CN210815729U - Static oil fume removing system based on heating gyro type anti-accumulation dirt collecting polar plate - Google Patents
Static oil fume removing system based on heating gyro type anti-accumulation dirt collecting polar plate Download PDFInfo
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- CN210815729U CN210815729U CN201921396971.7U CN201921396971U CN210815729U CN 210815729 U CN210815729 U CN 210815729U CN 201921396971 U CN201921396971 U CN 201921396971U CN 210815729 U CN210815729 U CN 210815729U
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Abstract
Static oil smoke removal system based on top of heating formula is prevented piling up and is received dirty polar plate belongs to the electrostatic precipitator field. The oil recovery device mainly solves the technical problems that the absorption of oil stains on an oil recovery polar plate can be reduced, and the oil stains can be automatically recovered. It is by oil smoke way lower wall, oil smoke way entry, oil flue upper wall, receive oil utmost point left side wall, heating utmost point left side wall, the motor case, heating utmost point right side wall, the axis of rotation, receive oil utmost point right side wall, connect the oil box, oil flue export, microwave thickness sensor, the oil extraction pipe, the oil suction pump, the pump back tube, receive the oil tank, pyroelectric temperature sensor, discharge utmost point left branch, discharge utmost point well branch, discharge utmost point right branch, the oil utmost point top is received to the toper, the oil utmost point end is received to the toper, resistance, the triode, the relay, the heating module, including a motor, a single-chip microcomputer, the heating utmost point end, the oil smoke way antetheca, oil flue back wall is constituteed, characterized: the pyroelectric temperature sensor is connected with the lower wall of the oil smoke channel and is arranged above the lower wall of the oil smoke channel. It is mainly used in the catering field.
Description
Technical Field
The utility model belongs to the electrostatic precipitator field especially indicates to prevent piling up the static oil smoke removal system who gathers dirty polar plate based on top of heating formula.
Background
Air pollution has already seriously affected the atmospheric environment. Because the air pollution causes great harm to the health of people, people pay more and more attention to the air environment. People's kitchen exhaust fume also has certain influence to the environment. Because of the dietary habit, the cooking and frying of the traditional diet in China is taken as the basis, and the oil smoke discharge amount is far higher than that of Europe and America. Although the kitchen is provided with the range hood, the oil smoke is only discharged outdoors and is not purified, the oil smoke discharged by restaurants and residents is directly discharged into the atmosphere, which causes environmental pollution, and meanwhile, the peculiar smell generated by various restaurants seriously affects the daily life of people, so that the environmental protection department requires the restaurants to be equipped with electrostatic oil stain treatment equipment. The oil smoke particles generated by catering are different from the smoke particles generated by fossil combustion, and the biggest difference is that the oil smoke particles generated by catering have low dust content and high oil-water content, so that the dust-collecting polar plate has larger adhesive force. The smoke dust particles generated by fossil fuel can be stripped by dust stripping in modes of rapping and the like after being adsorbed by a high-voltage polar plate, and the greasy dirt generated by catering can not be recovered by the modes. The oil stain is attached to the oil collecting polar plate, so that the thickness of an electric field medium is increased, the field intensity of an electrostatic field is influenced, and the oil fume treatment efficiency is reduced. The conventional method is shut down, the dust collecting polar plate is removed and cleaned by a strong cleaning agent, the labor and the time are wasted, and meanwhile, the high-pressure cleaning work is required to be completed by professional persons. In order to reduce the adsorption of oil stains on an oil collecting polar plate and automatically recover the oil stains. The utility model provides an electrostatic oil smoke removal system based on top of heating formula is prevented piling up and is received dirty polar plate.
Disclosure of Invention
In order to reduce the absorption of greasy dirt to receiving the oil polar plate, and retrieve the greasy dirt automatically, the utility model provides an electrostatic oil smoke removing system based on it prevents piling up and receive dirty polar plate to heat top formula.
The utility model provides a technical scheme that its technical problem adopted is: the utility model discloses the device is by the oil smoke way lower wall, the oil smoke way entry, the oil flue upper wall, receive oil utmost point left side wall, heating utmost point left side wall, the motor case, heating utmost point right side wall, the axis of rotation, receive oil utmost point right side wall, connect the oil box, the export of oil flue, microwave thickness sensor, the oil extraction pipe, the oil suction pump, the pump back tube, receive the oil tank, pyroelectric temperature sensor, discharge utmost point left branch, discharge utmost point middle branch, discharge utmost point right branch, the oil utmost point top is received to the toper, the oil utmost point end is received to the toper, resistance, the triode, the relay, the heating module, including a motor, a single-chip microcomputer, the heating utmost point end, the oil smoke way antetheca, characterized by: the pyroelectric temperature sensor is connected with the lower wall of the oil smoke channel, the pyroelectric temperature sensor is arranged above the lower wall of the oil smoke channel, the motor box is connected with the upper wall of the oil smoke channel, the motor box is arranged above the upper wall of the oil smoke channel, the motor box is connected with the rotating shaft, the oil collecting polar left side wall is arranged above the rotating shaft, the oil collecting polar left side wall is arranged on the left side of the rotating shaft, the heating polar left side wall is connected with the rotating shaft, the heating polar left side wall is arranged on the left side of the rotating shaft, the heating polar right side wall is arranged on the right side of the rotating shaft, the oil collecting polar left side wall is connected with the conical oil collecting polar bottom, the rotating shaft is connected with the conical oil collecting polar bottom, the oil collecting polar right side wall is connected with the conical oil collecting polar bottom, the heating polar left side wall is connected with the heating polar bottom, the heating, the lower wall of the oil flue is connected with a rotating shaft, the lower wall of the oil flue is arranged below the rotating shaft, an oil receiving box is connected with the lower wall of the oil flue, the oil receiving box is arranged above the lower wall of the oil flue, a conical oil collecting electrode top is connected with the left side wall of the oil collecting electrode, the conical oil collecting electrode top is connected with the lower wall of the oil flue, a microwave thickness sensor is connected with the lower wall of the oil flue, the conical oil collecting electrode top is connected with the rotating shaft, the oil receiving box is connected with an oil suction pump through an oil discharge pipe, the oil suction pump is connected with an oil receiving tank through a pump rear pipe, the left branch of a discharge electrode is connected with the lower wall of the oil flue, the right branch of the discharge electrode is connected with the lower wall of the oil flue, the left branch of the discharge electrode is connected with the upper wall of the oil flue, the right branch of the discharge electrode is connected with the upper wall of the oil flue, and the microwave thickness sensor, the pyroelectric temperature sensor is connected with the singlechip, the resistor is connected with the singlechip, the motor is connected with the singlechip, the triode is connected with the resistor, and the triode is connected with the heating module through the relay; the length of the left side wall of the oil collecting pole is equal to that of the right side wall of the oil collecting pole; the length of the left side wall of the heating pole is equal to that of the right side wall of the heating pole; the length of the left side wall of the oil collecting pole is greater than that of the left side wall of the heating pole; the length of the left branch of the discharge electrode is equal to the length of the right branch of the discharge electrode.
The oil collecting polar plate is designed into a metal cone with a downward tip, and fine spiral fine lines are engraved on the metal cone, so that oil drops can flow and collect towards the tip conveniently. The heating electrode is a resistance cone and can generate heat after being electrified. The heating function of the heating module is equivalent to that of the heating module in the specification. The left side wall and the right side wall of the heating pole form a conical heating pole. The left side wall and the right side wall of the oil collecting pole form the oil collecting pole. The oil collecting electrode and the discharge electrode form a high-voltage electrostatic field. The dirt collecting polar plate is also called as an oil collecting polar plate in the specification.
The oil stain particles generated by catering have large proportion of oil and water, so the oil stain particles have large adhesive force to an oil collecting polar plate. In order to prevent the oil collecting pole plate from being attached to the pole plate, the oil collecting pole plate is designed into a cone and rotates like a gyroscope, so that oil drops cannot be fixed on one point under the action of centrifugal force, accumulation of the oil drops is avoided, meanwhile, the oil collecting pole is a cone with a downward tip, and the oil drops can flow downward under the action of gravity. In order to increase the mobility of oil drop particles, a heating electrode is arranged inside the oil collecting electrode. The heating electrode is heated, so that the temperature of the oil collecting polar plate is higher, the fluidity of gas is increased, and oil stain particles can not be tightly attached to the oil collecting polar plate.
The microwave thickness sensor transmits microwave to the oil collecting polar plate, the microwave reaches the oil collecting polar plate through the oil stain layer, and the microwave is reflected by the oil collecting polar plate and received by the microwave thickness sensor through the oil stain layer again because the oil collecting polar plate is made of metal. The thickness of the oil stain is measured and sent to the single chip microcomputer. The single chip microcomputer compares the thickness value of the sent oil stain with the upper limit value of the oil stain thickness prestored in the memory, if the thickness value of the oil stain is larger than the upper limit value, the single chip microcomputer sends an instruction, the motor rotates and accelerates, and the oil drop separation speed is increased; and simultaneously, an instruction is sent, a power supply of the heating module is connected through a resistor, a triode and a relay, and the heating electrode is heated to cause the temperature of the oil collecting electrode to rise, so that part of liquid components are increased. The temperature of heating pole is by pyroelectric temperature sensor on-line monitoring, when the high temperature, can make the air current flow too big, is unfavorable for the electrostatic treatment greasy dirt, and this temperature upper limit value is prestore in the singlechip memory, when being higher than this upper limit value, and the singlechip gives out the instruction, through resistance, triode, relay disconnection heating module's power.
The thickness of the oil stain is sent to a singlechip. The single chip microcomputer compares the thickness value of the sent oil stain with an upper limit value of the thickness of the oil stain prestored in a memory, and if the thickness value of the oil stain is smaller than the upper limit value, the single chip microcomputer sends out an instruction, and the motor rotates and decelerates; and simultaneously, sending an instruction, and disconnecting the power supply of the heating module through a resistor, a triode and a relay.
Oil drops falling into the oil receiving box pass through the oil discharge pipe and the pump rear pipe and reach the oil receiving box under the action of the oil suction pump. Therefore, the purposes of reducing the adsorption of the oil stain on the oil collecting polar plate and automatically recovering the oil stain are achieved.
The beneficial effects of the utility model are that can reduce the absorption of greasy dirt to receiving the oil polar plate, and retrieve the greasy dirt automatically. It is mainly used in the catering field.
Drawings
The present invention will be further explained with reference to the drawings and examples.
FIG. 1 is a side sectional view of an oil collecting plate of an electrostatic oil smoke removing system based on a heating gyro type accumulation-proof dirt collecting plate.
Fig. 2 is a side sectional configuration view of the discharge electrode plate.
Fig. 3 is a bottom view of the electrode plate.
Fig. 4 is a circuit diagram of the present invention.
In the figure, 1, a smoke channel lower wall, 2, a smoke channel inlet, 3, an oil channel upper wall, 4, an oil collecting electrode left side wall, 5, a heating electrode left side wall, 6, a motor box, 7, a heating electrode right side wall, 8, a rotating shaft, 9, an oil collecting electrode right side wall, 10, an oil receiving box, 11, a smoke channel outlet, 12, a microwave thickness sensor, 13, an oil discharge pipe, 14, an oil suction pump, 15, a pump rear pipe, 16, an oil collecting tank, 17, a pyroelectric temperature sensor, 18, a discharge electrode left branch, 19, a discharge electrode middle branch, 20, a discharge electrode right branch, 21, a conical oil collecting electrode top, 22, a conical oil collecting electrode bottom, 23, a resistor, 24, a triode, 25, a relay, 26, a heating module, 27, a motor, 28, a single chip microcomputer, 29, a heating electrode bottom, 30, a smoke channel front wall and 31, an oil channel rear wall are arranged.
Detailed Description
In fig. 1, the pyroelectric temperature sensor 17 is connected with the lower wall 1 of the oil smoke channel, the pyroelectric temperature sensor 17 is arranged above the lower wall 1 of the oil smoke channel, the motor box 6 is connected with the upper wall 3 of the oil smoke channel, the motor box 6 is arranged above the upper wall 3 of the oil smoke channel, the motor box 6 is connected with the rotating shaft 8, the motor box 6 is arranged above the rotating shaft 8, the left side wall 4 of the oil collecting electrode is connected with the rotating shaft 8, the left side wall 4 of the oil collecting electrode is arranged on the left side of the rotating shaft 8, the left side wall of the heating electrode is arranged on the left side of the rotating shaft 8, the right side wall 7 of the heating electrode is connected with the rotating shaft 8, the right side wall 9 of the oil collecting electrode is arranged on the right side of the rotating shaft 8, the left side wall 4 of the oil collecting electrode is connected with the tapered oil collecting electrode bottom 22, the rotating shaft 8 is connected with the tapered oil collecting electrode bottom 22, the heating electrode left side wall 5 is connected with the heating electrode bottom 29, the heating electrode right side wall 7 is connected with the heating electrode bottom 29, the oil smoke channel lower wall 1 is connected with the rotating shaft 8, the oil smoke channel lower wall 1 is arranged below the rotating shaft 8, the oil receiving box 10 is connected with the oil smoke channel lower wall 1, the oil receiving box 10 is arranged above the oil smoke channel lower wall 1, the conical oil receiving electrode top 21 is connected with the oil receiving electrode left side wall 4, the conical oil receiving electrode top 21 is connected with the oil receiving electrode right side wall 9, the conical oil receiving electrode top 21 is connected with the oil smoke channel lower wall 1, the microwave thickness sensor 12 is connected with the oil smoke channel lower wall 1, the conical oil receiving electrode top 21 is connected with the rotating shaft 8, the oil receiving box 10 is connected with the oil suction pump 14 through the oil discharge pipe 13, and the oil suction pump 14 is connected with the oil receiving box 16 through the.
In fig. 2, the left branch 18 of the discharge electrode is connected with the lower wall 1 of the flue, the middle branch 19 of the discharge electrode is connected with the lower wall 1 of the flue, the right branch 20 of the discharge electrode is connected with the lower wall 1 of the flue, the left branch 18 of the discharge electrode is connected with the upper wall 3 of the flue, the middle branch 19 of the discharge electrode is connected with the upper wall 3 of the flue, and the right branch 20 of the discharge electrode is connected with the upper wall 3 of the flue.
In fig. 3, the left branch 18 of the discharge electrode is connected with the rear wall 31 of the oil flue, the middle branch 19 of the discharge electrode is connected with the rear wall 31 of the oil flue, the right branch 20 of the discharge electrode is connected with the rear wall 31 of the oil flue, and the heating electrode bottom 29 is arranged in the conical oil collecting electrode bottom 22.
In fig. 4, the microwave thickness sensor 12 is connected to a single-chip microcomputer 28, the pyroelectric temperature sensor 17 is connected to the single-chip microcomputer 28, the resistor 23 is connected to the single-chip microcomputer 28, the motor 27 is connected to the single-chip microcomputer 28, the transistor 24 is connected to the resistor 23, and the transistor 24 is connected to the heating module 26 through a relay 25.
Claims (5)
1. Based on top of heating formula is prevented piling up and is received dirty polar plate's static oil smoke removal system, by oil smoke way lower wall, oil smoke way entry, the oil flue upper wall, receive oil utmost point left side wall, heat utmost point left side wall, the motor case, heat utmost point right side wall, the axis of rotation, receive oil utmost point right side wall, connect the oil box, the oil flue export, microwave thickness sensor, the oil drain pipe, the oil suction pump, the pump back tube, receive the oil tank, pyroelectric temperature sensor, discharge utmost point left branch, discharge utmost point well branch, discharge utmost point right branch, the oil utmost point top is received to the toper, the oil utmost point end is received to the toper, resistance, the triode, the relay, heating module, the motor, the singlechip, heat the utmost point end, the oil smoke way antetheca, oil flue back wall is: the pyroelectric temperature sensor is connected with the lower wall of the oil smoke channel, the pyroelectric temperature sensor is arranged above the lower wall of the oil smoke channel, the motor box is connected with the upper wall of the oil smoke channel, the motor box is arranged above the upper wall of the oil smoke channel, the motor box is connected with the rotating shaft, the oil collecting polar left side wall is arranged above the rotating shaft, the oil collecting polar left side wall is arranged on the left side of the rotating shaft, the heating polar left side wall is connected with the rotating shaft, the heating polar left side wall is arranged on the left side of the rotating shaft, the heating polar right side wall is arranged on the right side of the rotating shaft, the oil collecting polar left side wall is connected with the conical oil collecting polar bottom, the rotating shaft is connected with the conical oil collecting polar bottom, the oil collecting polar right side wall is connected with the conical oil collecting polar bottom, the heating polar left side wall is connected with the heating polar bottom, the heating, the lower wall of the oil flue is connected with a rotating shaft, the lower wall of the oil flue is arranged below the rotating shaft, an oil receiving box is connected with the lower wall of the oil flue, the oil receiving box is arranged above the lower wall of the oil flue, a conical oil collecting electrode top is connected with the left side wall of the oil collecting electrode, the conical oil collecting electrode top is connected with the lower wall of the oil flue, a microwave thickness sensor is connected with the lower wall of the oil flue, the conical oil collecting electrode top is connected with the rotating shaft, the oil receiving box is connected with an oil suction pump through an oil discharge pipe, the oil suction pump is connected with an oil receiving tank through a pump rear pipe, the left branch of a discharge electrode is connected with the lower wall of the oil flue, the right branch of the discharge electrode is connected with the lower wall of the oil flue, the left branch of the discharge electrode is connected with the upper wall of the oil flue, the right branch of the discharge electrode is connected with the upper wall of the oil flue, and the microwave thickness sensor, the pyroelectric temperature sensor is connected with the single chip microcomputer, the resistor is connected with the single chip microcomputer, the motor is connected with the single chip microcomputer, the triode is connected with the resistor, and the triode is connected with the heating module through the relay.
2. The electrostatic oil smoke removal system based on the heating gyro type anti-accumulation dirt-collection polar plate as claimed in claim 1, characterized in that: the length of the left side wall of the oil collecting pole is equal to that of the right side wall of the oil collecting pole.
3. The electrostatic oil smoke removal system based on the heating gyro type anti-accumulation dirt-collection polar plate as claimed in claim 1, characterized in that: the length of the far left side wall is equal to the length of the far right side wall.
4. The electrostatic oil smoke removal system based on the heating gyro type anti-accumulation dirt-collection polar plate as claimed in claim 1, characterized in that: the length of the oil collecting pole left side wall is greater than that of the heating pole left side wall.
5. The electrostatic oil smoke removal system based on the heating gyro type anti-accumulation dirt-collection polar plate as claimed in claim 1, characterized in that: the length of the left branch of the discharge electrode is equal to the length of the right branch of the discharge electrode.
Priority Applications (1)
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CN201921396971.7U CN210815729U (en) | 2019-08-27 | 2019-08-27 | Static oil fume removing system based on heating gyro type anti-accumulation dirt collecting polar plate |
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CN201921396971.7U CN210815729U (en) | 2019-08-27 | 2019-08-27 | Static oil fume removing system based on heating gyro type anti-accumulation dirt collecting polar plate |
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CN201921396971.7U Expired - Fee Related CN210815729U (en) | 2019-08-27 | 2019-08-27 | Static oil fume removing system based on heating gyro type anti-accumulation dirt collecting polar plate |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110404684A (en) * | 2019-08-27 | 2019-11-05 | 东北师范大学 | The static flue gas removing system of dirty pole plate is received based on the anti-accumulation of heating gyroscope type |
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2019
- 2019-08-27 CN CN201921396971.7U patent/CN210815729U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110404684A (en) * | 2019-08-27 | 2019-11-05 | 东北师范大学 | The static flue gas removing system of dirty pole plate is received based on the anti-accumulation of heating gyroscope type |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200623 Termination date: 20210827 |