CN110732260B - Can absorb preparation facilities of inorganic chemical agent of VOC - Google Patents

Abstract

The invention discloses a preparation device capable of absorbing VOC inorganic chemical agent, which comprises a transition box, wherein a receiving cavity is arranged in the transition box, a storage device is fixedly arranged at the upper end of the receiving cavity, the storage device comprises four throwing pipes which are annularly arranged on the inner wall of the top end of the receiving cavity in an array mode, and a storage box which is arranged at the upper end of the throwing pipes in a penetrating mode.

Description

Can absorb preparation facilities of inorganic chemical agent of VOC

Technical Field

The invention relates to the technical field of inorganic chemistry, in particular to a preparation device of an inorganic chemical agent capable of absorbing VOC.

Background

VOC emission refers to the emission of active, hazardous, and spontaneously volatile organic compounds, which is one of the sources of air pollution. At present, the most common method for relieving the substances in the atmosphere is an absorption method, gas is introduced into an absorption tower for filtration and absorption, but the water absorption capacity is limited, and when the substances reach a saturation state, a water source needs to be replaced manually, so that secondary pollution is caused, the quality of the water source is damaged, and the substances are not energy-saving and environment-friendly. In the prior art, four substances of potassium carbonate, sodium carbonate, potassium hydroxide and sodium hydroxide are used for mixing to form a novel absorption chemical agent.

However, the preparation of such inorganic chemical agents requires manual weighing, and due to the intervention of subjective judgment factors, the quality of the solvent is not necessarily the optimal ratio due to reading, which affects the absorption effect. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows:

the preparation of the inorganic chemical agent needs manual weighing, and due to the intervention of subjective judgment factors, the quality of the solvent is not consistent with the optimal ratio due to reading, so that the absorption effect is influenced.

In order to solve the above problems, the present embodiment provides a device for preparing an inorganic chemical agent capable of absorbing VOC, comprising a transition box, a receiving chamber disposed in the transition box, a storage device fixed on the upper end of the receiving chamber, the storage device comprising four throwing pipes disposed on the inner wall of the top end of the receiving chamber in an annular array, a receiving box disposed on the upper end of the throwing pipes, a water pipe disposed on the inner wall of the top end of the receiving chamber and located at the center of the array, and a water tank disposed on the upper end of the water pipe, wherein the water tank and the receiving box are used for respectively storing solute and solvent, the throwing pipe is disposed with a valve assembly, the valve assembly comprises two valves slidably connected to the throwing pipes and arranged from top to bottom, the valves slide alternately from top to bottom to control the opening and closing of the throwing pipes, the receiving cavity is characterized in that the end face on the upper side of the receiving cavity is rotationally connected with a transmission shaft with central symmetry, the transmission shaft is provided with a starting device for controlling the sliding of the valve, the starting device comprises a push rod abutted against the valve and two curvature wheels rotationally connected to the transmission shaft and abutted against the push rod, the curvature wheels and the diameter of a contact point of the push rod change to push the sliding of the valve, the receiving cavity is internally and slidably connected with a quantitative device for judging the water level, the quantitative device comprises a buoyancy ring slidably connected to the receiving cavity, the proportion of a solvent is determined through the change of the vertical height of the buoyancy ring, the lower end of the receiving cavity is provided with a mixing cavity, a water through hole is formed between the mixing cavity and the receiving cavity, an electromagnetic valve controlled by electric power is arranged in the water through hole, a stirring device is arranged in the mixing cavity and comprises, Set up in on the drive shaft and three impeller that the array distributes, set up in vortex case on the inner wall of mixing chamber lower extreme, set up in linking chamber, sliding connection on the vortex case in link chamber and the chain pole that centrosymmetric set up, utilize the drive shaft drives the rotatory vortex that produces of impeller, carries out the vortex through the chain pole that is in the vortex and ensures the mixed effect.

Preferably, the volume ratio between the front and rear projection pipes and the left and right projection pipes is three to two.

Preferably, the upper and lower wheels are oppositely mounted.

The storage device further comprises a track cover connected to the lower end of the water pipe in a sliding mode, a resistance spring is connected between the track cover and the inner wall of the top end of the receiving cavity, a spiral track is arranged in the track cover, and the water tank can be connected with an external water pump.

The valve component further comprises a sliding cavity arranged in the valve door, a fixed rod fixedly connected with the inner wall of the feeding pipe is connected in the sliding cavity in a sliding mode, and a reset spring is connected between the fixed rod and the sliding cavity.

The starting device further comprises a transmission case which is rotatably connected to the transmission shaft, a transmission cavity is arranged in the transmission case and is in sliding connection with the push rod, and a bevel gear which is positioned at the lower end of the transmission case is arranged on the transmission shaft.

The quantifying device further comprises a lifting groove formed in the inner wall of the top end of the receiving cavity, a sealing plate capable of sealing the track cover is fixedly arranged on the inner ring of the floating ring, a helical gear rod capable of being in sliding connection with the lifting groove is arranged on the sealing plate, the helical gear rod can be in meshed connection with the helical gear, and a clamping rod with a spring is arranged on the helical gear rod.

The electromagnetic valve comprises a magnetic baffle plate which is connected to the right side of the water through opening in a sliding mode, an extension spring is connected between the magnetic baffle plate and the water through opening, and an electromagnetic valve which is connected with the magnetic baffle plate in a magnetic mode is embedded in the inner wall of the left side of the water through opening.

Wherein, agitating unit still including embedded in the mixing chamber lower extreme inner wall and with drive shaft power connects the motor, just the motor with signal connection between the solenoid valve, the mixing chamber rear end is equipped with excretory globe valve, the vortex case rotates and is connected with the driven shaft, be equipped with on the driven shaft longitudinal symmetry and with chain bar articulated rhombus wheel, the chain bar articulate have with link up chamber outside terminal surface sliding connection's puddler, the lower extreme the rhombus wheel with link up being connected with torque spring between the chamber lower extreme inner wall, be equipped with on the driven shaft and be located gear between the rhombus wheel, link up one side sliding connection in chamber have with the rack that gear engagement is connected, be equipped with on the rack and be located link up the impingement plate in the chamber outside.

The invention has the beneficial effects that: according to the invention, the staggered valves which can slide in the vertical pipeline are utilized, and according to the condition that the flow rate is the same in the same time, the flow ratio is equal to the volume ratio of the pipeline, the solute is accurately put in, the difference of manual reading is avoided, the subsequent absorption effect is influenced, the mixed liquid is rotated into vortex, the stirring structure is fixedly arranged at the position of the vortex, and when water flows through the vortex, the self mixing stirring is carried out, so that the quality of the mixed liquid is ensured.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic diagram of the overall structure of a device for preparing VOC absorbing inorganic chemical agents according to the present invention;

FIG. 2 is an enlarged schematic view of FIG. 1 at "A";

FIG. 3 is an enlarged schematic view of FIG. 1 at "B";

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 3;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 3;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for ease of description, the orientations described below will now be 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 invention relates to a device for preparing an inorganic chemical agent capable of absorbing VOC, which is mainly used for further explaining the invention by combining the attached drawings of the invention in the process of accurately preparing the inorganic chemical agent capable of absorbing VOC according to the proportion:

the invention relates to a preparation device of an absorbable VOC inorganic chemical agent, which comprises a transition box 11, wherein a receiving cavity 12 is arranged in the transition box 11, a storage device 901 is fixedly arranged at the upper end of the receiving cavity 12, the storage device 901 comprises four throwing pipes 26 which are annularly arranged on the inner wall of the top end of the receiving cavity 12 in an array manner, a containing box 30 which is arranged at the upper end of the throwing pipe 26 in a penetrating manner, a water pipe 28 which is arranged on the inner wall of the top end of the receiving cavity 12 and is positioned at the center of the array manner, a water tank 29 which is arranged at the upper end of the water pipe 28 in a penetrating manner, solutes and solvents are respectively stored in the containing box 30 through the water tank 29, a valve assembly 902 is arranged in the throwing pipe 26, the valve assembly 902 comprises two valves 36 which are slidably connected to the throwing pipes 26 and are arrayed from top to bottom, the side end face of the receiving cavity 12 is rotationally connected with a transmission shaft 33 with central symmetry, the transmission shaft 33 is provided with a starting device 903 for controlling the sliding of the valve 36, the starting device 903 comprises a push rod 37 abutted against the valve 36, two curvature wheels 34 rotationally connected to the transmission shaft 33 and abutted against the push rod 37, the curvature wheels 34 and the diameter change of the contact point of the push rod 37 push the valve 36 to slide, the receiving cavity 12 is internally and slidably connected with a quantifying device 904 for determining the water level, the quantifying device 904 comprises a buoyancy ring 15 slidably connected to the receiving cavity 12, the ratio of the solvent is determined by the change of the vertical height of the buoyancy ring 15, the lower end of the receiving cavity 12 is provided with a mixing cavity 51, the mixing cavity 51 and the receiving cavity 12 are communicated with each other to be provided with a water through opening 22, and an electromagnetic valve 905 of electric control is arranged in the water through opening 22, be equipped with agitating unit 906 in the hybrid chamber 51, agitating unit 906 including rotate connect in the drive shaft 19 of hybrid chamber 51 lower extreme, set up in on the drive shaft 19 and three impeller 17 of array distribution, set up in vortex case 48 on the inner wall of hybrid chamber 51 lower extreme, set up in linking chamber 47 on the vortex case 48, sliding connection in link up on the chamber 47 and the chain bar 41 that the centrosymmetry set up, utilize drive shaft 19 drives the rotatory swirl that produces of impeller 17, carries out vortex guarantee mixing effect through the chain bar 41 that is in the swirl.

Advantageously, the volume ratio between the front and rear dosing pipes 26 and the left and right dosing pipes 26 is three to two, and when the flow rates in the dosing pipes 26 are communicated, the dosing quantity ratio is three to two in the same time, so that accurate weighing of the dosed solutes is realized.

Advantageously, the upper and lower curved wheels 34 are mounted in opposition to ensure that the sliding directions of the valve 36 are reversed, achieving an opening and closing action.

According to the embodiment, the storage device 901 is described in detail below, the storage device 901 further comprises a track cover 24 slidably connected to the lower end of the water pipe 28, a resistance spring 27 is connected between the track cover 24 and the inner wall of the top end of the receiving cavity 12, a spiral track 25 is arranged in the track cover 24, the water tank 29 can be connected with an external water pump, and the water is thrown out in a one-side rotating manner through the spiral flow guide of the spiral track 25, so that the water can be mixed with the solvent in the receiving cavity 12.

According to the embodiment, the valve assembly 902 is described in detail below, the valve assembly 902 further includes a sliding cavity 52 disposed in the valve 36, a fixed rod 38 fixedly connected to the inner wall of the administration tube 26 is slidably connected in the sliding cavity 52, a return spring 35 is connected between the fixed rod 38 and the sliding cavity 52, and the valve 36 can be slid to be reset after the force for limiting sliding of the valve 36 is removed by the elastic force of the return spring 35.

According to an embodiment, the details of the starting device 903 are described below, the starting device 903 further includes a transmission case 31 rotatably connected to the transmission shaft 33, a transmission cavity 32 is disposed in the transmission case 31, the transmission cavity 32 is slidably connected to the push rod 37, and the transmission shaft 33 is provided with a bevel gear 39 at a lower end of the transmission case 31.

According to an embodiment, the following detailed description will be given to the dosing device 904, the dosing device 904 further includes a lifting groove 40 disposed on the inner wall of the top end of the receiving chamber 12, a sealing plate 23 capable of closing the track cover 24 is fixedly disposed on the inner ring of the floating ring 15, a helical gear 14 slidably connected to the lifting groove 40 is disposed on the sealing plate 23, the helical gear 14 is capable of engaging with the helical gear 39, a latch 13 with a spring is disposed on the helical gear 14, and the volume of water in the receiving chamber 12 is forty each time the floating ring 15 moves to abut against the track cover 24.

According to an embodiment, the electromagnetic valve 905 is described in detail below, the electromagnetic valve 905 includes a magnetic flapper 21 slidably connected to a right side of the water passage port 22, an extension spring 16 is connected between the magnetic flapper 21 and the water passage port 22, an electromagnetic valve 20 magnetically connected to the magnetic flapper 21 is fitted to an inner wall of a left side of the water passage port 22, and the magnetic flapper 21 is pushed to slide by magnetism of the electromagnetic valve 20 under electric control to open and close the water passage port 22.

According to the embodiment, the details of the stirring device 906 are described below, the stirring device 906 further includes a motor 18 embedded in the inner wall of the lower end of the mixing cavity 51 and in power connection with the driving shaft 19, the motor 18 is in signal connection with the electromagnetic valve 20, the rear end of the mixing cavity 51 is provided with a drainage ball valve, the spoiler box 48 is rotatably connected with a driven shaft 43, the driven shaft 43 is provided with diamond-shaped wheels 42 which are vertically symmetrical and hinged with the chain rod 41, the chain rod 41 is hinged with a stirring rod 44 which is in sliding connection with the end surface of the outer side of the linking cavity 47, a torque spring 49 is connected between the diamond-shaped wheel 42 at the lower end and the inner wall of the lower end of the linking cavity 47, the driven shaft 43 is provided with a gear 45 which is located between the diamond-shaped wheels 42, one side of the linking cavity 47 is in sliding connection with a rack, the rack 46 is provided with an impact plate 50 positioned outside the engaging cavity 47, after the water is rotated by the impeller 17 to form a vortex, the water flow can impact on the impact plate 50, and push the rack 46 to slide so that the gear 45 engaged with the rack 46 rotates, and then the driven shaft 43 rotates and utilizes the diamond wheel 42 to send out the chain rod 41, so that the mixed solvent and solute are fully stirred.

The following detailed description of the steps of using the device for preparing a VOC absorbable inorganic chemical agent is provided with reference to fig. 1 to 6:

initially, the impact plate 50 is not abutted to the spoiler box 48, the link rod 41 is retracted into the connecting cavity 47 and the stirring rod 44 is folded and retracted, the electromagnetic valve 20 is magnetically abutted to the magnetic baffle 21 to close the water through opening 22, the floating ring 15 is located at the lowest end position of the receiving cavity 12, the valve 36 at the lower end is abutted to the throwing pipe 26 to close the throwing pipe 26.

When the solute dispensing device is prepared, an external water pump is turned on, water flows into the receiving cavity 12 through the water tank 29 and the water pipe 28 in sequence, at the moment, the water level rises to push the floating ring 15 to move upwards, when the floating ring 15 moves to be abutted against the track cover 24, the sealing plate 23 seals the gap of the track cover 24, the capacity of the water in the receiving cavity 12 is forty parts, meanwhile, the bevel gear rod 14 moves upwards to slide through the lifting groove 40 to be meshed with the bevel gear 39 to rotate, the curvature wheel 34 rotates through the transmission shaft 33, the curvature wheel 34 rotates to push the push rod 37 at the upper side out, the valve 36 slides into the dispensing pipe 26, meanwhile, the push rod 37 at the lower side slides back into the transmission cavity 32, at the moment, the reset spring 35 elastically restores to push the dispensing valve 36, so that the solute in the receiving cavity 12 is dispensed through the dispensing pipe 26 before the two valves 36 at the upper and lower sides of the dispensing pipe 26 are at the sliding limit positions, at the moment, the dispensing amount of the solute in, the solute put quantity of the left and right throwing pipes 26 is one, the impeller 17 is rotated by the driving shaft 19 by the starting motor 18, the electromagnetic valve 20 is de-energized and demagnetized at the same time, at this time, the magnetic baffle 21 moves to the right and down under the elastic force of the tension spring 16, the water through port 22 is opened, the mixed liquid flows into the mixing chamber 51 from the water through port 22, at this time, the buoyancy ring 15 moves to the down, the buoyancy ring 15 repeats the above work, the solute put quantity of the front and rear throwing pipes 26 is one and a half, the solute put quantity of the left and right throwing pipes 26 is one, at this time, the water in the mixing chamber 51 is turned into vortex by the impeller 17, the water flow can impact on the impact plate 50, the rack 46 is pushed to slide, the gear 45 meshed with the rack 46 is rotated, the driven shaft 43 rotates, the link 41 is sent out by the diamond wheel 42, the stirring rod 44 is unfolded, the mixed solvent and the solute are fully, finally, the mixed liquid is taken out through a ball valve at the rear end of the mixing cavity 51.

The invention has the beneficial effects that: according to the invention, the staggered valves which can slide in the vertical pipeline are utilized, and according to the condition that the flow rate is the same in the same time, the flow ratio is equal to the volume ratio of the pipeline, the solute is accurately put in, the difference of manual reading is avoided, the subsequent absorption effect is influenced, the mixed liquid is rotated into vortex, the stirring structure is fixedly arranged at the position of the vortex, and when water flows through the vortex, the self mixing stirring is carried out, so that the quality of the mixed liquid is ensured.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (3)

1. A preparation facilities of inorganic chemical agent of absorbable VOC, includes the transition case, its characterized in that: a receiving cavity is arranged in the transition box; the upper end of the receiving cavity is fixedly provided with a storage device, the storage device comprises four throwing pipes which are arranged on the inner wall of the top end of the receiving cavity in an annular array mode, a containing box which is arranged at the upper end of the throwing pipes in a penetrating mode, a water pipe which is arranged on the inner wall of the top end of the receiving cavity and is positioned in the center of the array mode, and a water tank which is arranged at the upper end of the water pipe in a penetrating mode, solutes and solvents are stored in the containing box through the water tank respectively, a valve assembly is arranged in the throwing pipes and comprises two valves which are connected to the throwing pipes in a sliding mode and are arrayed from top to bottom, and; the end face of the upper side of the receiving cavity is rotationally connected with a transmission shaft with central symmetry, the transmission shaft is provided with a starting device for controlling the sliding of the valve, the starting device comprises a push rod abutted against the valve and two curvature wheels rotationally connected to the transmission shaft and abutted against the push rod, the diameter change of the contact point of the curvature wheels and the push rod pushes the valve to slide, a quantitative device for judging the water level is slidably connected in the receiving cavity, the quantitative device comprises a buoyancy ring slidably connected in the receiving cavity, and the solvent proportion is determined through the change of the vertical height of the buoyancy ring; the vortex mixing device comprises a driving shaft rotationally connected to the lower end of the mixing cavity, three impellers arranged on the driving shaft and distributed in an array manner, a vortex box arranged on the inner wall of the lower end of the mixing cavity, a connecting cavity arranged on the vortex box, and chain rods which are connected to the connecting cavity in a sliding manner and are arranged in a centrosymmetric manner, the driving shaft is utilized to drive the impellers to rotate to generate a vortex, and the chain rods in the vortex are utilized to carry out vortex flow to ensure the mixing effect; the volume ratio between the front and rear throwing pipes and the left and right throwing pipes is three to two; the upper and lower curvature wheels are oppositely arranged; the storage device also comprises a track cover which is connected to the lower end of the water pipe in a sliding manner, a resistance spring is connected between the track cover and the inner wall of the top end of the receiving cavity, a spiral track is arranged in the track cover, and the water tank can be connected with an external water pump; the valve component also comprises a sliding cavity arranged in the valve, a fixed rod fixedly connected with the inner wall of the throwing pipe is connected in the sliding cavity in a sliding way, and a reset spring is connected between the fixed rod and the sliding cavity; the starting device also comprises a transmission case which is rotationally connected to the transmission shaft, a transmission cavity is arranged in the transmission case, the transmission cavity is connected with the push rod in a sliding manner, and a helical gear which is positioned at the lower end of the transmission case is arranged on the transmission shaft; the quantifying device further comprises a lifting groove arranged on the inner wall of the top end of the receiving cavity, a sealing plate capable of sealing the track cover is fixedly arranged on the inner ring of the floating ring, an inclined tooth rod capable of being in sliding connection with the lifting groove is arranged on the sealing plate, the inclined tooth rod can be in meshed connection with the helical gear, and a clamping rod with a spring is arranged on the inclined tooth rod.

2. A device for preparing an inorganic chemical agent capable of absorbing VOCs as defined in claim 1, wherein: the electromagnetic valve comprises a magnetic baffle plate which is connected to the right side of the water through opening in a sliding mode, an extension spring is connected between the magnetic baffle plate and the water through opening, and an electromagnetic valve which is connected with the magnetic baffle plate in a magnetic mode is embedded in the inner wall of the left side of the water through opening.

3. A device for preparing an inorganic chemical agent capable of absorbing VOCs as claimed in claim 2, wherein: agitating unit still including embedded in the mixing chamber lower extreme inner wall and with drive shaft power connects the motor, just the motor with signal connection between the solenoid valve, the mixing chamber rear end is equipped with excretory globe valve, the vortex case rotates and is connected with the driven shaft, be equipped with on the driven shaft longitudinal symmetry and with chain bar articulated rhombus wheel, the chain bar articulate have with link up chamber outside terminal surface sliding connection's puddler, the lower extreme the rhombus wheel with link up and be connected with torque spring between the chamber lower extreme inner wall, be equipped with on the driven shaft and be located gear between the rhombus wheel, link up one side sliding connection in chamber have with the rack that gear engagement is connected, be equipped with on the rack and be located link up the impingement plate in the chamber outside.

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