CN108518696B - Environment-friendly energy-saving industrial waste gas combustion treatment device - Google Patents
Environment-friendly energy-saving industrial waste gas combustion treatment device Download PDFInfo
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- CN108518696B CN108518696B CN201810316315.5A CN201810316315A CN108518696B CN 108518696 B CN108518696 B CN 108518696B CN 201810316315 A CN201810316315 A CN 201810316315A CN 108518696 B CN108518696 B CN 108518696B
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- air inlet
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G7/00—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals
- F23G7/06—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals of waste gases or noxious gases, e.g. exhaust gases
- F23G7/061—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals of waste gases or noxious gases, e.g. exhaust gases with supplementary heating
- F23G7/065—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals of waste gases or noxious gases, e.g. exhaust gases with supplementary heating using gaseous or liquid fuel
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G2204/00—Supplementary heating arrangements
- F23G2204/10—Supplementary heating arrangements using auxiliary fuel
- F23G2204/103—Supplementary heating arrangements using auxiliary fuel gaseous or liquid fuel
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G2207/00—Control
- F23G2207/20—Waste supply
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G2207/00—Control
- F23G2207/40—Supplementary heat supply
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- Environmental & Geological Engineering (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Testing Of Engines (AREA)
- Incineration Of Waste (AREA)
Abstract
The invention relates to a waste gas treatment device, in particular to an environment-friendly energy-saving industrial waste gas combustion treatment device, which comprises a complete machine bracket, a power mechanism, an exhaust control mechanism, an air inlet and exhaust mechanism, a pushing mechanism, an ignition control mechanism and an ignition mechanism, wherein the power mechanism is fixedly connected to the complete machine bracket, the exhaust control mechanism and the air inlet control mechanism are respectively and rotatably connected to the complete machine bracket, the power mechanism and the exhaust control mechanism are connected through belt transmission, the exhaust control mechanism and the air inlet control mechanism are meshed and rotated through gears, the lower end of the air inlet and exhaust mechanism is fixedly connected to the complete machine bracket, the upper end of the air inlet and exhaust mechanism is respectively contacted with the exhaust control mechanism and the air inlet control mechanism, the pushing mechanism is rotatably connected to the complete machine bracket, repeated and efficient industrial waste gas combustion treatment can be carried out, the mixed gas of industrial waste and combustible gas is combusted, so that the aim of treating waste gas can be fulfilled.
Description
Technical Field
The invention relates to a waste gas treatment device, in particular to an environment-friendly energy-saving industrial waste gas combustion treatment device.
Background
For example, patent No. CN201621414261.9 discloses an environment-friendly and energy-saving industrial waste gas combustion processing device, wherein an air inlet pipe is installed in an installation hole on the outer wall of the left side of a processing box, and an air outlet end of the air inlet pipe is connected with a gas distribution pipe; the upper end and the lower end of the gas distribution pipe are respectively communicated with the left end of a high-temperature resistant gas transmission pipe which is horizontally arranged; the left and right parts of the two high-temperature resistant gas delivery pipes are respectively fixed in mounting holes on the fireproof heat insulation plates through gas pipe interfaces, and the two fireproof heat insulation plates are vertically arranged and fixed on the inner wall of the treatment box; two air inlet ends of the air collecting pipe are respectively communicated with an air outlet end corresponding to the right end of a high-temperature resistant air conveying pipe, the lower end of the air collecting pipe is connected with a condensed water discharge pipe, and the water outlet of the condensed water discharge pipe extends out of the treatment box; the utility model discloses a shortcoming is that can not make combustible gas and industrial waste gas carry out abundant co-combustion, also can not carry out the burning processing of repeated high-efficient industrial waste gas.
Disclosure of Invention
The invention aims to provide an environment-friendly energy-saving industrial waste gas combustion treatment device, which can fully mix and combust combustible gas and industrial waste gas, can carry out repeated and efficient industrial waste gas combustion treatment and can achieve the aim of treating the waste gas.
The purpose of the invention is realized by the following technical scheme:
an environment-friendly energy-saving industrial waste gas combustion treatment device comprises a complete machine support, a power mechanism, an exhaust control mechanism, an air inlet and exhaust mechanism, a pushing mechanism, an ignition control mechanism and an ignition mechanism, wherein the power mechanism is fixedly connected to the complete machine support, the exhaust control mechanism and the air inlet control mechanism are respectively and rotatably connected to the complete machine support, the power mechanism and the exhaust control mechanism are connected through belt transmission, the exhaust control mechanism and the air inlet control mechanism rotate through gear meshing, the lower end of the air inlet and exhaust mechanism is fixedly connected to the complete machine support, the upper end of the air inlet and exhaust mechanism is respectively contacted with the exhaust control mechanism and the air inlet control mechanism, the pushing mechanism is rotatably connected to the complete machine support, the power mechanism and the pushing mechanism are connected through belt transmission, the ignition control mechanism is rotatably connected to the complete machine support, and the pushing mechanism, the ignition mechanism is fixedly connected to the whole machine support, the lower end of the ignition mechanism is in contact with the ignition control mechanism, and the upper end of the ignition mechanism is in contact with the air intake and exhaust mechanism.
As a further optimization of the technical scheme, the environment-friendly energy-saving industrial waste gas combustion treatment device comprises a whole machine support and two combustion supports, wherein the two side plates are arranged, and two sides of each combustion support are respectively and fixedly connected to the two side plates.
As a further optimization of the technical scheme, the environment-friendly energy-saving industrial waste gas combustion treatment device comprises a motor, a synchronous pulley I and a synchronous pulley II, wherein the synchronous pulley I and the synchronous pulley II are respectively and fixedly connected to an output shaft of the motor, the diameters of the synchronous pulley I and the synchronous pulley II are the same, and the motor is fixedly connected to a side plate on the right side.
As a further optimization of the technical scheme, the invention relates to an environment-friendly energy-saving industrial exhaust gas combustion treatment device, wherein the exhaust control mechanism comprises an exhaust control shaft, an exhaust control belt wheel, an exhaust control gear and an exhaust control cam, the exhaust control belt wheel is fixedly connected to the right end of the exhaust control shaft, the exhaust control cam is fixedly connected to the middle end of the exhaust control shaft, the exhaust control gear is fixedly connected to the right end of the exhaust control shaft, two ends of the exhaust control shaft are respectively and rotatably connected to two side plates, the exhaust control belt wheel is connected with a synchronous belt wheel I through belt transmission, and the diameters of the exhaust control belt wheel and the synchronous belt wheel I through belt transmission connection are the same.
As further optimization of the technical scheme, the invention discloses an environment-friendly energy-saving industrial waste gas combustion treatment device, wherein the air inlet control mechanism comprises an air inlet control shaft, two air inlet control gears and two air inlet control cams, the air inlet control gears are fixedly connected to the right end of the air inlet control shaft, the two air inlet control cams are respectively and fixedly connected to the air inlet control shaft, two ends of the air inlet control shaft are respectively and rotatably connected to the two side plates, the exhaust control gears are meshed with the air inlet control gears, and the diameters of the meshed exhaust control gears and meshed intake control gears are the same.
As a further optimization of the technical scheme, the invention relates to an environment-friendly energy-saving industrial waste gas combustion treatment device, wherein the air inlet and exhaust mechanism comprises an air inlet and exhaust upper plate, an air inlet and exhaust lower plate, an air outlet support, an air inlet support, an exhaust piston, an air inlet piston and an igniter, the exhaust piston comprises an air exhaust piston body and a spring catch I, the spring catch I is fixedly connected with the middle end of the air exhaust piston body, the lower end of the air exhaust piston body is arranged in a conical manner, the air inlet piston comprises an air inlet piston body and a spring catch II, the spring catch II is fixedly connected with the middle end of the air inlet piston body, the lower end of the air inlet piston body is arranged in a conical manner, three circular through holes I are uniformly arranged on the air inlet and exhaust upper plate, three circular through holes II are uniformly arranged on the air inlet and exhaust lower plate, the, the upper end and the lower end of the two air inlet supports are respectively communicated with two circular through holes I and two circular through holes II, the upper end and the lower end of the air outlet support are respectively communicated with the circular through holes I and the circular through holes II, the exhaust piston bodies are respectively in clearance fit in the air outlet supports, the exhaust piston bodies are sleeved with compression springs I, the compression springs I are positioned between the air inlet and exhaust lower plates and the spring retaining plates I, the upper ends of the exhaust piston bodies are contacted with the exhaust control cams, the two air inlet pistons are respectively in clearance fit in the two air inlet supports, the two air inlet piston bodies are respectively sleeved with compression springs II, the compression springs II are positioned between the air inlet and exhaust lower plates and the spring retaining plates II, the upper ends of the two air inlet piston bodies are respectively contacted with the two air inlet and exhaust control cams, the igniter is fixedly connected, the two air inlet control cams and the two exhaust control cams are the same in size, and the upper limit positions of the two air inlet control cams and the two exhaust control cams are different by half a cycle.
As a further optimization of the technical scheme, the environment-friendly energy-saving industrial waste gas combustion treatment device comprises a pushing mechanism, a pushing crank, a pushing belt wheel, a pushing gear, a pushing piston and a pushing connecting rod, wherein the upper end of the pushing piston is arranged in a concave arc, the pushing crank and the pushing belt wheel are respectively and fixedly connected to the left end and the right end of the pushing shaft, the pushing gear is fixedly connected to the middle end of the pushing shaft, the upper end of the pushing connecting rod is hinged to the lower end of the pushing piston, the lower end of the pushing connecting rod is hinged to the eccentric position of the pushing crank, the pushing shaft is rotatably connected to the side plate on the right side, the synchronous belt wheel II is in transmission connection with the pushing belt wheel through a belt, the synchronous belt wheel II and the pushing belt wheel are the same.
As further optimization of the technical scheme, the invention relates to an environment-friendly energy-saving industrial exhaust gas combustion treatment device, wherein an ignition control mechanism comprises an ignition control shaft, an ignition control gear and an ignition control cam, the ignition control gear and the ignition control cam are respectively and fixedly connected to the ignition control shaft, two ends of the ignition control shaft are respectively and rotatably connected to two side plates, the ignition control gear is meshed with a pushing gear, the diameters of the ignition control gear and the pushing gear are the same, and the difference between the lower limit positions of the ignition control cam and the pushing crank is half a circle.
As a further optimization of the technical scheme, the invention relates to an environment-friendly energy-saving industrial waste gas combustion treatment device, the ignition mechanism comprises an ignition support plate, an ignition sliding rod, a spring catch III, an ignition connecting rod and a hinged shaft, the ignition support plate is provided with a circular through hole III, the ignition sliding rod is connected in the circular through hole III arranged on the ignition support plate in a sliding manner, the ignition connecting rod is provided with a sliding groove, the spring catch III is fixedly connected at the middle end of the ignition sliding rod, the ignition sliding rod is sleeved with a compression spring III, the compression spring III is positioned between the ignition support plate and the spring catch III, the upper end of the ignition sliding rod is connected in the sliding groove arranged on the ignition connecting rod in a sliding manner, the middle end of the ignition connecting rod is hinged on the hinged shaft, the two ends of the hinged shaft are respectively and rotatably connected on the two side plates, the two ends of the ignition support plate are, the front end of the ignition connecting rod is contacted with the igniter.
The environment-friendly energy-saving industrial waste gas combustion treatment device has the beneficial effects that:
the environment-friendly energy-saving industrial waste gas combustion treatment device can be used for repeatedly and efficiently carrying out industrial waste gas combustion treatment, fully mixing industrial waste with combustible gas, and burning the mixed gas of the industrial waste and the combustible gas to remove harmful substances in the industrial waste, so that the aim of treating waste gas can be fulfilled.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic view of the overall structure of an environment-friendly and energy-saving industrial waste gas combustion treatment device of the present invention;
FIG. 2 is a schematic diagram showing a rear view structure of the environmental-friendly and energy-saving industrial waste gas combustion treatment device of the present invention;
FIG. 3 is a schematic view of the overall bracket structure of the present invention;
FIG. 4 is a schematic diagram of a power mechanism according to the present invention;
FIG. 5 is a schematic view of the exhaust control mechanism of the present invention;
FIG. 6 is a schematic structural view of the intake control mechanism of the present invention;
FIG. 7 is a schematic structural diagram of an air intake and exhaust mechanism of the present invention;
FIG. 8 is a schematic structural view of a cross-sectional view I of an air intake and exhaust mechanism of the present invention;
FIG. 9 is a schematic structural view of a cross-sectional view II of the air intake and exhaust mechanism of the present invention;
FIG. 10 is a schematic view of the vent piston configuration of the present invention;
FIG. 11 is a schematic illustration of the intake piston configuration of the present invention;
FIG. 12 is a schematic view of the pushing mechanism of the present invention;
FIG. 13 is a schematic view of the ignition control mechanism of the present invention;
fig. 14 is a schematic view of the ignition mechanism of the present invention.
In the figure: a complete machine bracket 1; 1-1 of a side plate; 1-2 of a combustion support; a power mechanism 2; a motor 2-1; a synchronous belt wheel I2-2; 2-3 of a synchronous belt wheel; an exhaust gas control means 3; an exhaust control shaft 3-1; an exhaust control pulley 3-2; an exhaust control gear 3-3; exhaust control cams 3-4; an intake control mechanism 4; an air intake control shaft 4-1; an air intake control gear 4-2; an air intake control cam 4-3; an air intake and exhaust mechanism 5; an air intake and exhaust upper plate 5-1; the air inlet and outlet lower plate 5-2; 5-3 of an air outlet support; 5-4 of an air inlet bracket; 5-5 parts of an exhaust piston; an exhaust piston body 5-5-1; 5-5-2 parts of a spring catch I; 5-6 of an air inlet piston; an air inlet piston body 5-6-1; 5-6-2 parts of a spring catch II; 5-7 parts of igniter; a pushing mechanism 6; pushing the shaft 6-1; pushing a crank 6-2; a push belt wheel 6-3; pushing a gear 6-4; pushing a piston 6-5; pushing a connecting rod 6-6; an ignition control mechanism 7; an ignition control shaft 7-1; an ignition control gear 7-2; an ignition control cam 7-3; an ignition mechanism 8; an ignition support plate 8-1; an ignition slide bar 8-2; 8-3 of a spring catch III; 8-4 of an ignition connecting rod; and the articulated shaft is 8-5.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1 to 14, and an environment-friendly and energy-saving industrial exhaust gas combustion processing device comprises a complete machine support 1, a power mechanism 2, an exhaust control mechanism 3, an air inlet control mechanism 4, an air inlet and exhaust mechanism 5, a pushing mechanism 6, an ignition control mechanism 7 and an ignition mechanism 8, wherein the power mechanism 2 is fixedly connected to the complete machine support 1, the exhaust control mechanism 3 and the air inlet control mechanism 4 are respectively rotatably connected to the complete machine support 1, the power mechanism 2 and the exhaust control mechanism 3 are connected through belt transmission, the exhaust control mechanism 3 and the air inlet control mechanism 4 are rotatably engaged through gears, the lower end of the air inlet and exhaust mechanism 5 is fixedly connected to the complete machine support 1, the upper end of the air inlet and exhaust mechanism 5 is respectively contacted with the exhaust control mechanism 3 and the air inlet control mechanism 4, the pushing mechanism 6 is rotatably connected to the complete machine support 1, and the power mechanism, the ignition control mechanism 7 is rotationally connected to the whole machine support 1, the pushing mechanism 6 and the ignition control mechanism 7 are in meshing transmission through gears, the ignition mechanism 8 is fixedly connected to the whole machine support 1, the lower end of the ignition mechanism 8 is in contact with the ignition control mechanism 7, and the upper end of the ignition mechanism 8 is in contact with the air intake and exhaust mechanism 5; when the gas combustion device is used, the power mechanism 2 simultaneously drives the exhaust control mechanism 3 and the pushing mechanism 6 to rotate, the gas control mechanism 3 drives the gas inlet control mechanism 4 to rotate, the pushing mechanism 6 drives the ignition control mechanism 7 to rotate, when the gas control mechanism 3 rotates, the exhaust piston 5-5 in the gas inlet and exhaust mechanism 5 is pushed to reciprocate up and down to discharge a combusted industrial waste and combustible gas mixture, when the gas inlet control mechanism 4 rotates, the gas inlet piston 5-6 in the gas inlet and exhaust mechanism 5 is pushed to reciprocate up and down to inject the industrial waste and combustible gas into the combustion bracket 1-2, when the industrial waste and combustible gas are injected into the combustion bracket 1-2, the pushing mechanism 6 drives the pushing piston 6-5 to move to a lower limit position, and the ignition control mechanism 7 pushes the ignition mechanism 8 to move to an upper limit position to ignite a fire, a mixture of industrial waste and combustible gases is combusted.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1 to 14, and the embodiment further describes the first embodiment, where the complete machine support 1 includes two side plates 1-1 and two combustion supports 1-2, the two side plates 1-1 are provided, and two sides of the combustion supports 1-2 are respectively fixedly connected to the two side plates 1-1.
The third concrete implementation mode:
the embodiment is described below with reference to fig. 1 to 14, and the second embodiment is further described in the present embodiment, where the power mechanism 2 includes a motor 2-1, a synchronous pulley i 2-2 and a synchronous pulley ii 2-3, the synchronous pulley i 2-2 and the synchronous pulley ii 2-3 are respectively fixedly connected to an output shaft of the motor 2-1, the diameters of the synchronous pulley i 2-2 and the synchronous pulley ii 2-3 are the same, and the motor 2-1 is fixedly connected to the right side plate 1-1.
The fourth concrete implementation mode:
the third embodiment is further described with reference to fig. 1-14, in which the exhaust control mechanism 3 includes an exhaust control shaft 3-1, an exhaust control pulley 3-2, an exhaust control gear 3-3 and an exhaust control cam 3-4, the exhaust control pulley 3-2 is fixedly connected to the right end of the exhaust control shaft 3-1, the exhaust control cam 3-4 is fixedly connected to the middle end of the exhaust control shaft 3-1, the exhaust control gear 3-3 is fixedly connected to the right end of the exhaust control shaft 3-1, two ends of the exhaust control shaft 3-1 are respectively and rotatably connected to two side plates 1-1, the exhaust control pulley 3-2 and the synchronous pulley i 2-2 are connected through a belt, the diameters of the exhaust control pulley 3-2 and the synchronous pulley i 2-2 are the same, when the synchronous pulley I2-2 and the synchronous pulley II 2-3 are used, the diameters of the exhaust control pulley 3-2 and the synchronous pulley I2-2 which are connected through belt transmission are the same, the diameter of the meshing of the exhaust control gear 3-3 and the air inlet control gear 4-2 is the same, the diameters of the synchronous pulley II 2-3 and the pushing pulley 6-3 are the same, the diameters of the ignition control gear 7-2 and the pushing gear 6-4 are the same, the power transmission ratio transmitted from the power mechanism 2 can be ensured to be the same all the time, and the movement periods of the exhaust control mechanism 3, the air inlet control mechanism 4, the air inlet and exhaust mechanism 5, the pushing mechanism 6, the ignition control mechanism 7 and the ignition mechanism 8 are kept consistent.
The fifth concrete implementation mode:
the fourth embodiment is further described with reference to fig. 1 to 14, where the intake control mechanism 4 includes two intake control shafts 4-1, two intake control gears 4-2 and two intake control cams 4-3, the intake control gear 4-2 is fixedly connected to the right end of the intake control shaft 4-1, the intake control cams 4-3 are provided, the two intake control cams 4-3 are respectively and fixedly connected to the intake control shaft 4-1, two ends of the intake control shaft 4-1 are respectively and rotatably connected to the two side plates 1-1, the exhaust control gear 3-3 is engaged with the intake control gear 4-2, and the diameters of the engagement of the exhaust control gear 3-3 and the intake control gear 4-2 are the same.
The sixth specific implementation mode:
the present embodiment is described below with reference to fig. 1 to 14, and the present embodiment further describes an embodiment five, where the intake and exhaust mechanism 5 includes an intake and exhaust upper plate 5-1, an intake and exhaust lower plate 5-2, an exhaust bracket 5-3, an intake bracket 5-4, an exhaust piston 5-5, an intake piston 5-6 and an igniter 5-7, the exhaust piston 5-5 includes an exhaust piston body 5-5-1 and a spring stop piece i 5-5-2, the spring stop piece i 5-5-2 is fixedly connected to the middle end of the exhaust piston body 5-5-1, the lower end of the exhaust piston body 5-5-1 is conically arranged, the intake piston 5-6 includes an intake piston body 5-6-1 and a spring stop piece ii 5-6-2, the spring catch II 5-6-2 is fixedly connected to the middle end of the air inlet piston body 5-6-1, the lower end of the air inlet piston body 5-6-1 is arranged in a conical shape, three circular through holes I are uniformly formed in the air inlet and exhaust upper plate 5-1, three circular through holes II are uniformly formed in the air inlet and exhaust lower plate 5-2, the lower ends of the three circular through holes II uniformly formed in the air inlet and exhaust lower plate 5-2 are arranged in a conical shape, two air inlet supports 5-4 are arranged, the upper end and the lower end of each air inlet support 5-4 are respectively communicated with the two circular through holes I and the two circular through holes II, the upper end and the lower end of the air outlet support 5-3 are respectively communicated with the circular through holes I and the circular through holes II, the air outlet piston body 5-5-1 is respectively in the air outlet support 5-3 in a clearance fit, the compression spring I is positioned between the air inlet and exhaust lower plate 5-2 and the spring baffle I5-5-2, the upper end of the exhaust piston body 5-5-1 is contacted with the exhaust control cam 3-4, the number of the air inlet pistons 5-6 is two, the two air inlet piston bodies 5-6-1 are respectively in clearance fit in the two air inlet supports 5-4, the two air inlet piston bodies 5-6-1 are respectively sleeved with a compression spring II, the compression spring II is positioned between the air inlet and exhaust lower plate 5-2 and the spring baffle II 5-6-2, the upper ends of the two air inlet piston bodies 5-6-1 are respectively contacted with the two air inlet control cams 4-3, the igniter 5-7 is fixedly connected on the air inlet and exhaust lower plate 5-2, the air inlet and exhaust lower plate 5-2 is fixedly connected on the upper end of the combustion support 1-, the two air inlet control cams 4-3 and the two exhaust control cams 3-4 have the same size, and the upper limit positions of the two air inlet control cams 4-3 and the two exhaust control cams 3-4 have a half-cycle difference; when the air-conditioning device is used, the lower ends of the circular through hole II, the exhaust piston 5-5 and the air inlet piston 5-6 are all arranged in a conical shape, the exhaust piston 5-5 and the air inlet piston 5-6 can be tightly attached to the lower end of the circular through hole II, when the two air inlet pistons 5-6 are pushed by the two air inlet control cams 4-3 to move to the upper limit position, the exhaust control cam 3-4 pushes the exhaust piston 5-5 to move to the lower limit position, when the two air inlet control cams 4-3 move to the upper limit position, industrial waste and combustible gas can enter the combustion bracket 1-2, the exhaust piston 5-5 blocks the circular through hole II and cannot cause gas circulation, when the two air inlet control cams 4-3 move to the lower limit position, the exhaust control cam 3-4 pushes the exhaust piston 5-5 to move to the upper limit position, when the two air inlet control cams 4-3 move to the lower limit position, industrial waste and combustible gas can not enter the combustion support 1-2, and the exhaust piston 5-5 can not block the circular through hole II to discharge the combusted gas.
The seventh embodiment:
the sixth embodiment is further described with reference to fig. 1-14, in which the pushing mechanism 6 includes a pushing shaft 6-1, a pushing crank 6-2, a pushing belt wheel 6-3, a pushing gear 6-4, a pushing piston 6-5 and a pushing connecting rod 6-6, the upper end of the pushing piston 6-5 is arranged in a concave arc, the pushing crank 6-2 and the pushing belt wheel 6-3 are respectively and fixedly connected to the left and right ends of the pushing shaft 6-1, the pushing gear 6-4 is fixedly connected to the middle end of the pushing shaft 6-1, the upper end of the pushing connecting rod 6-6 is hinged to the lower end of the pushing piston 6-5, the lower end of the pushing connecting rod 6-6 is hinged to the eccentric position of the pushing crank 6-2, the pushing shaft 6-1 is rotatably connected to the side plate 1-1 on the right side, the synchronous belt wheel II 2-3 is connected with the pushing belt wheel 6-3 through belt transmission, the diameters of the synchronous belt wheel II 2-3 and the pushing belt wheel 6-3 are the same, the pushing piston 6-5 is connected in the combustion bracket 1-2 in a sliding way, when the two air inlet pistons 5-6 are pushed by the two air inlet control cams 4-3 to move to the upper limit position, the exhaust control cam 3-4 pushes the exhaust piston 5-5 to move to the lower limit position, the pushing crank 6-2 pushes the pushing piston 6-5 to move to the lower limit position, industrial waste gas and combustible gas are sucked in, when the two air inlet control cams 4-3 move to the lower limit position, the exhaust control cam 3-4 pushes the exhaust piston 5-5 to move to the upper limit position, the pushing crank 6-2 pushes the pushing piston 6-5 to move to the upper limit position, the burnt mixed gas is pushed out, the upper end of the pushing piston 6-5 is arranged in a concave arc shape, and when industrial waste gas and combustible gas are sucked in, convection can be generated to fully mix the industrial waste gas and the combustible gas.
The specific implementation mode is eight:
the present embodiment is described below with reference to fig. 1 to 14, and the seventh embodiment is further described in the present embodiment, where the ignition control mechanism 7 includes an ignition control shaft 7-1, an ignition control gear 7-2 and an ignition control cam 7-3, the ignition control gear 7-2 and the ignition control cam 7-3 are respectively and fixedly connected to the ignition control shaft 7-1, two ends of the ignition control shaft 7-1 are respectively and rotatably connected to the two side plates 1-1, the ignition control gear 7-2 is engaged with the push gear 6-4, the diameters of the ignition control gear 7-2 and the push gear 6-4 are the same, and the difference between the lower limit positions of the ignition control cam 7-3 and the push crank 6-2 is half a cycle.
The specific implementation method nine:
the following describes the present embodiment with reference to fig. 1 to 14, which further describes an eighth embodiment, the ignition mechanism 8 includes an ignition support plate 8-1, an ignition slide rod 8-2, a spring stop plate iii 8-3, an ignition link 8-4 and a hinge shaft 8-5, the ignition support plate 8-1 is provided with a circular through hole iii, the ignition slide rod 8-2 is slidably connected in the circular through hole iii provided on the ignition support plate 8-1, the ignition link 8-4 is provided with a slide groove, the spring stop plate iii 8-3 is fixedly connected at the middle end of the ignition slide rod 8-2, the ignition slide rod 8-2 is sleeved with a compression spring iii, the compression spring iii is located between the ignition support plate 8-1 and the spring stop plate iii 8-3, the upper end of the ignition slide rod 8-2 is slidably connected in the slide groove provided on the ignition link 8-4, the middle end of an ignition connecting rod 8-4 is hinged on a hinged shaft 8-5, two ends of the hinged shaft 8-5 are respectively and rotatably connected on two side plates 1-1, two ends of an ignition support plate 8-1 are respectively and fixedly connected on the two side plates 1-1, the lower end of an ignition sliding rod 8-2 is contacted with an ignition control cam 7-3, and the front end of the ignition connecting rod 8-4 is contacted with an igniter 5-7; when the pushing crank 6-2 pushes the pushing piston 6-5 to move to the lower limit position, the fire control cam 7-3 pushes the ignition sliding rod 8-2 to move upwards, the front end of the ignition connecting rod 8-4 moves downwards to ignite the mixed gas of the industrial waste gas and the combustible gas, when the pushing crank 6-2 pushes the pushing piston 6-5 to move to the upper limit position, the fire control cam 7-3 pushes the ignition sliding rod 8-2 to move upwards, and the front end of the ignition connecting rod 8-4 moves upwards to avoid ignition.
The invention relates to an environment-friendly energy-saving industrial waste gas combustion treatment device, which has the working principle that:
when the device is used, the air inlets of industrial waste gas and combustible gas are respectively communicated with two air inlet supports 5-4, the exhaust holes are communicated with two air outlet supports 5-3, the motor 2-1 is started, when the device is used, the power mechanism 2 simultaneously drives the exhaust control mechanism 3 and the pushing mechanism 6 to rotate, the air control mechanism 3 drives the air inlet control mechanism 4 to rotate, the pushing mechanism 6 drives the ignition control mechanism 7 to rotate, when the air control mechanism 3 rotates, the exhaust piston 5-5 in the air inlet and exhaust mechanism 5 is pushed to reciprocate up and down to exhaust the mixed gas of the burnt industrial waste and the combustible gas, when the air inlet control mechanism 4 rotates, the air inlet piston 5-6 in the air inlet and exhaust mechanism 5 is pushed to reciprocate up and down, the lower ends of the circular through hole II, the exhaust piston 5-5 and the air inlet piston 5-6 are all arranged in a conical shape, the exhaust piston 5-5 and the air inlet piston 5-6 can be tightly attached to the lower end of the circular through hole II, when the two air inlet pistons 5-6 are pushed by the two air inlet control cams 4-3 to move to the upper limit position, the exhaust control cam 3-4 pushes the exhaust piston 5-5 to move to the lower limit position, when the two air inlet control cams 4-3 move to the upper limit position, industrial waste and combustible gas can enter the combustion support 1-2, the exhaust piston 5-5 blocks the circular through hole II without gas circulation, when the two air inlet control cams 4-3 move to the lower limit position, the exhaust control cam 3-4 pushes the exhaust piston 5-5 to move to the upper limit position, when the two air inlet control cams 4-3 move to the lower limit position, the industrial waste and combustible gas can not enter the combustion support 1-2, the exhaust piston 5-5 can not discharge the burnt gas blocked by the circular through hole II, when the two air inlet pistons 5-6 are pushed by the two air inlet control cams 4-3 to move to the upper limit position, the exhaust control cams 3-4 push the exhaust piston 5-5 to move to the lower limit position, the crank 6-2 pushes the piston 6-5 to move to the lower limit position, the industrial waste gas and the combustible gas are sucked, when the two air inlet control cams 4-3 move to the lower limit position, the exhaust control cams 3-4 push the exhaust piston 5-5 to move to the upper limit position, the crank 6-2 pushes the piston 6-5 to move to the upper limit position, the burnt mixed gas is pushed out, the upper end of the piston 6-5 is arranged in a concave arc shape, and when the industrial waste gas and the combustible gas are sucked, convection can be generated to fully mix the industrial waste gas and the combustible gas; when the pushing crank 6-2 pushes the pushing piston 6-5 to move to the lower limit position, the fire control cam 7-3 pushes the ignition sliding rod 8-2 to move upwards, the front end of the ignition connecting rod 8-4 moves downwards to ignite the mixed gas of the industrial waste gas and the combustible gas, when the pushing crank 6-2 pushes the pushing piston 6-5 to move to the upper limit position, the fire control cam 7-3 pushes the ignition sliding rod 8-2 to move upwards, and the front end of the ignition connecting rod 8-4 moves upwards to avoid ignition.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.
Claims (9)
1. The utility model provides an environmental protection and energy saving type industrial waste gas combustion processing apparatus, includes complete machine support (1), power unit (2), exhaust control mechanism (3), admission control mechanism (4), advances exhaust mechanism (5), pushing mechanism (6), ignition control mechanism (7) and ignition mechanism (8), its characterized in that: the power mechanism (2) is fixedly connected to the whole machine support (1), the exhaust control mechanism (3) and the air inlet control mechanism (4) are respectively and rotatably connected to the whole machine support (1), the power mechanism (2) and the exhaust control mechanism (3) are connected through belt transmission, the exhaust control mechanism (3) and the air inlet control mechanism (4) are meshed and rotate through gears, the lower end of the air inlet and exhaust mechanism (5) is fixedly connected to the whole machine support (1), the upper end of the air inlet and exhaust mechanism (5) is respectively contacted with the exhaust control mechanism (3) and the air inlet control mechanism (4), the pushing mechanism (6) is rotatably connected to the whole machine support (1), the power mechanism (2) and the pushing mechanism (6) are connected through belt transmission, the ignition control mechanism (7) is rotatably connected to the whole machine support (1), and the pushing mechanism (6) and the ignition control mechanism (7) are meshed and driven through gears, the ignition mechanism (8) is fixedly connected to the whole machine support (1), the lower end of the ignition mechanism (8) is in contact with the ignition control mechanism (7), and the upper end of the ignition mechanism (8) is in contact with the air intake and exhaust mechanism (5).
2. The environment-friendly energy-saving industrial exhaust gas combustion processing device according to claim 1, characterized in that: the whole machine support (1) comprises side plates (1-1) and combustion supports (1-2), the number of the side plates (1-1) is two, and two sides of each combustion support (1-2) are fixedly connected to the two side plates (1-1) respectively.
3. The environment-friendly energy-saving industrial exhaust gas combustion processing device according to claim 2, characterized in that: the power mechanism (2) comprises a motor (2-1), a synchronous pulley I (2-2) and a synchronous pulley II (2-3), the synchronous pulley I (2-2) and the synchronous pulley II (2-3) are respectively and fixedly connected to an output shaft of the motor (2-1), the diameters of the synchronous pulley I (2-2) and the synchronous pulley II (2-3) are the same, and the motor (2-1) is fixedly connected to a side plate (1-1) on the right side.
4. The environment-friendly energy-saving industrial exhaust gas combustion processing device according to claim 3, characterized in that: the exhaust control mechanism (3) comprises an exhaust control shaft (3-1), an exhaust control belt wheel (3-2), an exhaust control gear (3-3) and an exhaust control cam (3-4), the exhaust control belt wheel (3-2) is fixedly connected to the right end of the exhaust control shaft (3-1), the exhaust control cam (3-4) is fixedly connected to the middle end of the exhaust control shaft (3-1), the exhaust control gear (3-3) is fixedly connected to the right end of the exhaust control shaft (3-1), two ends of the exhaust control shaft (3-1) are respectively and rotatably connected to the two side plates (1-1), the exhaust control belt wheel (3-2) is connected with the synchronous belt wheel I (2-2) through belt transmission, and the diameters of the exhaust control belt wheel (3-2) and the synchronous belt wheel I (2-2) which are connected through belt transmission are the same.
5. The environment-friendly energy-saving industrial waste gas combustion processing device according to claim 4, characterized in that: the air inlet control mechanism (4) comprises an air inlet control shaft (4-1), an air inlet control gear (4-2) and two air inlet control cams (4-3), the air inlet control gear (4-2) is fixedly connected to the right end of the air inlet control shaft (4-1), the two air inlet control cams (4-3) are respectively and fixedly connected to the air inlet control shaft (4-1), two ends of the air inlet control shaft (4-1) are respectively and rotatably connected to the two side plates (1-1), the exhaust control gear (3-3) is meshed with the air inlet control gear (4-2), and the diameters of the meshed exhaust control gear (3-3) and the meshed air inlet control gear (4-2) are the same.
6. The environment-friendly energy-saving industrial waste gas combustion processing device according to claim 5, characterized in that: the air inlet and exhaust mechanism (5) comprises an air inlet and exhaust upper plate (5-1), an air inlet and exhaust lower plate (5-2), an air outlet support (5-3), an air inlet support (5-4), an exhaust piston (5-5), an air inlet piston (5-6) and an igniter (5-7), the exhaust piston (5-5) comprises an air outlet piston body (5-5-1) and a spring baffle I (5-5-2), the spring baffle I (5-5-2) is fixedly connected to the middle end of the air outlet piston body (5-5-1), the lower end of the air outlet piston body (5-5-1) is arranged in a conical shape, the air inlet piston (5-6) comprises an air inlet piston body (5-6-1) and a spring baffle II (5-6-2), the spring catch II (5-6-2) is fixedly connected to the middle end of the air inlet piston body (5-6-1), the lower end of the air inlet piston body (5-6-1) is arranged in a conical shape, three circular through holes I are uniformly formed in the air inlet and exhaust upper plate (5-1), three circular through holes II are uniformly formed in the air inlet and exhaust lower plate (5-2), the lower ends of the three circular through holes II uniformly formed in the air inlet and exhaust lower plate (5-2) are arranged in a conical shape, two air inlet supports (5-4) are arranged, the upper end and the lower end of each air inlet support (5-4) are respectively communicated with the two circular through holes I and the two circular through holes II, the upper end and the lower end of the air outlet support (5-3) are respectively communicated with the circular through holes I and the circular through holes II, the air outlet piston body (5-5-1) is respectively in clearance fit in the, the exhaust piston body (5-5-1) is sleeved with a compression spring I, the compression spring I is positioned between the air inlet and exhaust lower plate (5-2) and the spring baffle plate I (5-5-2), the upper end of the exhaust piston body (5-5-1) is contacted with the exhaust control cam (3-4), two air inlet pistons (5-6) are arranged, the two air inlet piston bodies (5-6-1) are respectively in clearance fit in the two air inlet supports (5-4), the two air inlet piston bodies (5-6-1) are respectively sleeved with a compression spring II, the compression spring II is positioned between the air inlet and exhaust lower plate (5-2) and the spring baffle plate II (5-6-2), the upper ends of the two air inlet piston bodies (5-6-1) are respectively contacted with the two air inlet control cams (4-3), the igniter (5-7) is fixedly connected to the air inlet and outlet lower plate (5-2), the air inlet and outlet lower plate (5-2) is fixedly connected to the upper end of the combustion support (1-2), the two air inlet control cams (4-3) and the two air outlet control cams (3-4) are identical in size, and the upper limit positions of the two air inlet control cams (4-3) and the two air outlet control cams (3-4) are different by half a cycle.
7. The environment-friendly energy-saving industrial exhaust gas combustion processing device according to claim 6, characterized in that: the pushing mechanism (6) comprises a pushing shaft (6-1), a pushing crank (6-2), a pushing belt wheel (6-3), a pushing gear (6-4), a pushing piston (6-5) and a pushing connecting rod (6-6), the upper end of the pushing piston (6-5) is arranged in a concave arc shape, the pushing crank (6-2) and the pushing belt wheel (6-3) are respectively and fixedly connected to the left end and the right end of the pushing shaft (6-1), the pushing gear (6-4) is fixedly connected to the middle end of the pushing shaft (6-1), the upper end of the pushing connecting rod (6-6) is hinged to the lower end of the pushing piston (6-5), the lower end of the pushing connecting rod (6-6) is hinged to the eccentric position of the pushing crank (6-2), the pushing shaft (6-1) is rotatably connected to the side plate (1-1) on the right side, the synchronous belt wheel II (2-3) is in transmission connection with the pushing belt wheel (6-3) through a belt, the diameters of the synchronous belt wheel II (2-3) and the pushing belt wheel (6-3) are the same, and the pushing piston (6-5) is connected in the combustion support (1-2) in a sliding mode.
8. The environment-friendly energy-saving industrial exhaust gas combustion processing device according to claim 7, characterized in that: the ignition control mechanism (7) comprises an ignition control shaft (7-1), an ignition control gear (7-2) and an ignition control cam (7-3), the ignition control gear (7-2) and the ignition control cam (7-3) are respectively and fixedly connected to the ignition control shaft (7-1), two ends of the ignition control shaft (7-1) are respectively and rotatably connected to the two side plates (1-1), the ignition control gear (7-2) is meshed with the pushing gear (6-4), the diameters of the ignition control gear (7-2) and the pushing gear (6-4) are the same, and the difference between the lower limit positions of the ignition control gear (7-3) and the pushing crank (6-2) is half a circle.
9. The environment-friendly energy-saving industrial exhaust gas combustion processing device according to claim 8, characterized in that: the ignition mechanism (8) comprises an ignition support plate (8-1), an ignition sliding rod (8-2), a spring baffle plate III (8-3), an ignition connecting rod (8-4) and a hinge shaft (8-5), wherein a circular through hole III is formed in the ignition support plate (8-1), the ignition sliding rod (8-2) is connected in the circular through hole III formed in the ignition support plate (8-1) in a sliding manner, a sliding groove is formed in the ignition connecting rod (8-4), the spring baffle plate III (8-3) is fixedly connected to the middle end of the ignition sliding rod (8-2), a compression spring III is sleeved on the ignition sliding rod (8-2), the compression spring III is located between the ignition support plate (8-1) and the spring baffle plate III (8-3), the upper end of the ignition sliding rod (8-2) is connected in the sliding groove formed in the ignition connecting rod (8-4) in a sliding manner, the middle end of an ignition connecting rod (8-4) is hinged on a hinged shaft (8-5), two ends of the hinged shaft (8-5) are respectively and rotatably connected on two side plates (1-1), two ends of an ignition support plate (8-1) are respectively and fixedly connected on the two side plates (1-1), the lower end of an ignition sliding rod (8-2) is contacted with an ignition control cam (7-3), and the front end of the ignition connecting rod (8-4) is contacted with an igniter (5-7).
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CN201159102Y (en) * | 2007-01-19 | 2008-12-03 | 吴裕强 | Single cylinder double piston engine |
CN205591977U (en) * | 2016-03-17 | 2016-09-21 | 梁蕃焕 | Controllable internal -combustion engine in right time of piston |
CN206469270U (en) * | 2016-12-20 | 2017-09-05 | 山东海林环保设备工程有限公司 | Environment-friendly and energy-efficient industrial waste gas burning processing device |
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US5813379A (en) * | 1995-01-03 | 1998-09-29 | Firey; Joseph Carl | Displacer jet igniter |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN201159102Y (en) * | 2007-01-19 | 2008-12-03 | 吴裕强 | Single cylinder double piston engine |
CN205591977U (en) * | 2016-03-17 | 2016-09-21 | 梁蕃焕 | Controllable internal -combustion engine in right time of piston |
CN206469270U (en) * | 2016-12-20 | 2017-09-05 | 山东海林环保设备工程有限公司 | Environment-friendly and energy-efficient industrial waste gas burning processing device |
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