurally and fixedly connected with a spring B405, the front end of the spring B405 is fixedly connected with a push plate 404, the push plate 404 is attached to the start and stop plates 406, the outer wall of the slide plate 104 in, firstly, an electrode column 407 is connected with electric power, then the electrode column 407 is inserted into an electrode plate 103 and then is conducted onto the electrode plate 103, along with the sliding of a sliding plate 104, when the sliding plate 104 is in contact with a start-stop plate 406, the sliding plate 104 pushes the start-stop plate 406 to be away from the electrode plate 103, the electrode plate 103 loses the electrode after being separated from the contact with the electrode column 407, particles on the electrode plate 103 fall down and fall onto an ash collecting barrel A408, when the sliding plate 104 is separated from the start-stop plate 406, a spring B405 rebounds and drives the start-stop plate 406 to reset, the electrode plate 103 is contacted with the electrode column 407 again and is led into the electrode, the sliding plate 104 can automatically disconnect the electrode of the electrode plate 103 in the sliding process through the arrangement of an electrode start-stop mechanism 4, so that manual cleaning is not required after each qualified monitoring, the device has the capability of long-term automatic operation, and the particles can automatically fall into the ash collecting barrel, thereby avoid the problem of clearance difficulty, through the setting of electrode start-stop mechanism 4, when the particulate matter of adhesion on the needs manual clearance electrode board 103, slide back and forth in slide opening A7 through manual pulling slide 104, utilize slide 104 to promote the mode that start-stop board 406 disconnection electrode board 103 electrode can get off the particulate matter clearance on the electrode board 103, improve operating efficiency and efficiency that resets.
The bottom surface of the ash collecting barrel A408 is fixedly connected and communicated with a hollow ash collecting barrel B409, the bottom surface of the sliding plate 104 is in a hollow state and is communicated with the ash collecting barrel B409, and through the arrangement of the ash collecting barrel B409, the particulate matters collected in the ash collecting barrel A408 can be discharged through the ash collecting barrel B409 and the sliding plate 104, so that the problem that the particulate matters in the ash collecting barrel A408 are too much accumulated and need to be regularly cleaned is solved, and the automation degree of the device is further improved.
The automatic switching mechanism 5 comprises a cylinder 501 with a hollow left side surface, the cylinder 501 is fixedly connected with the inner wall of the bottom surface of the movable groove 6 corresponding to the sliding plate 108, a piston 502 is sleeved on the inner wall of the cylinder 501, a round rod 503 is fixedly connected with the left side surface of the piston 502, the round rod 503 is fixedly connected with the sliding plate 108, sliding plates A504 are fixedly connected with the positions of the top surfaces of the fixed frames 401 corresponding to the five inserting rods 403, sliding plates B505 are fixedly connected with the positions of the front surfaces of the fixed frames 401 corresponding to the five inserting rods 403, the sliding plates B505 are connected with the rear ends of the springs B405, sliding holes B10 which are in sleeved relation with the inserting rods 403 are formed in the front surfaces of the sliding plates B505, sliding holes C11 are formed in the top surfaces of the sliding plates A504, an air inlet column 506 with a hollow center and fixedly installed in the sliding holes C11, an air delivery plate 507 with a bottom surface which is flush with the, the bottom surface of the gas transmission plate 507 is provided with a hole corresponding to the position of the gas pipe joint, the hole is fixedly connected with a circular magnet, the inserted link 403 and the gas inlet column 506 are made of materials which can be attracted by magnetic force, the gas pipe joint on the gas transmission plate 507 is fixedly provided with a gas pipe A508, one end of the gas pipe A508 far away from the gas transmission plate 507 is fixedly connected and communicated with the cylinder 501, the front surface of the fixed frame 401 is fixedly connected with a hollow gas guide plate 5010 on the left sides of five sliding plates B505, the bottom end of the gas inlet column 506 is communicated with the gas guide plate 5010 through a gas pipe B509, the right side surface of the gas guide plate 5010 is fixedly connected and communicated with a corrugated pipe 5011 which can expand and stretch after being inflated, one end of the corrugated pipe 5011 far away from the gas guide plate 5010 is fixedly connected with the sliding plate B505, when the sliding plate 104 slides, when the gas transmission plate 507 is attached to the top surface of the sliding plate A504, therefore, the two air pipe joints are kept communicated, when the sliding plate 104 is stopped due to more particles on the electrode plate 103, the sliding plate 108 sliding in the sliding groove A8 along with the reaction force of the resilience of the elastic plate 1010 pushes the round rod 503 to contract towards the cylinder 501, then the air in the cylinder 501 is injected into the air delivery plate 507 through the air pipe A508, then the air is injected into the air inlet column 506 through the air delivery plate 507, then the air is injected into the corrugated pipe 5011 through the air pipe B509 and the air guide plate 5010, the corrugated pipe 5011 is inflated to expand and push the sliding plate B505, the sliding plate B505 drives the spring B405 and the pushing plate 404 to slide to separate from the rear end of the start-stop plate 406, the inserted rod is attracted by the magnetic force on the air delivery plate 507 to move backwards, so that the electrode column 407 separates from the electrode 103, the particles fall off after the electrode plate 103 loses the electrode, the sliding plate 104 is blocked by the friction force, the sliding plate can keep sliding, and the, then the user can judge whether the content of the particulate matter in the flue gas of the air inlet pipe A102 at the corresponding position is qualified or not according to the start-stop plate 406 which is separated from the push plate 404, and through the setting of the automatic switching mechanism 5, the start-stop plate 406 can be automatically driven to separate from the electrode plate 103 after the sliding plate 104 meets the flue gas with unqualified particulate matter content, so that the effect of recording the unqualified position is achieved, the effect of preventing the sliding plate 104 from subsequently sliding is avoided, the sliding plate 104 is ensured to slide in the sliding hole A7 in a reciprocating manner in the period of stopping and starting the rotating motor 1014 every time, the automation degree of the device is further improved, the user is not required to stare the operation of the device and break the electrode of the electrode plate 103 at the interval monitored every time, and the convenience.
When in use, S1, firstly, five air inlet pipes A102 are respectively connected with the air outlets of five flue gas purification devices to introduce part of the flue gas into the movable groove 6, then the rotating motor 1014 is arranged to be started at regular time, the particulate matters in the flue gas in the movable groove 6 are adsorbed by the electrode plate 103 with the electrode in the process of being discharged through the sliding hole A7, then the rotating motor 1014 starts the transmission shaft to rotate, the rotating motor 1014 transmits the rotation of the transmission shaft to the rotating rod 107 through the transmission belt 1013, the rotating rod 107 rotates and pulls the pulling rope 1012 to be wound on the outer wall of the rotating rod, the pulling rope 1012 pulls the elastic plate 1010 to be wound and the pasting plate 1011 to be close to the pushing seat 106 along with the winding, and the pasting plate 104 is pulled to be positioned at the rightmost end of the. Then the rotating motor 1014 stops at a fixed time, the elastic plate 1010 rebounds to push the sliding plate 104 to slide in the sliding hole a7, when the smoke conducted by a certain air inlet pipe a102 contains more particulate matters, the amount of particles adsorbed on the electrode plate 103 at the corresponding position is also increased, so that the roughness of the bottom surface of the electrode plate 103 at the corresponding position is increased, when the sliding plate 104 slides on the electrode plate 103 along with the rebounding of the elastic plate 1010, when the friction force adjusting mechanism 2 in the jointing box 105 contacts with the bottom surface of the electrode plate 103 with high roughness, a large friction force is generated, the friction force is larger than the elasticity of the spring a109, the sliding plate 104 is directly hindered from moving, the rebound force of the elastic plate 1010 is reacted on the sliding plate 108, the sliding plate 108 is pushed to slide in the sliding groove A8 and compress the spring a109, and the staying position of the sliding plate 104 indicates the position of the electrode plate 103 with high roughness, namely the position of the air inlet pipe a102, then, the sliding plate 104 is pulled to reset along with the starting of the rotating motor 1014, the spring A109 rebounds to drive the sliding plate 108 to reset, and then the electrode plate 103 is manually powered off once to clean the adsorbed dust for the next detection.
S2, the distance between the friction plate 203 and the electrode plate 103 is changed by rotating the bolt 202, and the pressure between the top surface of the friction plate 203 and the electrode plate 103 is adjusted to change the friction force, so that the friction force between the electrode plate 103 and the sliding plate 104 under the same content of the particulate matters is adjusted, and a user can change the monitoring range of the sliding plate 104 according to the requirement.
S3, firstly connecting the air inlet pipe B3 with a smoke exhaust end which does not pass through the smoke purification equipment, then closing a valve to seal the air inlet pipe A102, then adjusting the friction force adjusting mechanism 2 according to needs, then starting the device, when the device passes through the first air inlet pipe B3, the device does not stay, namely the content of particulate matters in smoke exhausted from a corresponding position is small, so that the purification intensity of the smoke purification equipment can be properly reduced, when the device passes through the first air inlet pipe B3, the sliding plate 104 stays, namely the content of the smoke particulate matters in the smoke at the corresponding position is large, then closing the valve of the first air inlet pipe B3, starting the valve of the first air inlet pipe A102, and then starting the device is circulated in turn, and after repeated tests, the purification intensity of the smoke purification equipment can be adjusted to a proper range.
S4, firstly, connecting the electrode column 407 with power, then conducting the electrode to the electrode plate 103 after the electrode column 407 is inserted into the electrode plate 103, with the sliding of the sliding plate 104, when the sliding plate 104 contacts with the start-stop plate 406, the sliding plate 104 pushes the start-stop plate 406 away from the electrode plate 103, the electrode plate 103 loses the electrode after being separated from the contact with the electrode column 407, the particles on the electrode plate 103 fall down and fall onto the dust collecting cylinder A408, when the sliding plate 104 is separated from the start-stop plate 406, the spring B405 rebounds and drives the start-stop plate 406 to reset, and the electrode plate 103 contacts with the electrode column 407 again and is led into the electrode.
S5, when the sliding plate 104 slides and the air transmission plate 507 is jointed with the top surface of the sliding plate A504, the air inlet column 506 follows the air transmission plate 507 to slide in the sliding hole C11 by the magnetic force of the magnet on the air transmission plate 507, thereby keeping the communication of the two air pipe joints, when the sliding plate 104 is stagnated due to more particles on the electrode plate 103, the sliding plate 108 sliding in the sliding groove A8 along with the reaction force of the rebound of the elastic plate 1010 pushes the round rod 503 to contract towards the cylinder 501, then the air in the cylinder 501 is injected into the air transmission plate 507 through the air pipe A508, then the air is injected into the air inlet column 506 through the air transmission plate 507, then the air is injected into the corrugated pipe 5011 through the air pipe B and the air transmission plate 5010, the corrugated pipe 5011 inflates and expands and pushes the sliding plate B505, the sliding plate B505 drives the springs 405B and 404 to slide to separate from the rear end of the starting plate 406, the insertion rod 403 moves backwards by the magnetic force of the air transmission plate 507, thereby separating the electrode column, the electrode plate 103 loses the electrode after the particulate matter drops, and slide 104 loses frictional force and separates and can keep sliding, and the particulate matter can drop to in laminating box 105 and the ash collection section of thick bamboo A408, then the user can judge whether qualified according to the air inlet pipe A102 flue gas that breaks away from the board 406 of opening and stopping of push pedal 404 that the particulate matter content is in the corresponding position.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (8)
1. The utility model provides a dust treatment effect monitoring facilities, opens including treatment effect monitoring mechanism (1), electrode and stops mechanism (4) and automatic switching mechanism (5), treatment effect monitoring mechanism (1) dorsal surface is provided with electrode and opens and stop mechanism (4), is provided with automatic switching mechanism (5) on electrode opens and stops mechanism (4), its characterized in that: the treatment effect monitoring mechanism (1) comprises a monitoring box (101), a movable groove (6) is formed in the back side face of the monitoring box (101), a sliding hole A (7) is formed in the top end of the back side face of the movable groove (6), a plurality of air inlet pipes A (102) are fixedly connected to the bottom face of the movable groove (6), an electrode plate (103) is fixedly connected to the inner wall of the top face of the movable groove (6), a sliding plate (104) is sleeved on the inner wall of the sliding hole A (7), a fitting box (105) is fixedly connected to the left side face of the sliding plate (104) located in the sliding hole A (7), a friction force adjusting mechanism (2) is fixedly installed in the fitting box (105), a pushing seat (106) is fixedly connected to the right side face of the monitoring box (101), a sliding groove A (8) is formed in the inner wall of the bottom face of the pushing seat (106), a sliding groove B (9) is formed in the bottom face of the sliding, slide A (8) inner wall emboliaed has slide (108), slide (108) right flank fixedly connected with spring A (109), slide (108) left flank fixed connection has elastic plate (1010), elastic plate (1010) left end fixedly connected with flitch (1011), bull stick (107) outer wall fixedly connected with stay cord (1012), stay cord (1012) left end and flitch (1011) fixed connection, it has rotating motor (1014) to promote seat (106) bottom surface inner wall fixed mounting, rotating motor (1014) transmission shaft and bull stick (107) are the transmission relation through drive belt (1013).
2. The dust treatment effect monitoring device of claim 1, wherein: the top surface, the right side face and the back center of the laminating box (105) are all hollowed out, the friction force adjusting mechanism (2) comprises a fixing plate (201), the fixing plate (201) is fixedly connected to the inner wall of the back face of the laminating box (105), a thread groove is formed in the top surface of the fixing plate (201) and is connected with a bolt (202) in a threaded mode, and the top surface of the bolt (202) is fixedly connected with a friction plate (203) through a rotating bearing.
3. The dust treatment effect monitoring device of claim 2, wherein: the number of the bolts (202) and the number of the friction plates (203) are all a plurality and are distributed at equal intervals from left to right.
4. The dust treatment effect monitoring device of claim 2, wherein: the bottom surface of the movable groove (6) is fixedly connected with a plurality of air inlet pipes B (3) penetrating through the monitoring box (101) on the front side of the air inlet pipe A (102), and valves are arranged on the air inlet pipes A (102) and the air inlet pipes B (3).
5. The dust treatment effect monitoring device of claim 1, wherein: electrode start and stop mechanism (4) including mount (401), mount (401) fixed connection is on monitoring case (101) back top, the quantity of plate electrode (103) is the several and connects into the cuboid through insulation board (402) interconnect each other, mount (401) openly correspond the position of several plate electrode (103) and all set up porosely and downthehole the emboliaed inserted bar (403), inserted bar (403) openly fixedly connected with start and stop board (406), start and stop board (406) openly fixedly connected with electrode post (407), plate electrode (103) back is seted up porosely and electrode post (407) and is inserted wherein, the structural fixedly connected with spring B (405) of automatic switching mechanism (5), the front end fixedly connected with push pedal (404) of spring B (405), push pedal (404) and start and stop board (406) laminating.
6. A dust treatment effect monitoring device according to claim 5, characterized in that: the outer wall of the sliding plate (104) in the movable groove (6) is fixedly connected with an ash collection cylinder A (408), and the ash collection cylinder A (408) is communicated with the attaching box (105).
7. The dust treatment effect monitoring device of claim 6, wherein: the bottom surface of the ash collecting cylinder A (408) is fixedly connected and communicated with a hollow ash collecting cylinder B (409), and the bottom surface of the sliding plate (104) is in a hollow state and is communicated with the ash collecting cylinder B (409).
8. A dust treatment effect monitoring device according to claim 5, characterized in that: the automatic switching mechanism (5) comprises a cylinder (501) with a hollow left side face, the cylinder (501) is fixedly connected with the inner wall of the bottom face of the movable groove (6) corresponding to the sliding plate (108), a piston (502) is sleeved on the inner wall of the cylinder (501), a round rod (503) is fixedly connected with the left side face of the piston (502), the round rod (503) is fixedly connected with the sliding plate (108), sliding plates A (504) are fixedly connected with the positions of the top face of the fixed frame (401) corresponding to the plurality of inserting rods (403), sliding plates B (505) are fixedly connected with the positions of the front face of the fixed frame (401) corresponding to the plurality of inserting rods (403), the sliding plates B (505) are connected with the rear end of the spring B (405), sliding holes B (10) are formed in the front face of the sliding plate B (505), sliding holes C (11) are formed in the top face of the sliding plate A (504), air inlet columns (506) are, the position that gas transmission board (507) top surface corresponds air inlet column (506) is fixed to be installed with the trachea joint, the trachea joint fixed mounting on gas transmission board (507) has trachea A (508), the one end and drum (501) fixed connection and the intercommunication that gas transmission board (507) were kept away from to trachea A (508), mount (401) openly are at equal fixed connection air guide plate (5010) in several slide B (505) left side, air inlet column (506) bottom is through trachea B (509) and air guide plate (5010) intercommunication, air guide plate (5010) right flank fixed connection and intercommunication have bellows (5011), the one end and slide B (505) fixed connection that air guide plate (5010) were kept away from in bellows (5011).
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CN202011414175.9A CN112697665A (en) | 2020-12-07 | 2020-12-07 | Dust treatment effect monitoring facilities |
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CN202011414175.9A CN112697665A (en) | 2020-12-07 | 2020-12-07 | Dust treatment effect monitoring facilities |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113467341A (en) * | 2021-08-06 | 2021-10-01 | 山东盛和电子有限公司 | STM 32-based intelligent communication acquisition device with power supply control function |
CN115475700A (en) * | 2022-10-11 | 2022-12-16 | 河南理工大学 | Incineration power generation flue gas treatment equipment |
-
2020
- 2020-12-07 CN CN202011414175.9A patent/CN112697665A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113467341A (en) * | 2021-08-06 | 2021-10-01 | 山东盛和电子有限公司 | STM 32-based intelligent communication acquisition device with power supply control function |
CN115475700A (en) * | 2022-10-11 | 2022-12-16 | 河南理工大学 | Incineration power generation flue gas treatment equipment |
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