CN112963652A - Water conservancy air regenerating device - Google Patents

Abstract

The invention discloses a water conservancy air exchange device, which comprises a body, an exhaust pipe and a fixed block, wherein the fixed block is welded at the outer side position of the body, the body and the exhaust pipe are of an integrated structure, water drops attached to the surfaces of blades by water vapor can be absorbed by an absorption block, the extrusion block can extrude the inside of the extruded block by virtue of throwing force generated by rotation of an exhaust fan, so that most of water absorbed by the inside of the extruded block can be extruded into the inside of a discharge cavity, the condition that dust sucked from the outside can be attached to the outer surface of the blades due to the attachment of the water drops on the outer side of the blades is effectively avoided, the water in an inner connecting frame can be absorbed by a water absorption block, and the water absorption block can extend out towards the middle under the matching of elastic sheets by virtue of air flow drive generated by rotation of the exhaust fan, so that the contact area between the water absorption block and the outside can be increased, therefore, the air drying speed of the water inside the water absorption block can be increased.

Description

Water conservancy air regenerating device

Technical Field

The invention relates to the field of water conservancy, in particular to water conservancy air exchange equipment.

Background

The water conservancy ventilator is mainly used for carrying out the equipment of taking a breath to the water conservancy pipeline of carrying rivers, outwards washes except through the inside gas of water conservancy pipeline with the inside exhaust fan of water conservancy ventilator, and inside rethread air exhaust fan brings outside air current into water conservancy pipeline to can accomplish the work of taking a breath to the inside air current of water conservancy pipeline, based on the above-mentioned description the inventor finds that current water conservancy ventilator mainly has following not enough, for example:

because artificial hot spring's pipeline need take a breath the processing in discharging rivers into the hot spring pond, if the exhaust tube of water conservancy ventilator is installed perpendicularly in the upper end of pipeline, then appear the rivers vapor of heating in the pipeline and rise and get into the exhaust tube inside easily to can be attached to air exhaust fan, so make air exhaust fan blade attach to the dust of external suction easily, long-time accumulation then can make air exhaust fan rotate the condition that the air current appears declining.

Disclosure of Invention

In order to solve the problems, the invention provides water conservancy air exchange equipment.

In order to achieve the purpose, the invention is realized by the following technical scheme: a water conservancy air interchanger structurally comprises a machine body, an exhaust pipe and a fixed block, wherein the fixed block is welded at the outer side position of the machine body; the machine body comprises an air exhaust fan, an inner connecting pipe, an outer frame and an inner connecting frame, wherein the air exhaust fan is movably clamped with the inner part of the inner connecting pipe, the inner connecting pipe is fixed between the inner walls of the left end and the right end of the outer frame, and the inner connecting frame is embedded in the inner position of the inner connecting pipe.

As a further optimization of the invention, the exhaust fan comprises an absorption block, a discharge cavity, a fixing ring and blades, wherein the absorption block is embedded in the blades, the discharge cavity penetrates through the inner center of the blades, the inner sides of the blades are attached to the outer surface of the fixing ring, and the absorption block is made of polyether sponge material with strong water absorption.

As a further optimization of the invention, the absorption block comprises an extruded block, an extrusion block and a water permeable plate, the extrusion block is arranged at the inner position of the extruded block, the water permeable plate penetrates through the inner position of the extruded block, and the extrusion block can extrude the extruded block rightwards through the throwing force generated by the rotation of the mechanism.

As a further optimization of the invention, the extrusion block comprises a front push plate, a middle connecting rod, a boosting sheet and a rear plate, wherein the left side of the front push plate is fixed at the right side position of the middle connecting rod, the boosting sheet is arranged at the side of the middle connecting rod and the inner wall position of the rear plate, and the front push plate can slide outwards along the rear plate under the cooperation of the middle connecting rod through the inertia force generated by the outward extension of the mechanism.

As a further optimization of the invention, the inner connecting frame comprises a frame, a water absorption block and an elastic sheet, wherein the inner side of the water absorption block is attached to the inner wall of the frame, the elastic sheet is fixed between the inner wall of the water absorption block and the inner wall of the frame, and the water absorption block is made of wear-resistant polyether sponge.

As a further optimization of the invention, the water absorption block comprises a swinging piece, a built-in cavity and a soleplate, the swinging piece is fixed at the bottom position of the inner wall of the built-in cavity, the built-in cavity is embedded in the inner position of the soleplate, and the swinging piece is of a sheet structure made of nylon with high toughness.

As a further optimization of the invention, the base plate comprises a plate surface, a connecting block, a ventilating cavity and a bottom plate, wherein the plate surface is connected with the bottom plate through the connecting block, the ventilating cavity penetrates between the bottom of the plate surface and the upper surface of the bottom plate, and the ventilating cavity is of an internal and external through structure.

As a further optimization of the invention, the built-in cavity comprises a water bar, a guide cavity and a frame body, the water bar penetrates through the inner position of the frame body, the guide cavity and the frame body are of an integrated structure, and the guide cavity is of a hollow structure.

The invention has the following beneficial effects:

1. can absorb the drop of water that vapor adheres to on blade surface through absorbing the piece to rotate the power of getting rid of that produces through the air exhaust fan, can make the extrusion piece to the inside production extrusion that receives the extrusion piece, thereby make and receive the inside that most moisture of extrusion piece internal portion absorbed can be squeezed into the inside in discharge chamber, effectually avoided the blade outside can be because of adhering to the drop of water, the dust that leads to external suction can adhere to the condition at the blade surface.

2. Can absorb the inside moisture of inside of frame through the piece that absorbs water, the air current that rethread bleed fan rotated the production drives and to make the piece that absorbs water stretch out to the middle part under the cooperation of elasticity piece to can increase the area of contact of the piece that absorbs water and external, so can accelerate the air-dry speed of the inside moisture of piece that absorbs water, the effectual moisture of having avoided the bleed fan rotation to throw away has the most to stop the condition inside the frame of inscribed.

Drawings

Fig. 1 is a schematic structural view of a water ventilation apparatus according to the present invention.

FIG. 2 is a schematic top view of a half-section of the housing of the present invention.

FIG. 3 is a top half-sectional view of an extraction fan according to the present invention.

Fig. 4 is a schematic top half-section view of an absorbent block of the present invention.

FIG. 5 is a schematic top view of a half-section of the extrusion block of the present invention.

FIG. 6 is a top half-section structural view of the interposer frame of the present invention.

FIG. 7 is a schematic top view of a half-section of the absorbent block of the present invention.

FIG. 8 is a schematic top view of a half-section of the bottoming plate according to the present invention.

FIG. 9 is a top half-sectional view of the internal cavity of the present invention.

In the figure: the device comprises a machine body-1, an air suction pipe-2, a fixed block-3, an air suction fan-11, an inner connecting pipe-12, an outer frame-13, an inner connecting frame-14, an absorption block-a 1, a discharge cavity-a 2, a fixed ring-a 3, a blade-a 4, a squeezed block-a 11, a squeezed block-a 12, a water permeable plate-a 13, a front push plate-b 1, a middle connecting rod-b 2, a boosting sheet-b 3, a rear plate-b 4, a frame-c 1, a water absorption block-c 2, an elastic sheet-c 3, a swinging sheet-c 21, an inner cavity-c 22, a bottoming plate-c 23, a plate surface-d 1, a connecting block-d 2, an air permeable cavity-d 3, a bottom plate-d 4, a water diversion strip-e 1, a guide cavity-e 2 and a frame-e 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-5:

the invention provides water conservancy air interchanger which structurally comprises a machine body 1, an exhaust pipe 2 and a fixed block 3, wherein the fixed block 3 is welded at the outer side position of the machine body 1, and the machine body 1 and the exhaust pipe 2 are of an integrated structure; the machine body 1 comprises an air extracting fan 11, an inner connecting pipe 12, an outer frame 13 and an inner connecting frame 14, wherein the air extracting fan 11 is movably clamped with the inner part of the inner connecting pipe 12, the inner connecting pipe 12 is fixed between the inner walls of the left end and the right end of the outer frame 13, and the inner connecting frame 14 is embedded in the inner position of the inner connecting pipe 12.

The extraction fan 11 comprises an absorption block a1, a discharge cavity a2, a fixing ring a3 and a blade a4, wherein the absorption block a1 is embedded in the inner position of the blade a4, the discharge cavity a2 penetrates through the inner center position of the blade a4, the inner side of the blade a4 is attached to the outer surface of the fixing ring a3, the absorption block a1 is made of polyether sponge with strong water absorption, and water attached to the outer surface of the blade a4 can be absorbed through the absorption block a 1.

The absorption block a1 comprises a squeezed block a11, a squeezing block a12 and a water permeable plate a13, the squeezing block a12 is mounted at the inner position of the squeezed block a11, the water permeable plate a13 penetrates through the inner position of the squeezed block a11, the squeezing block a12 can squeeze the squeezed block a11 rightwards through throwing force generated by rotation of the mechanism, and therefore the squeezing block a12 can squeeze most of water in the squeezed block a11 into the mechanism.

The pressing block a12 comprises a front push plate b1, a middle connecting rod b2, a boosting sheet b3 and a rear plate b4, the left side of the front push plate b1 is fixed at the right side position of the middle connecting rod b2, the boosting sheet b3 is mounted at the edge side of the middle connecting rod b2 and the inner wall position of the rear plate b4, the front push plate b1 can slide and extend outwards along the rear plate b4 under the cooperation of the middle connecting rod b2 through the inertia force generated by the outward extension of a mechanism, so that the front push plate b1 can guide part of water extruded by an object between the inner side of the front push plate b1 and the right side of the rear plate b4, and the water is extruded outwards through the front push plate b1, so that the fluidity of the water can be enhanced, and the air drying speed of the water in the object can be accelerated.

The detailed use method and action of the embodiment are as follows:

in the invention, the air extracting fan 11 at the lower end in the machine body 1 rotates to draw outside air inwards into the hot spring pipeline, the absorbing block a1 can absorb water drops attached to the surface of the blade a4, the squeezing block a12 can squeeze the inside of the squeezed block a11 by the throwing force generated by the rotation of the air extracting fan 11, so that most of water absorbed by the inside of the squeezed block a11 can be squeezed into the discharging cavity a2, the water can be thrown outwards by the throwing force generated by the rotation of the air extracting fan 11, the backward thrust generated by the inside of the squeezed block a11 to the front push plate b1 can enable the front push plate b1 to be inwards contracted along the rear connecting plate b4 under the coordination of the middle connecting rod b2, so that the residual water in the squeezed block a11 can be squeezed into the space between the front push plate b1 and the middle connecting rod b2 by the front connecting rod b1, and the middle connecting rod b3 pushes the middle connecting rod b2 outwards to generate power, can outwards take out the moisture before preceding push pedal b1 and rearmounted board b4 to can accelerate moisture and be receiving the inside flow velocity of crowded piece a11, so can accelerate the air-dry speed of receiving the inside moisture of crowded piece a11, the effectual blade a4 outside of having avoided can be because of adhering to the drop of water, the dust that leads to external suction can adhere to the condition at blade a4 surface.

Example 2

As shown in fig. 6-9:

the inner frame 14 comprises a frame c1, a water absorption block c2 and an elastic sheet c3, the inner side of the water absorption block c2 is attached to the inner wall of the frame c1, the elastic sheet c3 is fixed between the inner wall of the water absorption block c2 and the inner wall of the frame c1, the water absorption block c2 is made of wear-resistant polyether sponge, and water falling to the inner side of an object can be absorbed through the water absorption block c 2.

The water absorption block c2 comprises a swing sheet c21, a built-in cavity c22 and a bottoming plate c23, wherein the swing sheet c21 is fixed at the bottom of the inner wall of the built-in cavity c22, the built-in cavity c22 is embedded in the inner position of the bottoming plate c23, the swing sheet c21 is of a sheet structure made of nylon with high toughness, and the swing sheet c21 can swing along the built-in cavity c22 through vibration generated by outward extension of a mechanism, so that air flow can be generated to accelerate air drying of water on the inner wall of an object.

The base plate c23 comprises a plate surface d1, an engagement block d2, a ventilation cavity d3 and a bottom plate d4, wherein the plate surface d1 is connected with the bottom plate d4 through the engagement block d2, the ventilation cavity d3 penetrates between the bottom of the plate surface d1 and the upper surface of the bottom plate d4, the ventilation cavity d3 is of an internal and external through structure, and external air flow can be introduced into the ventilation cavity d 3.

The built-in cavity c22 comprises a water bar e1, a guide cavity e2 and a frame e3, the water bar e1 penetrates through the inner position of the frame e3, the guide cavity e2 and the frame e3 are of an integrated structure, and the guide cavity e2 is of a hollow structure and can guide water in the frame e3 into the water bar e 1.

The detailed use method and action of the embodiment are as follows:

in the invention, most of the moisture thrown out by the rotation of the air extracting fan 11 stays in the internal frame 14, so that dust is easy to stay in the internal frame 14, the rotation space of the air extracting fan 11 is blocked after long-time accumulation, the moisture in the internal frame 14 can be absorbed by the water absorbing block c2, the water absorbing block c2 can extend out to the middle under the matching of the elastic sheet c3 under the driving of the air flow generated by the rotation of the air extracting fan 11, so that the contact area between the water absorbing block c2 and the outside can be increased, the air drying speed of the moisture in the water absorbing block c2 can be increased, the swinging sheet c21 can swing to generate air flow by the vibration generated by the outward extension of the water absorbing block c2, and the air permeable chamber d3 can bring the outside air flow into the air permeable chamber d3, so that the air drying speed of the moisture in the water absorbing block c2 can be further increased, and water in the built-in cavity c22 can be guided into the water bar e1 through the guide cavity e2, so that the water bar e1 can absorb water and contact with the outside to accelerate the air drying speed of the water, and the situation that most of the water thrown out by the rotation of the air extracting fan 11 stays in the inner frame 14, so that dust easily stays in the inner frame 14 is effectively avoided.

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 utility model provides a water conservancy air regenerating device, its structure includes organism (1), exhaust tube (2), fixed block (3) weld in the outside position of organism (1), its characterized in that: the machine body (1) and the exhaust pipe (2) are of an integrated structure;

the machine body (1) comprises an air extracting fan (11), an inner connecting pipe (12), an outer frame (13) and an inner connecting frame (14), wherein the air extracting fan (11) is movably clamped with the inner part of the inner connecting pipe (12), the inner connecting pipe (12) is fixed between the inner walls of the left end and the right end of the outer frame (13), and the inner connecting frame (14) is embedded in the inner position of the inner connecting pipe (12).

2. A water conservancy air interchanger according to claim 1 wherein: the air exhaust fan (11) comprises an absorption block (a1), a discharge cavity (a2), a fixing ring (a3) and a blade (a4), wherein the absorption block (a1) is embedded in the inner position of the blade (a4), the discharge cavity (a2) penetrates through the inner center position of the blade (a4), and the inner side of the blade (a4) is attached to the outer surface of the fixing ring (a 3).

3. A water conservancy air interchanger according to claim 2 wherein: the absorption block (a1) comprises a squeezed block (a11), a squeezing block (a12) and a water permeable plate (a13), wherein the squeezing block (a12) is installed at the inner position of the squeezed block (a11), and the water permeable plate (a13) penetrates through the inner position of the squeezed block (a 11).

4. A water conservancy air interchanger according to claim 3 wherein: the extrusion piece (a12) includes preceding push pedal (b1), well extension bar (b2), boosting piece (b3), rearmounted board (b4), the right side position of well extension bar (b2) is fixed in the left side of preceding push pedal (b1), the side of boosting piece (b3) installation in well extension bar (b2) and the inner wall position of rearmounted board (b 4).

5. A water conservancy air interchanger according to claim 1 wherein: the inner connecting frame (14) comprises a frame (c1), a water absorption block (c2) and an elastic sheet (c3), the inner side of the water absorption block (c2) is attached to the inner wall of the frame (c1), and the elastic sheet (c3) is fixed between the inner wall of the water absorption block (c2) and the inner wall of the frame (c 1).

6. A water conservancy air exchange device according to claim 5, wherein: the water absorption block (c2) comprises a swing piece (c21), a built-in cavity (c22) and a bottom plate (c23), wherein the swing piece (c21) is fixed at the bottom position of the inner wall of the built-in cavity (c22), and the built-in cavity (c22) is embedded in the inner position of the bottom plate (c 23).

7. A water conservancy air exchange device according to claim 6, wherein: the base plate (c23) comprises a plate surface (d1), a connecting block (d2), a ventilating cavity (d3) and a bottom plate (d4), wherein the plate surface (d1) is connected with the bottom plate (d4) through the connecting block (d2), and the ventilating cavity (d3) penetrates between the bottom of the plate surface (d1) and the upper surface of the bottom plate (d 4).

8. A water conservancy air exchange device according to claim 6, wherein: the built-in cavity (c22) comprises a water bar (e1), a guide cavity (e2) and a frame body (e3), the water bar (e1) penetrates through the inner position of the frame body (e3), and the guide cavity (e2) and the frame body (e3) are of an integrated structure.

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