CN112316717A - Graphene type formaldehyde purifier - Google Patents
Graphene type formaldehyde purifier Download PDFInfo
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- CN112316717A CN112316717A CN202011219401.8A CN202011219401A CN112316717A CN 112316717 A CN112316717 A CN 112316717A CN 202011219401 A CN202011219401 A CN 202011219401A CN 112316717 A CN112316717 A CN 112316717A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D53/00—Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
- B01D53/34—Chemical or biological purification of waste gases
- B01D53/74—General processes for purification of waste gases; Apparatus or devices specially adapted therefor
- B01D53/86—Catalytic processes
- B01D53/8668—Removing organic compounds not provided for in B01D53/8603 - B01D53/8665
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2255/00—Catalysts
- B01D2255/80—Type of catalytic reaction
- B01D2255/802—Photocatalytic
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D53/00—Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
- B01D53/02—Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols by adsorption, e.g. preparative gas chromatography
- B01D53/04—Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols by adsorption, e.g. preparative gas chromatography with stationary adsorbents
- B01D53/0407—Constructional details of adsorbing systems
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Abstract
The invention discloses a graphene type formaldehyde purifier which comprises a purifier shell, wherein a purification space with a leftward opening is arranged in the purifier shell, a feeding mechanism is arranged on the upper side of the purification space, the feeding mechanism comprises a storage cavity arranged in the purifier shell, a conveying cavity is arranged between the storage cavity and the purification space, the conveying cavity is communicated with the storage cavity through a first conveying pipeline, the conveying cavity is communicated with the purification space through a second conveying pipeline, and a plug is arranged on the inner wall of the upper side of the storage cavity; according to the invention, through a coating mode, the graphene layer can be automatically generated for purifying formaldehyde, the protection degree of graphene for purifying part is detected through detection of a sensor, the graphene is automatically replaced, the formaldehyde purification efficiency is ensured, double-layer formaldehyde purification is realized, the purification effect is ensured, the graphene absorbing formaldehyde is gathered together, and the secondary emission of formaldehyde is effectively prevented by utilizing a photocatalyst for catalytic decomposition.
Description
Technical Field
The invention relates to the field of graphene, in particular to a graphene type formaldehyde purifier.
Background
Graphene is a new material which is tightly stacked into a single-layer two-dimensional honeycomb lattice structure by sp hybridized connected carbon atoms, and has good adsorption performance due to the structural characteristics of graphene, so that the graphene is commonly used for air purification, most of the existing graphene-related air purification equipment is used for manufacturing graphene into a filter screen and then exhausting air, and in the using process, the adsorption function of the graphene is gradually saturated, the adsorption effect is increasingly poor, and formaldehyde is easily emitted for the second time.
Disclosure of Invention
The invention aims to provide a graphene type formaldehyde purifier to overcome the problems.
The invention is realized by the following technical scheme.
The graphene type formaldehyde purifier comprises a purifier shell, wherein a purification space with a leftward opening is formed in the purifier shell, a feeding mechanism is arranged on the upper side of the purification space, the feeding mechanism comprises a storage cavity arranged in the purifier shell, a conveying cavity is arranged between the storage cavity and the purification space, the conveying cavity is communicated with the storage cavity through a first conveying pipeline, the conveying cavity is communicated with the purification space through a second conveying pipeline, a plug is arranged on the inner wall of the upper side of the storage cavity, a conveying motor is embedded in the inner wall of the rear side of the conveying cavity, a conveying shaft is controlled on the front end face of the conveying motor, the conveying shaft is rotatably connected with the inner wall of the front side of the conveying cavity, and six rotating plates are uniformly and fixedly arranged on the conveying shaft;
the purification device is characterized in that two purification mechanisms are arranged in the purification space from top to bottom, each purification mechanism comprises a collection block fixed to the inner wall of the left side of the purification space, a guide cavity is formed in each collection block, the inner wall of the upper side of each guide cavity is communicated with the purification space through a pouring port, an electromagnet is fixedly arranged on the inner wall of the left side of each pouring port, a moving cavity is fixedly arranged on the right end face of each electromagnet, an iron plate is fixedly arranged on the right end of each moving cavity, the iron plate is slidably connected with the pouring ports, the pouring ports are sealed by the iron plates, a rotating motor fixedly connected with the inner wall of the rear side of the purification space is arranged on the right side of each collection block, a rotating shaft is controlled by the front end face of each rotating motor, a purification plate is fixedly;
an anti-diffusion mechanism is arranged on the lower side of the purification space and comprises a collection cavity, an electric heater is embedded in the inner wall of the lower side of the collection cavity, a discharge cavity is arranged on the right side of the electric heater, the lower side of the discharge cavity is communicated with the external space, the discharge cavity is communicated with the collection cavity through a catalysis cavity, an ultraviolet lamp is embedded in the inner wall of the upper side of the catalysis cavity, and sixteen photocatalyst plates are uniformly and fixedly arranged between the inner walls of the upper side and the lower side of the catalysis cavity;
the right side of the purification space is provided with two containing cavities with openings facing left, each containing cavity is internally provided with a floating mechanism, the floating mechanism comprises a sliding cavity arranged on the right side of the containing cavity, the openings of the sliding cavity face left, the inner wall of the right side of the sliding cavity is fixedly provided with a sliding spring, the left end of the sliding spring is fixedly provided with a rotating plate in sliding connection with the sliding cavity, the left end of the rotating plate is positioned in the containing cavity and is fixedly provided with a top plate, the lower end face of the top plate is internally provided with a moving groove with a downward opening, the lower end face of the top plate is embedded with a driving motor, the lower end face of the driving motor is controlled by a driving shaft, a supporting column is fixedly arranged on the driving shaft, a sleeve rod is arranged on the supporting column in a sliding manner and is connected with the supporting column through a connecting spring, the left end of the, the slider slides and sets up in the motion groove, the fixed backup pad that is equipped with of connecting rod lower extreme, the terminal surface is fixed to be equipped with and scribbles the piece under the backup pad.
Preferably, the collection chamber upside inner wall is equipped with the collecting duct, every the direction chamber all communicates through the intercommunication pipeline collecting duct, the upside the fixed first sensor that is equipped with of collection piece right-hand member face, downside the fixed second sensor that is equipped with of collection piece right-hand member face, the fixed third sensor that is equipped with of purification space upside inner wall.
Preferably, the inner wall of the right side of the purification space is communicated with the external space through a discharge pipeline, a fan motor is fixedly arranged on the inner wall of the rear side of the discharge pipeline, a fan shaft is controlled on the left end face of the fan motor, and fan blades are fixedly arranged on the fan shaft.
Preferably, discharge tube upside inner wall is equipped with power space, the fixed motor power that is equipped with of power space rear side inner wall, terminal surface control has the power shaft before the motor power, the epaxial fixed ejector pad that is equipped with of power, with the ejector pad is the center, and the longitudinal symmetry is equipped with two push pedals, the push pedal with power space sliding connection, every the push pedal with power space inner wall is through two supporting spring fixed connection, the downside is respectively through two sliding chambers of two oil pipe intercommunications on the power space, the clarifier shell up end inlays and is equipped with data terminal.
Preferably, the storage cavity and the conveying cavity communicated with the first feeding pipeline and the first feeding pipeline are filled with graphene, and the push plate is far away from the push block side power space and the oil pipe is filled with hydraulic oil.
The invention has the beneficial effects that: according to the invention, through a coating mode, the graphene layer can be automatically generated for purifying formaldehyde, the protection degree of graphene for purifying part is detected through detection of a sensor, the graphene is automatically replaced, the formaldehyde purification efficiency is ensured, double-layer formaldehyde purification is realized, the purification effect is ensured, the graphene absorbing formaldehyde is gathered together, and the secondary emission of formaldehyde is effectively prevented by utilizing a photocatalyst for catalytic decomposition.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.
FIG. 1 is a schematic structural diagram of an embodiment of the present invention;
FIG. 2 is a schematic bottom view of the top plate 21 of FIG. 1 according to an embodiment of the present invention;
FIG. 3 is an enlarged schematic view of the embodiment of the present invention at A in FIG. 1;
FIG. 4 is a schematic view of the embodiment of the present invention in the direction B-B in FIG. 1;
FIG. 5 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 1.
Detailed Description
The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
The graphene-type formaldehyde purifier described with reference to fig. 1 to 5 comprises a purifier housing 10, the purifier shell 10 is provided with a purification space 42 with an opening facing to the left, the upper side of the purification space 42 is provided with a feeding mechanism 70, the feeding mechanism 70 comprises a storage chamber 11 arranged in the purifier housing 10, a conveying chamber 14 is arranged between the storage chamber 11 and the purifying space 42, the delivery chamber 14 communicates with the storage chamber 11 through a first feed conduit 12, the delivery chamber 14 communicates with the purge space 42 through a second feed conduit 69, a plug 13 is arranged on the inner wall of the upper side of the storage cavity 11, a conveying motor 55 is embedded on the inner wall of the rear side of the conveying cavity 14, a conveying shaft 15 is controlled on the front end face of the conveying motor 55, the conveying shaft 15 is rotatably connected with the inner wall of the front side of the conveying cavity 14, and six rotating plates 16 are uniformly and fixedly arranged on the conveying shaft 15;
two purification mechanisms 71 are arranged in the purification space 42 from top to bottom, the purification mechanisms 71 comprise a fixed collection block 35 which is connected with the inner wall at the left side of the purification space 42, a guide cavity 37 is arranged in the collection block 35, the inner wall of the upper side of the guide cavity 37 is communicated with the purification space 42 through a pouring inlet 41, an electromagnet 36 is fixedly arranged on the inner wall of the left side of the pouring port 41, a moving cavity 38 is fixedly arranged on the right end face of the electromagnet 36, an iron plate 40 is fixedly arranged at the right end of the moving cavity 38, the iron plate 40 is connected with the pouring port 41 in a sliding manner, the iron plate 40 seals the pouring port 41, the right side of each collecting block 35 is provided with a rotating motor 44 fixedly connected with the inner wall of the rear side of the purifying space 42, a rotating shaft 45 is controlled on the front end face of the rotating motor 44, a purifying plate 46 is fixedly arranged on the rotating shaft 45, and a filter screen is embedded in the purifying plate 46;
the lower side of the purification space 42 is provided with an anti-scattering mechanism 73, the anti-scattering mechanism 73 comprises a collection cavity 31, an electric heater 32 is embedded in the inner wall of the lower side of the collection cavity 31, a discharge cavity 27 is arranged on the right side of the electric heater 32, the lower side of the discharge cavity 27 is communicated with the external space, the discharge cavity 27 is communicated with the collection cavity 31 through a catalysis cavity 28, an ultraviolet lamp 30 is embedded in the inner wall of the upper side of the catalysis cavity 28, and sixteen photocatalyst plates 29 are uniformly and fixedly arranged between the inner walls of the upper side and the lower side of the catalysis cavity 28;
the right side of the purification space 42 is provided with two containing cavities 22 with openings facing left, each containing cavity 22 is internally provided with a floating mechanism 72, each floating mechanism 72 comprises a sliding cavity 17 arranged on the right side of the containing cavity 22, the opening of the sliding cavity 17 faces left, the inner wall of the right side of the sliding cavity 17 is fixedly provided with a sliding spring 18, the left end of the sliding spring 18 is fixedly provided with a rotating plate 16 connected with the sliding cavity 17 in a sliding manner, the left end of the rotating plate 16 is positioned in the containing cavity 22 and is fixedly provided with a top plate 21, the lower end face of the top plate 21 is internally provided with a moving groove 20 with an opening facing down, the lower end face of the top plate 21 is embedded with a driving motor 63, the lower end face of the driving motor 63 is controlled by a driving shaft 64, the driving shaft 64 is fixedly provided with a supporting column 62, the supporting column 62 is slidably provided with a sleeve rod 60, and the sleeve rod 60 is connected, a connecting rod 58 is fixedly arranged at the left end of the loop bar 60, a sliding block 59 is fixedly arranged at the upper end of the connecting rod 58, the sliding block 59 is arranged in the moving groove 20 in a sliding mode, a supporting plate 57 is fixedly arranged at the lower end of the connecting rod 58, and a smearing block 56 is fixedly arranged on the lower end face of the supporting plate 57.
Advantageously, the collecting duct 33 is provided on the inner wall of the upper side of the collecting chamber 31, each guiding chamber 37 is communicated with the collecting duct 33 through a communicating duct 34, a first sensor 47 is fixedly provided on the right end face of the upper collecting block 35, a second sensor 48 is fixedly provided on the right end face of the lower collecting block 35, and a third sensor 43 is fixedly provided on the inner wall of the upper side of the purifying space 42.
Beneficially, the right inner wall of the purification space 42 is communicated with the external space through the discharge duct 23, the fan motor 24 is fixedly arranged on the rear inner wall of the discharge duct 23, the fan shaft 25 is controlled by the left end face of the fan motor 24, and the fan blades 26 are fixedly arranged on the fan shaft 25.
Beneficially, discharge tube 23 upside inner wall is equipped with power space 49, power space 49 rear side inner wall is fixed and is equipped with power motor 53, power motor 53 front end control has power shaft 52, the last fixed ejector pad 51 that is equipped with of power shaft 52, with ejector pad 51 is the center, and the longitudinal symmetry is equipped with two push pedal 50, push pedal 50 with power space 49 sliding connection, every push pedal 50 with power space 49 inner wall is through two supporting spring 54 fixed connection, power space 49 upper and lower side is respectively through two oil pipe 19 intercommunication two sliding chamber 17, the terminal surface of clarifier shell 10 up end inlays and is equipped with data terminal 68.
Advantageously, the storage chamber 11 and the delivery chamber 14 communicating with the first delivery conduit 12 and the first delivery conduit 12 are filled with graphene, and the power space 49 of the push plate 50 far from the push block 51 and the oil pipe 19 are filled with hydraulic oil.
In the initial state, the rotary motor 44 is turned off, the electric heater 32 is not operated, the ultraviolet lamp 30 is not turned on, and the fan motor 24, the power motor 53, the transport motor 55, and the driving motor 63 are not operated.
Starting the upper rotary motor 44, driving the upper rotary shaft 45 to rotate, driving the upper purification plate 46 to rotate ninety degrees counterclockwise, closing the upper rotary motor 44, starting the conveying motor 55, driving the conveying shaft 15 to rotate, driving the conveying shaft 15 to drive the rotary plates 16 to rotate one hundred eighty degrees, enabling one part of graphene between two adjacent rotary plates 16 to fall to the upper end face of the purification plate 46 at the lower side, closing the conveying motor 55, starting the upper rotary motor 44, resetting the upper purification plate 46, starting the conveying motor 55, controlling the conveying shaft 15 to rotate sixty degrees, enabling one part of graphene between two adjacent rotary plates 16 to fall to the upper end face of the upper purification plate 46, closing the conveying motor 55, starting the two driving motors 63, driving the driving shaft 64 to rotate, driving the driving shaft 64 to drive the supporting column 62 to rotate, driving the sleeve rod 60 to rotate, driving the connecting rod 58 to move, the connecting rod 58 drives the sliding block 59 to move along the moving groove 20, so that the smearing block 56 moves along with the shape of the moving groove 20, the power motor 53 is started, the power motor 53 drives the power shaft 52 to rotate, the power shaft 52 drives the push block 51 to rotate clockwise, the push block 51 pushes the upper push plate 50 firstly, hydraulic oil on the upper side of the upper push plate 50 is filled into the sliding cavity 17, the upper support spring 54 is compressed, the upper sliding spring 18 is stretched and pushes the rotating plate 16 to move leftwards, the rotating plate 16 drives the top plate 21 to move leftwards, so that the upper smearing block 56 moves to the upper end face of the upper purifying plate 46, and graphene on the upper end face of the upper purifying plate 46 is evenly smeared on a filter screen of the upper purifying plate 46 through the movement of the upper smearing block 56;
the push block 51 continuously selects to rotate to a position separated from the upper push plate 50, the upper top plate 21 is driven to reset through the reset of the upper support spring 54 and the upper sliding spring 18, the push block 51 pushes the lower push plate 50 to move downwards, so that hydraulic oil on the lower side of the lower push plate 50 is filled into the sliding cavity 17, the lower support spring 54 is compressed, the lower sliding spring 18 is stretched and pushes the rotating plate 16 to move leftwards, the rotating plate 16 drives the top plate 21 to move leftwards, the lower smearing block 56 moves to the upper end face of the lower purifying plate 46, graphene on the upper end face of the lower purifying plate 46 is evenly smeared on a filter screen of the lower purifying plate 46 through the movement of the lower smearing block 56, and after the power shaft 52 rotates for one circle, the power motor 53 is turned off;
the fan motor 24 is started to drive the fan shaft 25 to rotate, the fan shaft 25 drives the fan blades 26 to rotate, air is sucked from the left side of the purification space 42 and is discharged from the right side of the discharge pipeline 23, the air is absorbed by the filter screen layer with graphene on the upper sides of the two purification plates 46, the third sensor 43 can detect the formaldehyde concentration in the initially sucked air, the first sensor 47 can detect the formaldehyde concentration after the absorption by the graphene on the upper purification plate 46, the second sensor 48 can detect the formaldehyde concentration after the absorption by the graphene on the two purification plates 46, the formaldehyde concentration data of the three positions are sent to the data terminal 68 for real-time analysis and detection, if the data terminal 68 analyzes the data of the first sensor 47 and the third sensor 43 and finds that the graphene absorption effect at the purification plate 46 on the upper side is poor or the data terminal 68 analyzes the data of the first sensor 47 and the second sensor 48 and finds that the overall graphene absorption effect is poor, the data terminal 68 controls the fan motor 24 to be closed, the data terminal 68 controls the two electromagnets 36 to be electrified to generate magnetic force, the iron plates 40 are attracted, the pouring port 41 is opened, the moving spring 39 is compressed, the data terminal 68 controls the two rotating motors 44 to be started, the two purification plates 46 are driven to rotate ninety degrees anticlockwise, graphene at the two purification plates 46 is poured into the guide cavity 37, and the used graphene finally enters the collection cavity 31 to be stored through the communicating pipeline 34 and the collection pipeline 33;
then the data terminal 68 controls the two electromagnets 36 to be powered off, the movable spring 39 is reset, the iron plate 40 is driven to seal the pouring port 41, the data terminal 68 controls the lower rotary motor 44 to drive the lower purifying plate 46 to rotate and reset, the data terminal 68 controls the conveying motor 55 to drive the conveying shaft 15 to rotate sixty degrees, one part of graphene between two adjacent rotating plates 16 falls to the upper end face of the lower purifying plate 46, the conveying motor 55 is closed, the second conveying pipeline 69 controls the upper rotating motor 44 to drive the upper purifying plate 46 to rotate and reset, the data terminal 68 controls the conveying motor 55 to drive the conveying shaft 15 to continue to rotate for sixty degrees, one part of graphene between two adjacent rotating plates 16 falls to the upper end face of the upper purifying plate 46, the conveying motor 55 is closed, the data terminal 68 controls the power motor 53 and the driving motor 63 to rotate, and the graphene on the upper sides of the two purifying plates 46 can be respectively leveled;
after the floating is finished, the fan motor 24 is started to drive the fan blades 26 to rotate, and the graphene can be purified continuously;
the data terminal 68 controls the ultraviolet lamp 30 to generate ultraviolet light, and controls the electric heater 32 to heat the graphene in the collection chamber 31, and under the catalytic action of the photocatalyst plate 29, formaldehyde emitted by the graphene in the collection chamber 31 is catalytically decomposed into water and carbon dioxide to be discharged.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.
Claims (5)
1. The utility model provides a graphite alkene formula formaldehyde purification ware, includes the clarifier shell, its characterized in that: a purification space with a leftward opening is formed in the purifier shell, a feeding mechanism is arranged on the upper side of the purification space and comprises a storage cavity arranged in the purifier shell, a conveying cavity is arranged between the storage cavity and the purification space and is communicated with the storage cavity through a first conveying pipeline, the conveying cavity is communicated with the purification space through a second conveying pipeline, a plug is arranged on the inner wall of the upper side of the storage cavity, a conveying motor is embedded in the inner wall of the rear side of the conveying cavity, a conveying shaft is controlled on the front end face of the conveying motor and is rotatably connected with the inner wall of the front side of the conveying cavity, and six rotating plates are uniformly and fixedly arranged on the conveying shaft; the purification device is characterized in that two purification mechanisms are arranged in the purification space from top to bottom, each purification mechanism comprises a collection block fixed to the inner wall of the left side of the purification space, a guide cavity is formed in each collection block, the inner wall of the upper side of each guide cavity is communicated with the purification space through a pouring port, an electromagnet is fixedly arranged on the inner wall of the left side of each pouring port, a moving cavity is fixedly arranged on the right end face of each electromagnet, an iron plate is fixedly arranged on the right end of each moving cavity, the iron plate is slidably connected with the pouring ports, the pouring ports are sealed by the iron plates, a rotating motor fixedly connected with the inner wall of the rear side of the purification space is arranged on the right side of each collection block, a rotating shaft is controlled by the front end face of each rotating motor, a purification plate is fixedly; an anti-diffusion mechanism is arranged on the lower side of the purification space and comprises a collection cavity, an electric heater is embedded in the inner wall of the lower side of the collection cavity, a discharge cavity is arranged on the right side of the electric heater, the lower side of the discharge cavity is communicated with the external space, the discharge cavity is communicated with the collection cavity through a catalysis cavity, an ultraviolet lamp is embedded in the inner wall of the upper side of the catalysis cavity, and sixteen photocatalyst plates are uniformly and fixedly arranged between the inner walls of the upper side and the lower side of the catalysis cavity; the right side of the purification space is provided with two containing cavities with openings facing left, each containing cavity is internally provided with a floating mechanism, the floating mechanism comprises a sliding cavity arranged on the right side of the containing cavity, the openings of the sliding cavity face left, the inner wall of the right side of the sliding cavity is fixedly provided with a sliding spring, the left end of the sliding spring is fixedly provided with a rotating plate in sliding connection with the sliding cavity, the left end of the rotating plate is positioned in the containing cavity and is fixedly provided with a top plate, the lower end face of the top plate is internally provided with a moving groove with a downward opening, the lower end face of the top plate is embedded with a driving motor, the lower end face of the driving motor is controlled by a driving shaft, a supporting column is fixedly arranged on the driving shaft, a sleeve rod is arranged on the supporting column in a sliding manner and is connected with the supporting column through a connecting spring, the left end of the, the slider slides and sets up in the motion groove, the fixed backup pad that is equipped with of connecting rod lower extreme, the terminal surface is fixed to be equipped with and scribbles the piece under the backup pad.
2. The graphene-type formaldehyde purifier according to claim 1, wherein: collect chamber upside inner wall and be equipped with the collecting duct, every the direction chamber all communicates through the intercommunication pipeline collecting duct, upside the fixed first sensor that is equipped with of collection piece right-hand member face, downside the fixed second sensor that is equipped with of collection piece right-hand member face, the fixed third sensor that is equipped with of purification space upside inner wall.
3. The graphene-type formaldehyde purifier according to claim 1, wherein: the inner wall of the right side of the purification space is communicated with the external space through a discharge pipeline, a fan motor is fixedly arranged on the inner wall of the rear side of the discharge pipeline, a fan shaft is controlled by the left end face of the fan motor, and fan blades are fixedly arranged on the fan shaft.
4. The graphene-type formaldehyde purifier according to claim 1, wherein: discharge tube upside inner wall is equipped with power space, the fixed power motor that is equipped with of power space rear side inner wall, terminal surface control has the power shaft before the power motor, the epaxial fixed ejector pad that is equipped with of power, with the ejector pad is the center, and the longitudinal symmetry is equipped with two push pedals, the push pedal with power space sliding connection, every the push pedal with power space inner wall is through two supporting spring fixed connection, the downside communicates two slip chambeies through two oil pipe respectively on the power space, the clarifier shell up end inlays and is equipped with data terminal.
5. The graphene-type formaldehyde purifier according to claim 2, wherein: graphene is filled in the storage cavity and the conveying cavity communicated with the first conveying pipeline and the first conveying pipeline, and the push plate is far away from the push block side power space and the oil pipe is filled with hydraulic oil.
Priority Applications (1)
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CN202011219401.8A CN112316717A (en) | 2020-11-04 | 2020-11-04 | Graphene type formaldehyde purifier |
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CN202011219401.8A CN112316717A (en) | 2020-11-04 | 2020-11-04 | Graphene type formaldehyde purifier |
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CN202011219401.8A Withdrawn CN112316717A (en) | 2020-11-04 | 2020-11-04 | Graphene type formaldehyde purifier |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113304601A (en) * | 2021-07-02 | 2021-08-27 | 广州海研生物科技有限公司 | Microbial purification equipment for VOC treatment in industrial waste gas |
CN113617661A (en) * | 2021-07-28 | 2021-11-09 | 彭善斌 | Screening machine for intelligently screening sand and stone for road administration construction |
-
2020
- 2020-11-04 CN CN202011219401.8A patent/CN112316717A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113304601A (en) * | 2021-07-02 | 2021-08-27 | 广州海研生物科技有限公司 | Microbial purification equipment for VOC treatment in industrial waste gas |
CN113617661A (en) * | 2021-07-28 | 2021-11-09 | 彭善斌 | Screening machine for intelligently screening sand and stone for road administration construction |
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Application publication date: 20210205 |