CN112611062A - Air purification equipment capable of effectively improving air humidity - Google Patents

Abstract

The invention discloses air purification equipment capable of effectively improving air humidity, which structurally comprises an atomization mechanism, a control panel, an aspirator, an engine body and rollers, wherein the atomization mechanism is embedded and arranged right above the aspirator, the control panel is embedded and fixedly arranged right above the engine body, the aspirator is embedded and arranged right above the rollers, the engine body is positioned right below the control panel, the rollers are movably clamped and arranged right below the atomization mechanism, the diameter of each blade is consistent with the inner contour of a linkage ring, magnetic beads and sliding grooves are arranged in the linkage rings, the blades can rotate together by being adsorbed on the transverse surfaces of the blades through the magnetic beads in the rotating process, water stains attached to the surfaces of the blades are guided into the sliding grooves, and finally the water stains are discharged outwards through penetrating ports connected with the sliding grooves in series.

Description

Air purification equipment capable of effectively improving air humidity

Technical Field

The invention belongs to the field of purification equipment, and particularly relates to air purification equipment capable of effectively improving air humidity.

Background

The air purifying equipment is characterized in that air adsorbed outside the equipment is purified and filtered by using a filtering and purifying device in the equipment and then is sprayed out, and liquid stored in the equipment is scattered together to form a water mist shape and then is sprayed out while the air is sprayed out, so that the air humidity in a certain area is increased.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: equipment need outwards break up the blowout through the rivers that small-size blade top drippage or erupt when blowout water smoke, and when air purification equipment collapsed because of external factors at the during operation, or when taking place the slope, the water droplet can see through the direct power source at the blade back of drippage of blade, drenches power source and causes equipment power consumption hidden danger.

It is therefore desirable to provide an air cleaning apparatus that is effective in increasing the humidity of air.

Disclosure of Invention

In order to solve the problem that when the technical equipment sprays water mist, water flow dripped or sprayed out through the upper part of the small blade needs to be scattered outwards and sprayed out, and when the air purification equipment collapses due to external factors during working or inclines, water drops can directly drip on a power supply interface at the back of the blade through the blade, and the power supply interface is wetted, so that the hidden danger of the electricity utilization of the equipment is caused.

The invention relates to an air purification device capable of effectively improving air humidity, which is realized by the following specific technical means: the structure of the atomizing device comprises an atomizing mechanism, a control panel, an air aspirator, a machine body and rollers, wherein the atomizing mechanism is embedded and arranged right above the air aspirator, the control panel is embedded and fixedly arranged right above the machine body, the air aspirator is embedded and arranged right above the rollers, the machine body is positioned right below the control panel, and the rollers are movably clamped right below the atomizing mechanism; atomizing mechanism includes filter screen, water pump, atomizing mechanism, spout, the left side of locating atomizing mechanism is inlayed to the filter screen, the upper and lower both ends at atomizing mechanism are installed to the water pump symmetry, atomizing mechanism inlays the block and installs the medial surface at atomizing mechanism, the outside terminal surface at the water pump is evenly inlayed and installs to the spout.

Wherein, atomizing mechanism is including inlaying pole, nested mechanism, fixed block, atomizing pipe, inlay the pole and pass through the welding installation at the outside terminal surface of nested mechanism, nested mechanism inlays and locates the atomizing pipe under, the fixed block inlays the rigid mounting at the outside terminal surface of inlaying the pole, the atomizing pipe is inlayed and is located nested mechanism directly over, the atomizing pipe adopts the nested connection mode with the link of nested mechanism.

Wherein, the atomizing pipe includes dwang, leakage orifice, blade, link ring, power shaft, protecting tube, the horizontal outside terminal surface of dwang is encircleing around inlaying the block blade, the leakage orifice is evenly inlayed and is located the link ring directly over, the blade is located the power shaft directly over, the link ring is inlayed the lower extreme medial surface that the block was installed, the power shaft is located the dwang directly under, protecting tube medial surface is inlayed and is equipped with the leakage orifice, the diameter of blade is unanimous with the diameter of link ring.

The linkage ring comprises a magnetic bead, a sliding groove, an embedding ring and a through opening, the magnetic bead is evenly embedded in the inner side end face of the sliding groove, the sliding groove is embedded in the inner side end face of the embedding ring, the embedding ring is embedded and fixedly installed right above the power shaft, the through opening is located in the inner side end face of the embedding ring, and the through opening is connected with the sliding groove in a penetrating mode.

The nested mechanism comprises an inlay block, a water distributor, a wire and an arc block, wherein the inlay block is embedded and clamped to connect with the power shaft, the water distributor is attached to and wrapped on the transverse outer end face of the wire, the wire is embedded and fixedly installed on the lower end surface of the power shaft, the arc block is symmetrically installed at the left end and the right end of the wire, and the inlay block is clamped on the transverse outer end face of the power shaft in a nested mode.

The water distributor comprises an air port, a collecting port, a serial pipe and a rubber ring, wherein the air port is connected with the serial pipe in an embedded mode, the collecting port is located on the lower side end face of the serial pipe, the serial pipe is connected to the lower side end face of the rubber ring in an attached mode, the rubber ring is connected to the inner side end face of the water distributor in an embedded mode in an attached mode, and the air port, the collecting port and the serial pipe are connected in series.

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

1. the diameter of the blade is consistent with the inner contour of the linkage ring, the magnetic beads and the sliding grooves are arranged in the linkage ring, so that the blade can be adsorbed on the transverse surface of the blade to rotate together in the rotating process by the magnetic beads, water stains attached to the surface of the blade are guided into the sliding grooves, and finally the water stains are discharged outwards through the through holes which are connected with the sliding grooves in series.

2. Because the mosaic blocks in the nesting mechanism are clamped with the power shaft in a nesting connection mode, water stains can be isolated through the overlapped area between the mosaic blocks and the power shaft, the dryness between the connection end surfaces of the mosaic blocks and the power shaft is ensured, water flow is prevented from flowing to a power interface of equipment along the inner contour of the mosaic blocks,

drawings

Fig. 1 is a schematic view of an overall structure of an air cleaning apparatus capable of effectively increasing air humidity according to the present invention.

Fig. 2 is a schematic structural diagram of an atomization mechanism of an air purification device capable of effectively increasing air humidity according to the present invention.

Fig. 3 is a schematic structural diagram of an atomizing mechanism of an air purifying device capable of effectively increasing air humidity according to the present invention.

Fig. 4 is a schematic structural diagram of an atomization tube of an air purification device capable of effectively increasing air humidity according to the present invention.

Fig. 5 is a schematic structural diagram of a linkage ring of an air purification apparatus capable of effectively increasing air humidity according to the present invention.

Fig. 6 is a schematic structural diagram of an air purification device nesting mechanism capable of effectively increasing air humidity according to the present invention.

Fig. 7 is a schematic structural view of a water distributor of an air purification apparatus capable of effectively increasing air humidity according to the present invention.

In the figure: the device comprises an atomizing mechanism-1, a control panel-2, an aspirator-3, a machine body-4, a roller-5, a filter screen-11, a water pump-12, an atomizing mechanism-13, a nozzle-14, an embedding rod-131, a nesting mechanism-132, a fixed block-133, an atomizing pipe-134, a rotating rod-341, a leakage port-342, a blade-343, a linkage ring-344, a power shaft-345, a protective pipe-346, a magnetic bead-441, a chute-442, an embedding ring-443, a through port-444, an embedding block-321, a water distributor-322, a lead-323, an arc block-324, an air port-221, a collection port-222, a series pipe-223 and a rubber ring-224.

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 air purification equipment capable of effectively improving air humidity, which structurally comprises an atomization mechanism 1, a control panel 2, an air aspirator 3, an engine body 4 and rollers 5, wherein the atomization mechanism 1 is embedded and arranged right above the air aspirator 3, the control panel 2 is embedded and fixedly arranged right above the engine body 4, the air aspirator 3 is embedded and arranged right above the rollers 5, the engine body 4 is positioned right below the control panel 2, and the rollers 5 are movably clamped and connected right below the atomization mechanism 1; atomizing mechanism 1 includes filter screen 11, water pump 12, atomizing mechanism 13, spout 14, filter screen 11 inlays the left side portion of locating atomizing mechanism 13, the upper and lower both ends at atomizing mechanism 13 are installed to water pump 12 symmetry, atomizing mechanism 13 inlays the block and installs the medial surface at atomizing mechanism 1, spout 14 evenly inlays and installs the outside terminal surface at water pump 12.

Wherein, atomizing mechanism 13 includes inlay pole 131, nested mechanism 132, fixed block 133, atomizing pipe 134, inlay pole 131 through the welding installation at the outside terminal surface of nested mechanism 132, nested mechanism 132 inlays and locates atomizing pipe 134 under, fixed block 133 inlays the solid installation at the outside terminal surface of inlaying pole 131, atomizing pipe 134 inlays and locates nested mechanism 132 directly over, atomizing pipe 134 adopts nested connection mode with nested mechanism 132's link, can adhere to and isolate in its surperficial rivers.

The atomizing pipe 134 comprises a rotating rod 341, a leakage hole 342, blades 343, a linkage ring 344, a power shaft 345 and a protective pipe 346, the blades 343 are embedded and clamped around the transverse outer end face of the rotating rod 341, the leakage hole 342 is uniformly embedded and arranged right above the linkage ring 344, the blades 343 are positioned right above the power shaft 345, the linkage ring 344 is embedded and clamped on the inner side face of the lower end of the protective pipe 346, the power shaft 345 is positioned right below the rotating rod 341, the leakage hole 342 is embedded and arranged on the inner end face of the protective pipe 346, the diameter of the blades 343 is consistent with that of the linkage ring 344, and water stains attached to the outer wall of the blades 343 can be guided into the linkage ring 344 through the embedding and the attaching of the linkage ring 344.

The linkage ring 344 includes magnetic beads 441, a sliding groove 442, an embedding ring 443, and a through hole 444, wherein the magnetic beads 441 are uniformly embedded in an inner end surface of the sliding groove 442, the sliding groove 442 is embedded in an inner end surface of the embedding ring 443, the embedding ring 443 is embedded and installed directly above the power shaft 345, the through hole 444 is located in an inner end surface of the embedding ring 443, and the through hole 444 is connected to the sliding groove 442 in a penetrating manner, so that water flowing to the sliding groove 442 can be discharged outward along the through hole 444.

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

in the invention, the control panel 2 controls the equipment in the machine body 4 to supply power to the power shaft 345 in the atomizing pipe 134, so that the equipment blows air out through the gap of the embedded rod 131 after purifying the air, and simultaneously, the rotating rod 341 drives the blade 343 to rotate, when water flow is sprayed out to the surface of the atomizing pipe 134 along the nozzle 14, the water flow can float inwards along the leakage hole 342 uniformly embedded on the surface of the atomizing pipe 134, the rotating blade 343 is used for scattering and atomizing the water flow dropping to the position, so that the water mist and the gas floating along the embedded rod 131 are discharged outwards along the filter screen 11, the diameter of the blade 343 is consistent with the inner contour of the linkage ring 344, the magnetic beads 441 and the sliding grooves 442 are arranged in the linkage ring 344, the blade 343 can rotate together by using the transverse surfaces of the magnetic beads 441 during the rotation, water stains attached to the surface of the blade 343 are guided into the sliding grooves 442, and finally out through a through opening 444 in series with the chute 442.

Example 2:

as shown in fig. 6 to 7: the nesting mechanism 132 comprises an inlaying block 321, a water distributor 322, a wire 323 and an arc block 324, wherein the inlaying block 321 is inlaid and clamped with and connected with the power shaft 345, the water distributor 322 is attached and wrapped on the transverse outer side end face of the wire 323, the wire 323 is inlaid and fixedly installed on the lower end surface of the power shaft 345, the arc blocks 324 are symmetrically installed at the left end and the right end of the wire 323, the inlaying block 321 is clamped on the transverse outer side end face of the power shaft 345 in a nesting mode, and water can be effectively prevented from flowing to a power supply connector of equipment along the inner side end face of the inlaying block 321.

The water distributor 322 comprises an air port 221, a collection port 222, a serial pipe 223 and a rubber ring 224, the air port 221 is connected with the serial pipe 223 in an embedded mode, the collection port 222 is located on the lower side end face of the serial pipe 223, the serial pipe 223 is connected to the lower side end face of the rubber ring 224 in an attached mode, the rubber ring 224 is connected with the inner side end face of the water distributor 322 in an embedded and attached mode, the air port 221, the collection port 222 and the serial pipe 223 are connected in series, water flow can be guided through the collection port 222 and then discharged outwards through the air port 221, and water stains are prevented from being attached to and accumulated on the inner side end face of the water distributor 322.

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

according to the invention, as the mosaic block 321 in the nesting mechanism 132 is clamped with the power shaft 345 in a nesting connection mode, water stains can be isolated through an overlapped area between the mosaic block 321 and the power shaft 345, the dryness between the connection end surfaces of the mosaic block 321 and the power shaft is ensured, water flow is prevented from flowing to a power interface of equipment along the inner contour of the mosaic block 321, the water distributor 322 is arranged at the transverse outer contour of the wire 323, the wire 323 is wrapped by the rubber ring 224 in the water distributor 322, when the wire 323 is attached with the water stains to flow, the stone on the surface of the wire 323 is guided into the series pipe 223 by the collecting port 222, the water is discharged out of the water distributor 322 through the air port 221 connected with the series pipe 223 in series, and the transverse outer contour of the wire 323 is wrapped by the rubber material of the rubber ring 224, so that the structural dryness between the connection end surfaces is ensured.

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 an air purification equipment that can effectively improve air humidity, its structure includes atomizing mechanism (1), control panel (2), aspirator (3), organism (4), gyro wheel (5), atomizing mechanism (1) is inlayed and is located aspirator (3) directly over, control panel (2) are inlayed and are installed directly over organism (4), aspirator (3) are inlayed and are located gyro wheel (5) directly over, organism (4) are located control panel (2) directly under, gyro wheel (5) activity block is under atomizing mechanism (1); the method is characterized in that:

atomizing mechanism (1) includes filter screen (11), water pump (12), atomizing mechanism (13), spout (14), the left side of locating atomizing mechanism (13) is inlayed in filter screen (11), water pump (12) symmetry is installed at the upper and lower both ends of atomizing mechanism (13), the inboard terminal surface at atomizing mechanism (1) is installed to atomizing mechanism (13) inlaying the block, spout (14) are evenly inlayed and are installed the outside terminal surface at water pump (12).

2. The air purification device capable of effectively improving the air humidity according to claim 1, wherein the atomization mechanism (13) comprises an embedded rod (131), a nesting mechanism (132), a fixed block (133) and an atomization tube (134), the embedded rod (131) is installed on the outer end face of the nesting mechanism (132) through welding, the nesting mechanism (132) is embedded under the atomization tube (134), the fixed block (133) is embedded and installed on the outer end face of the embedded rod (131), and the atomization tube (134) is embedded over the nesting mechanism (132).

3. The air purification device capable of effectively improving the air humidity according to claim 2, wherein the atomization tube (134) comprises a rotating rod (341), a leakage hole (342), a blade (343), a linkage ring (344), a power shaft (345) and a protection tube (346), the blade (343) is clamped around the embedding of the transverse outer end face of the rotating rod (341), the leakage hole (342) is uniformly embedded and arranged right above the linkage ring (344), the blade (343) is positioned right above the power shaft (345), the linkage ring (344) is embedded and clamped and arranged on the inner side face of the lower end of the protection tube (346), and the power shaft (345) is positioned right below the rotating rod (341).

4. The air purification device capable of effectively improving the humidity of air as claimed in claim 3, wherein the linkage ring (344) comprises magnetic beads (441), a sliding groove (442), an embedding ring (443), and a through hole (444), the magnetic beads (441) are uniformly embedded in an inner end surface of the sliding groove (442), the sliding groove (442) is embedded in an inner end surface of the embedding ring (443), the embedding ring (443) is embedded and fixedly installed right above the power shaft (345), and the through hole (444) is located in an inner end surface of the embedding ring (443).

5. The air purification device capable of effectively improving the air humidity according to claim 2, wherein the nesting mechanism (132) comprises an embedding block (321), a water distributor (322), a wire (323) and an arc block (324), the embedding block (321) is embedded, clamped and connected with the power shaft (345), the water distributor (322) is attached and wrapped on the transverse outer end face of the wire (323), the wire (323) is embedded and fixedly installed on the lower end surface of the power shaft (345), and the arc block (324) is symmetrically installed at the left end and the right end of the wire (323).

6. The air purification device capable of effectively improving the humidity of air according to claim 5, wherein the water distributor (322) comprises an air port (221), a collection port (222), a serial pipe (223) and a rubber ring (224), the air port (221) is connected with the serial pipe (223) in an embedded manner, the collection port (222) is located on the lower end face of the serial pipe (223), the serial pipe (223) is connected with the lower end face of the rubber ring (224) in an attached manner, and the rubber ring (224) is connected with the inner end face of the water distributor (322) in an embedded manner.

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