CN113262736A - Novel semiconductor material preparation machine for phenolic wastewater treatment - Google Patents

Abstract

The invention discloses a new semiconductor material preparation machine for treating phenol-containing wastewater, which structurally comprises a mixing mechanism, a top cover, an ultrasonic generator and a liquid outlet pipe, wherein the top cover is arranged at the top of the mixing mechanism, the ultrasonic generator oscillates to mix materials in a mixing box, a stirring mechanism extrudes a flexible hose through oscillation, air pressure is sprayed through an air jet hole, a stirring plate stirs at the outer side of the extrusion plate to push silica gel particles dispersed towards the outer side in the oscillation process towards the middle, a pushing plate moves up and down on the outer side of a conduction base, simultaneously the oscillation generated by the ultrasonic generator is conducted through an installation groove and enters the interior of the conduction hole, the air pressure in the aeration hole changes, an opening and closing plate is pushed to rotate upwards around a torsion shaft to open the aeration hole for aeration work, and the silica gel particles falling in the oscillation process are pushed upwards, the comprehensive dispersing and uniformly mixing effect of the silica gel particles is improved.

Description

Novel semiconductor material preparation machine for phenolic wastewater treatment

Technical Field

The invention relates to the field of preparation of new semiconductor materials, in particular to a new semiconductor material preparation machine for treating phenolic wastewater.

Background

When the phenolic wastewater treatment material is prepared, silanization treatment on silica gel particles is required: dispersing activated silicon spheres in a methanol solution, adding 3-aminopropyltriethoxysilane, uniformly mixing by an ultrasonic mixer, reacting at 40-70 ℃ for 12-24h to obtain amino-modified silicon spheres, performing suction filtration and separation, cleaning methanol for several times, and performing vacuum drying at 40-60 ℃ for later use, but when the ultrasonic mixer ultrasonically mixes silica gel particles, the methanol solution and the 3-aminopropyltriethoxysilane, an ultrasonic vibrator is arranged in the middle of the ultrasonic mixer, the silica gel particles are easily dispersed to the outside after being oscillated by ultrasonic waves, the dispersed silica gel particles are difficult to be close to the ultrasonic vibrator again and only can be dispersed to the outside, and the uniform mixing effect of the methanol solution, the 3-aminopropyltriethoxysilane and the silica gel particles around the ultrasonic vibrator is reduced.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the new semiconductor material preparation machine for phenolic wastewater treatment structurally comprises a mixing mechanism, a top cover, an ultrasonic generator and a liquid outlet pipe, wherein the top cover is arranged at the top of the mixing mechanism, the middle part of the ultrasonic generator penetrates through the inside of the top cover, the lower end of the ultrasonic generator is arranged at the inner side bottom of the mixing mechanism, the liquid outlet pipe is embedded at the right lower end of the mixing mechanism and communicated with the mixing mechanism, the mixing mechanism comprises a mixing box, a partition plate, a backflow mechanism and an upward pushing mechanism, the partition plate is arranged inside the mixing box, the top cover is arranged inside the top end of the mixing box, the backflow mechanism is arranged on the surface of the partition plate, the upward pushing mechanism is arranged at the inner side bottom of the mixing box, the lower end of the ultrasonic generator is connected with the inside of the upward pushing mechanism, the outer side end of the upward pushing mechanism is abutted against the surface of the partition plate, and the ultrasonic generator and the upward pushing mechanism are respectively provided with three parts, and are distributed in the blending box at equal intervals.

As a further improvement of the invention, the backflow mechanism comprises a shifting mechanism, a flexible hose and an air vent, wherein the right side surface of the shifting mechanism is fixed with one end of the flexible hose, the other end of the flexible hose is fixed with the surface of the partition plate, the air vent is embedded in the shifting mechanism and communicated with the interior of the flexible hose, and the flexible hose is of a corrugated structure and made of rubber materials and has certain resilience.

As a further improvement of the invention, the toggle mechanism comprises an extrusion plate, a spring, an extrusion rod, a shifting plate and a convex block, wherein the spring is arranged in the extrusion plate, the spring is welded with one end of the extrusion rod, the other end of the extrusion rod is fixed with the inner side surface of the shifting plate, the extrusion rod is arranged in the extrusion plate in a clearance fit manner, the air injection hole is embedded in the extrusion plate, the convex block is arranged on the outer side surface of the shifting plate, and the two springs, the two extrusion rods and the two shifting plates are symmetrically arranged at the front end and the rear end of the extrusion plate.

As a further improvement of the invention, the push-up mechanism comprises a conduction base, a mounting groove, two push mechanisms and an aeration mechanism, wherein the conduction base is welded at the bottom of the inner side of the blending box, the mounting groove is formed in the middle of the conduction base, the lower end of the ultrasonic generator is mounted in the mounting groove, the push mechanisms are arranged on the outer side of the conduction base, the aeration mechanism is embedded in the upper end of the conduction base, and the two push mechanisms are symmetrically mounted on the outer sides of the left end and the right end of the conduction base.

As a further improvement of the invention, the pushing mechanism comprises a slide block, a spring rod, a shielding plate and a push plate, wherein the slide block is slidably arranged inside the outer side end of the conduction base, the lower end of the spring rod penetrates through the inside of the slide block in a clearance fit mode, the outer side end of the slide block is welded with the inner side end of the push plate, the shielding plate is welded on the upper surface of the inner side end of the push plate, the shielding plate is abutted against the surface of the outer side end of the conduction base, and the push plate is arranged on the outer side.

As a further improvement of the invention, the aeration mechanism comprises a transmission hole, aeration holes, opening and closing sheets and a torsion shaft, wherein the transmission hole is arranged in the transmission base, the lower end of the transmission hole is communicated with the inside of the installation groove, the aeration hole is embedded in the upper end of the transmission base, the aeration holes are communicated with the upper end of the transmission hole, the opening and closing sheets are arranged in the aeration holes and are hinged with the inside of the transmission base through the torsion shaft, twelve aeration holes are arranged, and two opening and closing sheets and two torsion shafts are arranged in each aeration hole.

The invention has the beneficial effects that:

1. supersonic generator vibrates, carry out the mixing to the inside material of mixing incasement portion, make toggle mechanism extrude the expansion hose through the vibration, change inside atmospheric pressure, spray atmospheric pressure through the fumarole, dial the board and stir in the stripper plate outside, pass the silica gel granule that the outside dispersed was carried out to the in-process of will vibrating and the middle part is gone on, it is close to supersonic generator to improve the silica gel granule, thereby ensure that supersonic generator carries out comprehensive misce bene to silica gel granule, methyl alcohol solution and 3-aminopropyl triethoxysilane.

2. The slider carries out the elasticity extrusion on the spring beam, it reciprocates in the conduction base outside to have driven the push pedal, the vibration that supersonic generator produced simultaneously conducts through the mounting groove, enter into the conduction hole inside, the atmospheric pressure of aeration downthehole portion changes at this moment, promote the switching piece round torsion shaft up rotate, open the aeration hole, carry out aeration work, up push up the silica gel granule of vibration in-process whereabouts, improve the comprehensive dispersion mixing effect of silica gel granule.

Drawings

FIG. 1 is a schematic structural diagram of a new semiconductor material preparation machine for treating phenol-containing wastewater according to the present invention.

Fig. 2 is a schematic diagram of the internal structure of a blending mechanism according to the present invention.

Fig. 3 is a schematic structural diagram of a backflow mechanism according to the present invention.

FIG. 4 is a schematic diagram of a top view and a partially enlarged structure of a toggle mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a push-up mechanism according to the present invention.

Fig. 6 is a schematic structural view of a pushing mechanism of the present invention.

Fig. 7 is a schematic structural diagram of an aeration mechanism of the present invention.

In the figure: the device comprises a blending mechanism-1, a top cover-2, an ultrasonic generator-3, a liquid outlet pipe-4, a blending box-11, a partition plate-12, a backflow mechanism-13, an upward pushing mechanism-14, a toggle mechanism-131, a flexible hose-132, an air injection hole-133, an extrusion plate-31 a, a spring-31 b, an extrusion rod-31 c, a toggle plate-31 d, a bump-31 e, a conduction base-141, an installation groove-142, a push mechanism-143, an aeration mechanism-144, a slide block-43 a, a spring rod-43 b, a shielding plate-43 c, a push plate-43 d, a conduction hole-44 a, an aeration hole-44 b, an opening and closing sheet-44 c and a torsion shaft-44 d.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 4:

the invention relates to a new semiconductor material preparation machine for treating phenolic wastewater, which structurally comprises a blending mechanism 1, a top cover 2, an ultrasonic generator 3 and a liquid outlet pipe 4, wherein the top of the blending mechanism 1 is provided with the top cover 2, the middle part of the ultrasonic generator 3 penetrates through the top cover 2, the lower end of the ultrasonic generator 3 is arranged at the bottom of the inner side of the blending mechanism 1, the liquid outlet pipe 4 is embedded at the lower right end of the blending mechanism 1 and communicated with the blending mechanism, the blending mechanism 1 comprises a blending box 11, a partition plate 12, a backflow mechanism 13 and an upward pushing mechanism 14, the partition plate 12 is arranged in the blending box 11, the top cover 2 is arranged in the top end of the blending box 11, the surface of the partition plate 12 is provided with the backflow mechanism 13, the upward pushing mechanism 14 is arranged at the bottom of the inner side of the blending box 11, the lower end of the ultrasonic generator 3 is connected with the inner part of the upward pushing mechanism 14, and the outer side end of the upward pushing mechanism 14 is abutted against the surface of the partition plate 12, ultrasonic generator 3 and push up 14 all are equipped with threely to the equidistance distributes inside mixing case 11, does benefit to and carries out effectual comprehensive mixing to the silica gel granule of mixing case 11 inside, methanol solution and 3-aminopropyl triethoxysilane.

Wherein, it includes toggle mechanism 131, bellows 132, fumarole 133 to return mechanism 13, toggle mechanism 131 right side surface is fixed mutually with bellows 132 one end to the bellows 132 other end is fixed mutually with baffle 12 surface, fumarole 133 inlays inside toggle mechanism 131 to fumarole 133 link up mutually with bellows 132 is inside, bellows 132 is fold type structure to adopt the rubber material to have certain resilience, do benefit to and produce atmospheric pressure when extrudeing the resilience.

Wherein, toggle mechanism 131 includes stripper plate 31a, spring 31b, stripper bar 31c, dials board 31d, lug 31e, the inside spring 31b that is equipped with of stripper plate 31a, spring 31b welds mutually with stripper bar 31c one end to the stripper bar 31c other end is fixed mutually with the inboard surface of dial board 31d, stripper bar 31c adopts clearance fit to install inside stripper plate 31a, fumarole 133 inlays inside stripper plate 31a, the outside surface of dial board 31d is equipped with lug 31e, spring 31b, stripper bar 31c and dial board 31d all are equipped with two to be symmetrical both ends around stripper plate 31a, do benefit to synchronous extrusion, accelerate to going on ultrasonic generator 3 to kick-back toward outside dispersed silica gel granule.

The specific use mode and function of the embodiment are as follows:

in the invention, silica gel particles, methanol solution and 3-aminopropyltriethoxysilane are placed in a blending box 11, a top cover 2 is covered, an ultrasonic generator 3 extends into the blending box 11, the bottom of the ultrasonic generator 3 is arranged in the middle end of an upward pushing mechanism 14, then the ultrasonic generator 3 is started to oscillate, the ultrasonic generator 3 oscillates to blend materials in the blending box 11, a toggle mechanism 131 extrudes a flexible hose 132 through oscillation in the blending process, the flexible hose 132 expands and contracts to change the internal air pressure, the air pressure is sprayed through an air vent 133, a spring 31b is extruded through an extrusion rod 31c, a toggle plate 31d is toggled outside an extrusion plate 31a, and the silica gel particles dispersed to the outside in the oscillating process are pushed to the middle part, the silica gel particles are improved to be close to the ultrasonic generator 3, so that the ultrasonic generator 3 can be used for completely and uniformly mixing the silica gel particles, the methanol solution and the 3-aminopropyltriethoxysilane.

Example 2:

as shown in fig. 5 to 7:

wherein, push-up mechanism 14 is including conduction base 141, mounting groove 142, pushing mechanism 143, aeration mechanism 144, conduction base 141 welds in the inboard bottom of mixing case 11 to conduction base 141 middle part is equipped with mounting groove 142, supersonic generator 3 lower extreme is installed inside mounting groove 142, pushing mechanism 143 is established in the conduction base 141 outside, aeration mechanism 144 inlays inside in conduction base 141 upper end, pushing mechanism 143 is equipped with two altogether to be bilateral symmetry and install in the both ends outside about conduction base 141, do benefit to and pass the sunken silica gel granule in both ends about conduction base 141 up, avoid the silica gel granule to fall through the oscillation, improve the up effect that floats of silica gel granule.

Wherein, pushing mechanism 143 includes slider 43a, spring beam 43b, sunshade 43c, push pedal 43d, slider 43a slidable mounting is inside at conduction base 141 outside end to spring beam 43b lower extreme adopts clearance fit to run through inside slider 43a, slider 43a outside end welds with the inboard end of push pedal 43d, the inboard end upper surface welding of push pedal 43d has sunshade 43c, and sunshade 43c and conduction base 141 outside end surface are inconsistent, push pedal 43d is the inclination and installs in the conduction base 141 outside, does benefit to the bearing area of push pedal 43d to the silica gel granule, improves the thrust that floats up to the silica gel granule simultaneously, ensures that the silica gel granule falls behind effectual upwards floating.

Wherein the aeration mechanism 144 comprises a transmission hole 44a, an aeration hole 44b, an opening and closing sheet 44c, and a torsion shaft 44d, the transmission hole 44a is arranged inside the transmission base 141, and the lower end of the conducting hole 44a is communicated with the inside of the mounting groove 142, the aeration hole 44b is embedded inside the upper end of the conducting base 141, the aeration hole 44b is communicated with the upper end of the conducting hole 44a, an opening and closing sheet 44c is arranged in the aeration hole 44b, and the opening and closing sheet 44c is hinged with the inside of the conduction base 141 by a torsion shaft 44d, twelve aeration holes 44b are provided, and two opening and closing pieces 44c and two torsion shafts 44d are arranged in each aeration hole 44b, which is beneficial to the vibration force generated by the ultrasonic generator 3 in the process of oscillation, thereby make the inside aeration that produces of aeration hole 44b, upwards aerate the silica gel granule that falls, improve the comprehensive dispersion mixing effect of silica gel granule.

The specific use mode and function of the embodiment are as follows:

in the invention, the ultrasonic generator 3 vibrates and simultaneously elastically deforms the spring rod 43b, at this time, the slide block 43a elastically extrudes on the spring rod 43b to drive the push plate 43d to move up and down on the outer side of the conduction base 141, and simultaneously, the spring rod 43b is shielded by the up-and-down movement of the shield plate 43c, so that the spring rod 43b is prevented from contacting with liquid for a long time, the spring rod 43b is ensured to keep elasticity, simultaneously, the vibration generated by the ultrasonic generator 3 is conducted through the installation groove 142 and enters the conduction hole 44a, at this time, the air pressure in the aeration hole 44b is changed, the opening and closing piece 44c is pushed to rotate upwards around the torsion shaft 44d, the aeration hole 44b is opened for aeration work, the falling silica gel particles in the vibration process are pushed upwards, and the comprehensive dispersion and blending effect of the silica gel particles is improved, the torsion shaft 44d can automatically reset the opening/closing piece 44c, thereby preventing silica gel particles and liquid from entering the aeration hole 44 b.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides a new material preparation machine of semiconductor for containing phenol waste water treatment, its structure includes mixing mechanism (1), top cap (2), supersonic generator (3), drain pipe (4), mixing mechanism (1) top is equipped with top cap (2), supersonic generator (3) middle part runs through inside top cap (2) to supersonic generator (3) lower extreme is established in mixing mechanism (1) inboard bottom, drain pipe (4) inlay mixing mechanism (1) right side lower extreme and link up its characterized in that mutually:

mixing mechanism (1) includes mixing case (11), baffle (12), reflux mechanism (13), push up mechanism (14), mixing case (11) is inside to be equipped with baffle (12) to top cap (2) are installed inside mixing case (11) top, baffle (12) surface is equipped with reflux mechanism (13), push up mechanism (14) are installed in mixing case (11) inboard bottom to supersonic generator (3) lower extreme is connected with push up mechanism (14) is inside, push up mechanism (14) outside end and baffle (12) surface are inconsistent.

2. The new semiconductor material preparation machine for phenolic wastewater treatment as set forth in claim 1, characterized in that: the backflow mechanism (13) comprises a toggle mechanism (131), a telescopic hose (132) and an air injection hole (133), the right side surface of the toggle mechanism (131) is fixed to one end of the telescopic hose (132), the other end of the telescopic hose (132) is fixed to the surface of the partition plate (12), the air injection hole (133) is embedded inside the toggle mechanism (131), and the air injection hole (133) is communicated with the inside of the telescopic hose (132).

3. The new semiconductor material preparation machine for phenolic wastewater treatment as set forth in claim 2, characterized in that: toggle mechanism (131) are including stripper plate (31a), spring (31b), stripper rod (31c), dial board (31d), lug (31e), stripper plate (31a) inside is equipped with spring (31b), spring (31b) and stripper rod (31c) one end weld mutually to the stripper rod (31c) other end is fixed mutually with the inboard surface of dialling board (31d), stripper rod (31c) adopt clearance fit to install inside stripper plate (31a), fumarole (133) are inlayed inside stripper plate (31a), it is equipped with lug (31e) to dial board (31d) outside surface.

4. The new semiconductor material preparation machine for phenolic wastewater treatment as set forth in claim 1, characterized in that: push up mechanism (14) including conduction base (141), mounting groove (142), thrust unit (143), aeration mechanism (144), conduction base (141) weld in mixing case (11) inboard bottom to conduction base (141) middle part is equipped with mounting groove (142), supersonic generator (3) lower extreme is installed inside mounting groove (142), thrust unit (143) are established in conduction base (141) outside, aeration mechanism (144) inlay inside conduction base (141) upper end.

5. The new semiconductor material preparation machine for phenolic wastewater treatment as set forth in claim 4, characterized in that: the pushing mechanism (143) comprises a sliding block (43a), a spring rod (43b), a shielding plate (43c) and a pushing plate (43d), the sliding block (43a) is slidably mounted inside the outer end of the conduction base (141), the lower end of the spring rod (43b) penetrates through the sliding block (43a) in a clearance fit mode, the outer end of the sliding block (43a) is welded with the inner end of the pushing plate (43d), the shielding plate (43c) is welded on the upper surface of the inner end of the pushing plate (43d), and the shielding plate (43c) is abutted to the surface of the outer end of the conduction base (141).

6. The new semiconductor material preparation machine for phenolic wastewater treatment as set forth in claim 4, characterized in that: the aeration mechanism (144) comprises a transmission hole (44a), an aeration hole (44b), an opening and closing sheet (44c) and a torsion shaft (44d), wherein the transmission hole (44a) is arranged inside the transmission base (141), the lower end of the transmission hole (44a) is communicated with the inside of the installation groove (142), the aeration hole (44b) is embedded inside the upper end of the transmission base (141), the aeration hole (44b) is communicated with the upper end of the transmission hole (44a), the opening and closing sheet (44c) is arranged inside the aeration hole (44b), and the opening and closing sheet (44c) is hinged with the inside of the transmission base (141) through the torsion shaft (44 d).

Images