CN111282348A - Atmosphere natural source pollution purifying equipment - Google Patents

Abstract

The invention discloses an atmosphere natural source pollution purification device, which structurally comprises an access port, a layer-by-layer processing box and a fixed base, wherein the access port is connected with a bottom sinking barrel, a guide connection pipe is welded on the outer surface of the bottom sinking barrel and is communicated with the bottom sinking barrel, atmosphere can be static for a certain time through an inner through port to enable dust in the atmosphere to move downwards, an inner overlapped arc can swing inwards along with the conflicting force, the dust can fall on an arc abutting surface to sink an inclined top angle through the force between fork stabilizing angles, the dust is adhered in the inner part, when the dust sinks, the inlet of the dust can be expanded, a backflow port is reduced, the inner part is adhered, a propping edge pushes an outer rubber frame to swing towards one side along with the conflicting force of the atmosphere, the inner part plays a role in protecting and plays a role in reacting to the external force, the atmosphere arriving at the atmosphere can collide along with the radian of a propping triangle, the back-pushed atmosphere can be guided to back-pull when the internal impact pushes the atmosphere to back-run.

Description

Atmosphere natural source pollution purifying equipment

Technical Field

The invention belongs to the field of atmospheric pollution treatment, and particularly relates to an atmospheric natural source pollution purifying device.

Background

The natural source in the atmosphere is in contact with the outside air, the natural source is collected and processed, the natural source is processed from input to multi-stage, the natural source is gradually increased layer by layer to enable the atmosphere to reach the standard of releasing the natural source back to the outside, and the natural source is output.

Based on the above findings, the present inventors found that the existing air pollution purifying equipment mainly has the following disadvantages, for example:

1. when the natural source is contacted with the outside air to some extent, a plurality of dust is carried between the natural source and the outside air, the dust is firstly precipitated when the first layer is treated, and after the dust is precipitated at the front end, the natural source in the later batch is poured in, so that the natural source is easily lifted again.

2. When the natural source is filled, the filling amount of the natural source can be only roughly controlled, whether the interior is full or not is difficult to control, when the interior is full of atmosphere, the rear end is filled continuously, the inside atmosphere can form a pushed air port, and the atmosphere originally placed in the interior is pushed out.

Therefore, the pollution purifying equipment for the natural source of the atmosphere needs to be provided.

Disclosure of Invention

In order to solve the problems that after the natural source is contacted with the outside air, a plurality of dust is mixed between the natural source and the outside air, the dust is precipitated firstly during first-layer treatment, the natural source is poured into a second sequence after the dust at the front end is precipitated, the natural source in a later batch is easier to lift up again, when the natural source is poured into the natural source, the pouring amount of the natural source can be only roughly controlled, whether the inside is full is difficult to control, when the inside is filled with the atmosphere, the rear end is continuously poured into the natural source, the inside atmosphere forms a pushed air port, and the atmosphere originally arranged in the inside is pushed out.

The invention relates to a device for purifying natural atmospheric pollution, which is realized by the following specific technical means:

the structure of the device comprises an access port, a layer-by-layer treatment box, a fixed base, a guide connection pipe and a bottom sinking barrel.

The access port is connected with the bottom-sinking barrel, the guide connecting pipe is welded on the outer surface of the bottom-sinking barrel and is communicated with the bottom-sinking barrel, one end, far away from the bottom-sinking barrel, of the guide connecting pipe is connected with the layer-by-layer treatment box, and the bottom end of the layer-by-layer treatment box is connected with the upper surface of the fixed base.

As a further improvement of the invention, the bottom sinking barrel comprises an inner through hole, a single dust inlet, an inner lug, an outer pocket shell and a placing grid, the inner through hole is embedded in the outer pocket shell, the single dust inlet is arranged in the inner through hole, the inner lug is arranged on the inner wall of the outer pocket shell, the placing grid is embedded in the outer pocket shell, the single dust inlet is uniformly distributed in the horizontal direction, and the inner lug is of a semi-arc structure.

As a further improvement of the invention, the single dust inlet comprises a clamping notch, two consequent edges, an elliptical core opening, a spacer block and a rubber arc, the clamping notch is embedded in the rubber arc, the consequent edges are abutted against the outer surface of the spacer block, the elliptical core opening is arranged in the spacer block, the elliptical core opening is in an elliptical structure, and the consequent edges are symmetrically distributed.

As a further improvement of the invention, the front edge comprises a reverse buckling opening, a fork stabilizing angle, a folding arc and an outer pocket layer, the reverse buckling opening is connected with the outer pocket layer, the folding arc is arranged inside the outer pocket layer, the fork stabilizing angle is attached to the outer surface of the folding arc, the folding arc is of an arc structure, and the fork stabilizing angle is made of rubber materials and has certain conflict performance.

As a further improvement of the invention, the inner convex block comprises an extension block, arc abutting surfaces, an inclination angle, a middle support and an extension angle, wherein the extension angle is connected with the inclination angle, the inclination angle abuts against the inner wall of the extension block, the arc abutting surfaces are arranged inside the extension block, the inclination angle abuts against the outer surface of the middle support, the inclination angle is provided with two and symmetrically distributed, and the arc abutting surfaces are of an arc structure.

As a further improvement of the invention, the access port comprises an outer protective layer, an inner port, a reverse arc port and a forward angle, the inner port is embedded in the outer protective layer, the reverse arc port is connected with the forward angle, and the reverse arc port is made of rubber materials and has certain impact buffering property.

As a further improvement of the invention, the trim angle comprises a supporting edge, a middle pulling strip, an outer rubber frame and a contracted arc, the supporting edge is arranged on the outer surface of the outer rubber frame, the middle pulling strip is arranged in the outer rubber frame, the contracted arc is connected with the outer rubber frame, and the supporting edge is in a semi-arc structure.

As a further improvement of the invention, the reverse arc opening comprises a resisting triangle, an outer resisting block and an adhesive tape separating block, the resisting triangle is attached to the outer surface of the adhesive tape separating block, one end of the adhesive tape separating block, which is far away from the resisting triangle, is connected with the outer resisting block, one end of the resisting triangle is arc-shaped, the other end of the resisting triangle is in a sharp-angled state, and the adhesive tape separating block is in a shape structure.

Compared with the prior art, the invention has the following beneficial effects:

1. its atmosphere will carry out the stillness of certain time through interior opening, let the inside dust of atmosphere down move, let inside fold arc take the same place and follow the power of contradicting and swing toward interior, link up the power between living by the steady angle of fork, self form lets link up the better firm linking in position and outside, will carry out the atress to the both sides of gluing the arc when following the limit indent, the dust can fall on the arc supports the face, move to the top angle of inclining, the dust is arranged in inside and is carried out the adhesion, can be when the dust sinks the end, it enlarges to enter the mouth, backward flow mouthful reduces, prevent its past activity, and carry out the adhesion to inside.

2. The conflict that supports the safe edge and follows atmospheric pushes outer gluey frame toward one side swing, plays the effect of protection to inside to play the effect of reaction to external force, let what the atmosphere can be smooth be certain angle leading-in, when subsequent atmosphere when the atmosphere of promotion front end, its atmosphere of contradicting will carry out the recoil along the radian to the triangle, can strike when promoting the atmosphere run back in inside, guide the atmosphere of counterthrust and pull back.

Drawings

FIG. 1 is a schematic structural diagram of an atmospheric natural source pollution purifying device according to the present invention.

Fig. 2 is a schematic front view of the inner structure of the bottom-sinking bucket of the present invention.

FIG. 3 is a schematic front view of an internal structure of a single dust inlet according to the present invention.

Fig. 4 is a schematic front view of an internal structure along a side of the present invention.

Fig. 5 is a front view of an inner boss according to the present invention.

Fig. 6 is a front view of an internal structure of an inlet according to the present invention.

Fig. 7 is a schematic view of an interior structure of a front view of the present invention.

Fig. 8 is a schematic front view of the inner structure of the reverse arc opening of the present invention.

In the figure: the device comprises an access port-tt, a layer-by-layer treatment box-tt, a fixed base-tt, a guide connection pipe-tt, a bottom sinking barrel-tt, an inner through port-qw, a single dust inlet-qw, an inner convex block-qw, an outer pocket shell-qw, a grid-qw, a clamping notch-a 1, a smooth side-a 2, an elliptical core port-a 3, a spacer block-a 4, a rubber arc-a 5, a reverse buckling port-g, a fork stabilizing angle-g, an arc folding-g, an outer pocket layer-g, a delay block-hh, an arc abutting surface-hh, an inclined vertex angle-hh, a middle support-hh, an expansion angle-hh, an outer protective layer-zx, an inner port-zx, a reverse arc port-zx, a smooth angle-zx, a supporting edge-tt, a middle pulling strip-tt, an outer rubber frame-tt, a contracted arc-tt, a triangle-ss, an outer supporting block-ss and a rubber strip-ss.

Detailed Description

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

example 1:

as shown in figures 1 to 5:

the invention provides a purifying device for natural atmospheric source pollution, which structurally comprises an access port tt01, a layer-by-layer treatment box tt02, a fixed base tt03, a guide connection pipe tt04 and a bottom settling barrel tt 05.

The access port tt01 is connected with the bottom-sinking barrel tt05, the guide connection pipe tt04 is welded on the outer surface of the bottom-sinking barrel tt05 and is communicated with the bottom-sinking barrel tt05, one end of the guide connection pipe tt04, which is far away from the bottom-sinking barrel tt05, is connected with the layer-by-layer treatment tank tt02, and the bottom end of the layer-by-layer treatment tank tt02 is connected with the upper surface of the fixed base tt 03.

The bottom sinking barrel tt05 comprises an inner through opening qw11, a single dust inlet qw22, an inner convex block qw33, an outer pocket shell qw44 and a placing grid qw55, wherein the inner through opening qw11 is embedded in the outer pocket shell qw44, the single dust inlet qw22 is arranged in the inner through opening qw11, the inner convex block qw33 is arranged on the inner wall of the outer pocket shell qw44, the placing grid qw55 is embedded in the outer pocket shell qw44, the single dust inlet qw22 is uniformly distributed in the horizontal direction, the inner convex block qw33 is of a half arc-shaped structure, the inner through opening qw11 is used for gathering one space of the atmosphere, an inlet above the single dust inlet qw22 is larger than an inlet on the lower side, the inner convex block qw33 holds precipitated dust, and the placing grid 55 is used for placing a fixing grid for placing dust.

The single dust inlet qw22 comprises a clamping notch a1a, a forward edge a2a, an elliptical core opening a3a, a spacer block a4a and a rubber arc a5a, wherein the clamping notch a1a is embedded into the rubber arc a5a, the forward edge a2a abuts against the outer surface of the spacer block a4a, the elliptical core opening a3a is installed inside the spacer block a4a, the elliptical core opening a3a is of an elliptical structure, two forward edges a2a are symmetrically distributed, the elliptical core openings a3a support the approximate touch force of the outer layer, the forward edge a2a enables the outer layer to move in a self radian, the two sides of the rubber arc a5a bear external force, and the bending angle position of the clamping notch a1a is controlled when the clamping notch a1 is integrally stressed.

Wherein, it includes anti-knot mouth g01, fork steady angle g02, folds arc g03, outer pocket layer g04 to be in the same direction as limit a2a, anti-knot mouth g01 is connected with outer pocket layer g04, outer pocket layer g04 internally mounted has fold arc g03, it has fork steady angle g02 to fold arc g03 surface laminating, it is the arc structure to fold arc g03, it is made by the rubber material to fork steady angle g02, has certain conflict nature, anti-knot mouth g01 can be contradicted by it when the dust upwards raises, and fork steady angle g02 self form lets the better firm linking in linking position and the outside, and it bears external power to fold arc g03 on a large scale.

The inner bump qw33 comprises an extension block hh1, an arc abutting surface hh2, an inclined vertex angle hh3, a middle support hh4 and an extension angle hh5, wherein the extension angle hh5 is connected with the inclined vertex angle hh3, the inclined vertex angle hh3 abuts against the inner wall of the extension block hh1, the arc abutting surface hh2 is mounted inside the extension block hh1, the inclined vertex angle hh3 abuts against the outer surface of the middle support hh4, the inclined vertex angle hh3 is provided with two symmetrical distribution points, the arc abutting surface hh2 is of an arc-shaped structure, the arc abutting surface hh2 abuts against the outer layer force, so that the arc abutting surface is inwardly expanded, the inclined vertex angle hh3 is supported in a certain inclination direction when no external force exists, the direction is controlled, and the extension angle hh5 is in an extending state when the joint part is stressed.

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

in the invention, an external natural atmospheric source is led into the interior from an access port tt01 to be treated in a first link, the atmosphere is static for a certain time through an inner through port qw11, dust in the atmosphere is enabled to move downwards and is sunk into a placing grid qw55 along a single dust inlet qw22, the dust is firstly collided with an outer pocket layer g04 of a forward edge a2a, an inner overlapped arc g03 swings inwards along the collision force, the force between the two sides of a glue arc a5a is connected by a fork stabilizing angle g02, the forward edge a2a is inwards concave, meanwhile, an elliptical core port a3a is pressed to have a certain reverse force, the forward edge a2a is inwards concave, the two sides of the glue arc a5a are stressed, the glue arc a5a clamps the notch a1 to bend and recess, so that the dust can be led into the interior from the placing grid from the upper side smoothly, the dust is enabled to be put into the grid tt01, the dust can be pressed on a vertex angle hqh 638 and is connected with a vertex angle h of the dust falling surface and can be connected with a corner h 638 and can be stretched along a vertex angle h 638, the inner convex block qw33 is formed to have a certain degree of unevenness, and dust is placed inside for adhesion.

Example 2:

as shown in fig. 6 to 8:

wherein, the access mouth tt01 includes outer jacket zx1, interior mouth zx2, anti-arc mouth zx3, is in the same direction as angle zx4, interior mouth zx2 is embedded inside outer jacket zx1, anti-arc mouth zx3 is connected with in the same direction as angle zx4, anti-arc mouth zx3 is made by the rubber material, has certain impact cushioning nature, interior mouth zx2 lets atmosphere have certain input direction, and the gas that is contradicted in the control of angle zx4 is carried to certain direction, and anti-arc mouth zx3 when having gas and reversely pushed, will rush into inside, guide its ring wire winding.

The forward angle zx4 comprises a supporting edge tt1, a middle tear strip tt2, an outer rubber frame tt3 and a shrinking arc tt4, the supporting edge tt1 is mounted on the outer surface of the outer rubber frame tt3, the middle tear strip tt2 is mounted inside the outer rubber frame tt3, the shrinking arc tt4 is connected with the outer rubber frame tt3, the supporting edge tt1 is of a half-arc structure, the shrinking arc tt4 is in a shrinking state when being impacted by external force, the external conveying space is enlarged, the supporting edge tt1 plays a role in protecting the inside and playing a role in reacting to the external force, the middle tear strip tt2 is arranged inside the whole, and the outer layer is in a swinging state when being stressed.

The reverse arc zx3 comprises a pushing triangle ss01, an outer pushing block ss02 and a rubber separation strip ss03, the pushing triangle ss01 is attached to the outer surface of the rubber separation strip ss03, one end, far away from the pushing triangle ss01, of the rubber separation strip ss03 is connected with the outer pushing block ss02, one end of the pushing triangle ss01 is arc-shaped, the other end of the pushing triangle ss 3624 is in a sharp-angled state, the rubber separation strip ss03 is of an S-shaped structure, the outer pushing block ss02 fixes approximate overall force, the rubber separation strip ss03 plays a role in protecting the joint parts of the two sides, and the pushing triangle ss01 supports large-area force of the outer side.

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

in the invention, when the atmosphere is introduced through the inner opening zx2, the atmosphere which is firstly introduced is conveyed inwards along the guiding direction of the forward angle zx4, the supporting edge tt1 pushes the outer rubber frame tt3 to swing towards one side along with the collision of the atmosphere, the inner middle pull strip tt2 moves along the direction of the force, the arc shrinkage tt4 is also in a contraction state in the swinging process of the outer rubber frame tt3, the atmosphere can be smoothly introduced at a certain angle, when the subsequent atmosphere pushes the atmosphere at the front end, the gas in the interior runs back and impacts the supporting triangle ss01 and is collided by the inner outer supporting block ss02, the space rubber strip ss03 between the inner supporting block and the supporting atmosphere is protected, and the collided atmosphere can impact back along the radian of the supporting triangle ss 01.

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 (8)

1. The structure of the atmospheric natural source pollution purification equipment comprises an access port (tt01), a layer-by-layer treatment box (tt02), a fixed base (tt03), a guide pipe (tt04) and a bottom settling barrel (tt05), and is characterized in that:

the inlet (tt01) is connected with the bottom sinking barrel (tt05), the guide connection pipe (tt04) is welded on the outer surface of the bottom sinking barrel (tt05) and is communicated with the bottom sinking barrel, one end, away from the bottom sinking barrel (tt05), of the guide connection pipe (tt04) is connected with the layer-by-layer treatment box (tt02), and the bottom end of the layer-by-layer treatment box (tt02) is connected with the upper surface of the fixed base (tt 03).

2. The atmospheric natural source pollution purification device of claim 1, wherein: the bottom sinking barrel (tt05) comprises an inner through opening (qw11), a single dust inlet (qw22), an inner convex block (qw33), an outer pocket shell (qw44) and a placing grid (qw55), wherein the inner through opening (qw11) is embedded into the outer pocket shell (qw44), the single dust inlet (qw22) is arranged inside the inner through opening (qw11), the inner convex block (qw33) is arranged on the inner wall of the outer pocket shell (qw44), and the placing grid (qw55) is embedded into the outer pocket shell (qw 44).

3. The atmospheric natural source pollution purification device of claim 2, wherein: the single dust inlet (qw22) comprises a clamping notch (a1a), a forward edge (a2a), an elliptical core opening (a3a), a spacer block (a4a) and a rubber arc (a5a), wherein the clamping notch (a1a) is embedded into the rubber arc (a5a), the forward edge (a2a) abuts against the outer surface of the spacer block (a4a), and the elliptical core opening (a3a) is installed inside the spacer block (a4 a).

4. The atmospheric natural source pollution purification device of claim 3, wherein: it includes anti-knot mouth (g01), fork steady angle (g02), folds arc (g03), outer pocket layer (g04) to be in the same direction as limit (a2a), anti-knot mouth (g01) is connected with outer pocket layer (g04), outer pocket layer (g04) internally mounted has and folds arc (g03), it has fork steady angle (g02) to fold arc (g03) surface laminating.

5. The atmospheric natural source pollution purification device of claim 2, wherein: interior lug (qw33) is including extending piece (hh1), arc and supports face (hh2), inclination angle (hh3), well support (hh4), exhibition angle (hh5), exhibition angle (hh5) is connected with inclination angle (hh3), inclination angle (hh3) contradicts and prolongs piece (hh1) inner wall, prolong piece (hh1) internally mounted and support face (hh2) arc, inclination angle (hh3) contradicts in well support (hh4) surface.

6. The atmospheric natural source pollution purification device of claim 1, wherein: the access port (tt01) comprises an outer protective layer (zx1), an inner port (zx2), a reverse arc port (zx3) and a forward angle (zx4), wherein the inner port (zx2) is embedded into the outer protective layer (zx1), and the reverse arc port (zx3) is connected with the forward angle (zx 4).

7. The atmospheric natural source pollution purification device of claim 6, wherein: the forward angle (zx4) comprises a supporting edge (tt1), a middle pulling strip (tt2), an outer rubber frame (tt3) and a reducing arc (tt4), wherein the supporting edge (tt1) is installed on the outer surface of the outer rubber frame (tt3), the middle pulling strip (tt2) is installed inside the outer rubber frame (tt3), and the reducing arc (tt4) is connected with the outer rubber frame (tt 3).

8. The atmospheric natural source pollution purification device of claim 6, wherein: the reverse arc opening (zx3) comprises a pushing triangle (ss01), an outer pushing block (ss02) and a rubber separating strip (ss03), the pushing triangle (ss01) is attached to the outer surface of the rubber separating strip (ss03), and one end, far away from the pushing triangle (ss01), of the rubber separating strip (ss03) is connected with the outer pushing block (ss 02).

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