Air intake water containing assembly for air purifier
Technical Field
The utility model relates to a flourishing water component of admitting air that air purifier used belongs to air purification equipment technical field.
Background
Sanitation workers working in underground operation and in high-wind dust weather have great influence on a respiratory system because of severe environment, and therefore, how to enable the workers to be capable of breathing pure air with good respiratory tract in severe environment is an important thing. Therefore, it is necessary to design a portable air purification device suitable for underground workers. Such a purification device can neither be too large in size nor too heavy, and is primarily light and simple. Meanwhile, in order to ensure the safety of the air purification equipment and avoid that water flows to the electronic equipment when the equipment is horizontally placed, the water flow in the equipment needs to be limited, namely, a corresponding waterproof design is made.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a design is solved small-size portable air purification equipment waterproof problem, provides the flourishing water component of admitting air that an air purifier used.
The utility model provides an above-mentioned technical problem's technical scheme as follows: an air inlet water containing assembly for an air purifier is characterized by comprising an air filter chamber and a purified water storage part; the air filter chamber for the air purifier comprises an air inlet box body and a water baffle buckled with the air inlet box body; the air inlet box body comprises a groove-shaped shell consisting of an air inlet box side wall with an air inlet hole and an air inlet box bottom plate with a middle hole, and a waterproof cover and a horn-shaped water retaining ring are arranged in the air inlet box body; the water baffle comprises a water baffle bottom plate with a central hole, an air inlet side waterproof cover and a water tank side water baffle cover are respectively arranged on two sides of the water baffle bottom plate and positioned at the central hole, the air inlet side waterproof cover and the water tank side water baffle cover are both in a horn mouth shape, and a large opening is positioned on the water baffle bottom plate; the purified water storage part comprises a water chamber and a protective water tank. The water baffle and the air inlet box body enclose a space, so that air can enter from the side wall, and the water baffle is used for preventing a large amount of water from entering the air inlet box body; the water tank side water retaining cover is arranged to be of a horn mouth structure, so that the water containing quantity of the water tank side when the water tank side is horizontally placed is increased. The protection water tank adopts square structure, and when empting, the water in the hydroecium can look for that to spread at the protection water tank, and when spreading its water level along long direction low, along the direction of minor face, the water level height of spreading is high, through reasonable design, can guarantee that the water level all under the little open end of water tank side retaining cover, just can guarantee that water can not flow into the air filter room easily.
On the basis of the technical scheme, the utility model discloses a reach the convenience of use and the stability of equipment, can also make following improvement to foretell technical scheme:
furthermore, the water chamber is of a cylindrical structure. The hydroecium is flourishing water structure of ration, and air purifier purifies the water yield of water, is confirmed by the size of hydroecium, and in the same volume and bottom surface area, the cylindrical height is the highest, and the water level of maximizing is favorable to purifying the absorption of water, and in the time of absorbing simultaneously, the floater that exists on the water surface is also difficult to be absorbed.
Furthermore, the barrel bottom of the water chamber is provided with at least one convex ridge which is circumferentially arranged. The ridges are intended to reduce the formation of eddies in the water as it is drawn. Once the water is swirled, the liquid level at the periphery of the surface of the water increases and the liquid level at the center decreases, which is not favorable for the absorption of the purified water.
Further, the open end of hydroecium have the external screw thread, and the external screw thread is located and sets up spacing snap ring in hydroecium bottom one side. The connection is convenient.
Furthermore, the protection water tank is connected with the water baffle in a matching way.
Furthermore, the water retaining ring is inserted in the air inlet side waterproof cover, and a gap is reserved between the water retaining ring and the air inlet side waterproof cover. The purpose of this design is to provide a channel for air to flow in, and once the electronic device is tilted and laid flat, water flows out from the air inlet hole through the gap, and the possibility of water flowing to one side of the electronic device is further avoided.
Furthermore, the waterproof cover, the water retaining ring and the middle hole in the bottom plate of the air inlet box are coaxially arranged. The coaxial arrangement facilitates installation and positioning.
Furthermore, the side wall of the air inlet box is of a rectangular structure consisting of two long side walls and two short side walls; one of the two long side walls is in an arc curved surface shape; the air inlet is arranged on the long side wall of the arc-shaped curved surface. The design is in order to be convenient for when using, places next to the shin, and one side next to the shin is suitable for planar lateral wall, and the opposite side sets to the curved surface, can avoid having sheltered from the inlet port by the clothes and influence the air admission.
Furthermore, the edges of the two sides of the water retaining bottom plate are respectively provided with an upper connecting flange and a lower connecting flange. The upper and lower connecting flanges are provided to facilitate connection and sealing.
The utility model has the advantages that: this application sets up reasonable breakwater's structure with, sets up water tank side retaining cover on the breakwater and blocks rivers to the intake box internal, as long as set up reasonable water yield, just can realize.
Drawings
FIG. 1 is a schematic structural view of a compact air cleaning device using an intake water containing assembly for an air cleaner according to the present application;
FIG. 2 is a perspective view of the purified water storage part;
FIG. 3 is a cross-sectional view of FIG. 2;
FIG. 4 is a perspective view of an air filtration chamber;
FIG. 5 is a schematic cross-sectional view of FIG. 4;
FIG. 6 is a schematic front view of the structure of FIG. 4;
FIG. 7 is a sectional view taken along line C-C of FIG. 6;
FIG. 8 is a perspective view of the water guard;
fig. 9 is a schematic perspective view of the water guard viewed from the side of the water tank side water guard.
The reference numbers are recorded as follows: the device comprises a pure gas conveying part-1, an air filter chamber-2, an air inlet box body-2.1, an air inlet box side wall-2.11, a water retaining ring-2.12, a waterproof cover-2.13, an air inlet box bottom plate-2.14, a motor fixing block-2.15, a water retaining plate-2.2, a water retaining bottom plate-2.21, an air inlet side waterproof cover-2.22, a water tank side waterproof cover-2.23, a water tank side waterproof cover-2.24-upper connecting flange, a lower connecting flange, a purified water storage part-3, a purified water storage part-3.1-water chamber, a 3.2-protective water tank, a 3.3-limiting snap ring and a 3.4-convex ridge.
Detailed Description
The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.
An intake water-holding assembly for an air cleaner (see fig. 1 to 9) includes an air filtering chamber 2 and a purified water storage portion 3; the air filter chamber 2 (see fig. 4-9) for the air purifier comprises an air inlet box body 2.1 and a water baffle 2.2 buckled with the air inlet box body 2.1; the air inlet box body 2.1 comprises a groove-shaped shell consisting of an air inlet box side wall 2.11 with an air inlet hole and an air inlet box bottom plate 2.14 with a middle hole, and a waterproof cover 2.13 and a horn-shaped water retaining ring 2.12 at the outer side of the waterproof cover are arranged in the air inlet box body 2.1; the water baffle 2.2 comprises a water baffle bottom plate 2.21 with a central hole, an air inlet side waterproof cover 2.22 and a water tank side water baffle cover 2.23 are respectively arranged at two sides of the water baffle bottom plate 2.21 and positioned at the central hole, the air inlet side waterproof cover 2.22 and the water tank side water baffle cover 2.23 are both in a horn mouth shape, and a large opening is positioned on the water baffle bottom plate 2.21; the purified water storage part 3 (see fig. 2-3) comprises a water chamber 3.1 and a protective water tank 3.2; the water chamber 3.1 is of a cylindrical structure; at least 3 convex ridges 3.4 are arranged on the bottom of the water chamber 3.1, and the convex ridges 3.4 are circumferentially arranged; the opening end of the water chamber 3.1 is provided with an external thread, and the external thread is positioned at one side of the bottom of the water chamber 3.1 and is provided with a limiting snap ring 3.3; the protective water tank 3.2 is connected with the water baffle 2.2 in a matching way; the water retaining ring 2.12 is inserted into the air inlet side waterproof cover 2.22, and a gap is reserved between the water retaining ring and the air inlet side waterproof cover (see figure 2);
the waterproof cover 2.13, the water retaining ring 2.12 and the middle hole on the air inlet box bottom plate 2.14 are coaxially arranged (see figures 5 and 7);
the side wall 2.11 of the air inlet box is of a rectangular structure consisting of two long side walls and two short side walls; one of the two long side walls is in an arc curved surface shape; the air inlet is arranged on the long side wall of the arc-shaped curved surface;
the edges of two sides of the water retaining bottom plate 2.21 are respectively provided with an upper connecting flange 2.24 and a lower connecting flange 2.25 (see figures 8 and 9).
The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.