CN222881335U - Embedded air disinfection and purification device - Google Patents

Abstract

The utility model discloses an embedded air disinfection and purification device, comprising an embedded shell, wherein a mounting cylinder is movably provided inside the embedded shell, and the mounting cylinder can move along the axis direction of the mounting cylinder; a perforated plate is detachably provided at one end of the embedded shell, and one end of the perforated plate is pressed against the end face of the mounting cylinder; an air inlet assembly is provided on the mounting cylinder, and the air inlet assembly is used to introduce air into the mounting cylinder; a flow guide assembly is provided in the mounting cylinder; an arc-shaped cover plate is detachably provided on the mounting cylinder; and a filter screen, a HEPA filter layer and an activated carbon filter layer are provided in the mounting cylinder. The utility model can facilitate operations such as quickly cleaning or replacing the filter screen, the HEPA filter layer and the activated carbon filter layer.

Description

Embedded air disinfection purifier

Technical Field

The utility model relates to the technical field of air purification, in particular to an embedded air disinfection and purification device.

Background

The air disinfection and purification device is used for disinfecting and sterilizing air, and can remove peculiar smell, so that clean gas is discharged, and the conditions of living and office environments can be improved; the existing air disinfection and purification device generally adopts a filter screen and a filter layer to carry out multistage filtration on air, but after long-time use, impurities can be accumulated on the filter screen and the filter layer, so that the air disinfection and purification device needs to consider the disassembly operation of the filter screen and the filter layer so as to conveniently clean or replace the filter screen and the filter layer.

Disclosure of utility model

The utility model aims to provide an embedded air disinfection and purification device which is used for solving the problems in the background technology.

In order to solve the technical problems, the utility model provides the technical scheme that the embedded air disinfection and purification device comprises an embedded shell, wherein an installation cylinder is movably arranged in the embedded shell, the installation cylinder can move along the axis direction of the installation cylinder, one end of the embedded shell is detachably provided with a pore plate, one end of the pore plate abuts against the end face of the installation cylinder, an air inlet assembly is arranged on the installation cylinder and used for introducing air into the installation cylinder, a flow guide assembly is arranged in the installation cylinder, an arc cover plate is detachably arranged on the installation cylinder, and a filter screen, a HEPA filter layer and an active carbon filter layer are arranged in the installation cylinder.

Further, filter screen, HEPA filter layer and active carbon filter layer are circular structure, just filter screen, HEPA filter layer and active carbon filter layer all with arc apron and installation section of thick bamboo looks adaptation.

Furthermore, the embedded shell is internally provided with a plurality of guide sliding rails, each guide sliding rail is internally provided with a sliding block, and the sliding blocks are fixedly connected with the mounting cylinder.

Further, the arc-shaped cover plate is connected with the mounting cylinder through a buckle.

Further, the air inlet assembly comprises an air inlet pipe arranged on the mounting cylinder, an air duct is arranged at one end of the air inlet pipe and is used for being contacted with one end of the mounting cylinder far away from the pore plate, an air inlet hole is formed in one end of the mounting cylinder far away from the pore plate, and the air duct and the air inlet hole are coaxial.

Further, the flow guiding component comprises a supporting seat arranged in the installation cylinder, and a fan is installed in the supporting seat.

Further, the active carbon filter layer is close to one side of the pore plate, the filter screen and the HEPA filter layer are arranged between the guide fan and the active carbon filter layer, the filter screen is close to the guide fan, and the HEPA filter layer is arranged between the filter screen and the active carbon filter layer.

Further, the number of HEPA filter layers is two.

Further, limiting blocks are arranged on the filter screen, the active carbon filter layer and each HEPA filter layer, a plurality of limiting grooves are formed in the mounting cylinder, the number of the limiting grooves is equal to that of the limiting blocks, and the limiting blocks are respectively matched in the limiting grooves.

Compared with the prior art, the utility model has the following beneficial effects:

1. Through the cooperation of slider and direction slide rail for the mounting cylinder can be along self axis direction removal, after the arc apron removes from the mounting cylinder, can dismantle arc apron, thereby can expose filter screen, active carbon filter layer and filter layer.

2. Through the cooperation of stopper and spacing groove, realize the spacing fixed to the stopper to can realize removing the dismantlement of filter screen, HEPA filter layer, active carbon filter layer, operation such as can be convenient for change or the installation of filter screen, HEPA filter layer, active carbon filter layer.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic overall structure of a first embodiment of the present utility model;

FIG. 2 is a schematic view of the embodiment of the present utility model after the orifice plate is removed;

FIG. 3 is a schematic view of an overall alternate angular configuration of a first embodiment of the present utility model;

FIG. 4 is a schematic view of the overall cross-sectional structure of a first embodiment of the present utility model;

FIG. 5 shows an embodiment of the present utility model with the arc being moved out a state diagram of the cover plate and the arc-shaped cover plate is disassembled;

FIG. 6 is a schematic view showing the installation of a HEPA filter layer in a second embodiment of the utility model;

FIG. 7 is a schematic diagram illustrating the cooperation between a limiting block and a limiting groove in the third embodiment of the present utility model;

In the figure, 1, an embedded shell, 101, a guide sliding rail, 2, a pore plate, 3, an air inlet assembly, 301, an air inlet pipe, 302, an air duct, 4, an installation cylinder, 401, a sliding block, 402, an air inlet hole, 403, a limit groove, 5, an arc-shaped cover plate, 6, a guide assembly, 601, a supporting seat, 602, a guide fan, 7, a filter screen, 8, an active carbon filter layer, 9, an HEPA filter layer, 10 and a limit block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-5, the utility model provides a technical scheme that the embedded air disinfection and purification device comprises an embedded shell 1, wherein the embedded shell 1 is used for being embedded in a wall, an installation cylinder 4 is arranged in the embedded shell 1, the installation cylinder 4 is movably arranged on the embedded shell 1, an arc-shaped cover plate 5 is detachably arranged on the installation cylinder 4, the diameter of the inner annular surface of the arc-shaped cover plate 5 is equal to that of the inner annular surface of the installation cylinder 4, the diameter of the outer annular surface of the arc-shaped cover plate 5 is equal to that of the outer annular surface of the installation cylinder 4, the installation cylinder 4 and the arc-shaped cover plate 5 are movably connected through a buckle, a plurality of guide sliding rails 101 are arranged in the embedded shell 1, a sliding block 401 is respectively arranged in each guide sliding rail 101, each sliding block 401 is fixedly connected to the outer wall of the installation cylinder 4, as shown in fig. 2 and 3, the number of the guide sliding rails 101 and the sliding blocks 401 is three, the installation cylinder 4 can move along the axis direction of the installation cylinder 4 through the matching of the sliding blocks 401 and the guide sliding rails 101, the outer annular surface of the installation cylinder 5 is enabled to be equal to the diameter of the outer annular surface of the installation cylinder 4, the arc-shaped cover plate 5 and the installation cylinder 4 is enabled to move out of a half arc-shaped cover plate 5 or a large arc-shaped area corresponding to the arc-shaped cover plate 5.

The embedded shell 1 is detachably provided with the pore plate 2, and specifically, the pore plate 2 is fixedly connected with the embedded shell 1 through screws, namely, the pore plate 2 can be detached from the embedded shell 1.

The embedded shell 1 is provided with an air inlet assembly 3, the air inlet assembly 3 is used for introducing air into the installation cylinder 4, specifically, the air inlet assembly 3 comprises an air inlet pipe 301 arranged on the embedded shell 1, one end of the air inlet pipe 301 is used for being connected with external air input equipment, the other end of the air inlet pipe 301 is provided with an air inlet pipe 302, one end of the installation cylinder 4 far away from the pore plate 2 is provided with an air inlet hole 402, as shown in fig. 4, one end of the air inlet pipe 302 far away from the air inlet pipe 301 just abuts against one end of the installation cylinder 4, where the air inlet hole 402 is arranged, at the same time, the air inlet pipe 302 is coaxial with the air inlet hole 402, and one end of the air inlet hole 402 is covered by the air inlet pipe 302, namely, the air is introduced into the air inlet pipe through the external air input equipment, and the air flows through the air inlet pipe 302 and the air inlet hole 402 into the installation cylinder 4.

The inside of the installation cylinder 4 is provided with a flow guide assembly 6, the flow guide assembly 6 comprises a supporting seat 601, the supporting seat 601 is arranged inside the installation cylinder 4, the supporting seat 601 is close to one end of the installation cylinder 4, which is provided with an air inlet 402, a guide fan 602 is arranged inside the supporting seat 601, the guide fan 602 is used for guiding flow, and air flow inside the installation cylinder 4 is conveniently discharged through the pore plate 2.

The filter screen 7 and the active carbon filter layer 8 are fixedly connected in the installation cylinder 4, the filter screen 7 is close to the guide fan 602, the active carbon filter layer 8 is close to the pore plate 2, impurities with larger particles in the air are preliminarily filtered and introduced through the filter screen 7, the gas filtered by the filter screen 7 is removed of peculiar smell through the active carbon filter layer 8, and finally the purified gas is discharged through the pore plate 2.

The filter screen 7 and the activated carbon filter layer 8 are of circular structures, the filter screen 7 and the activated carbon filter layer 8 are matched with the arc-shaped cover plate 5 and the installation cylinder 4, namely, after the arc-shaped cover plate 5 is installed on the installation cylinder 4, the outer annular surfaces of the filter screen 7 and the activated carbon filter layer 8 just contact with the inner annular surfaces of the arc-shaped cover plate 5 and the installation cylinder 4, and meanwhile, the positions of the filter screen 7 and the activated carbon filter layer 8 correspond to those of the arc-shaped cover plate 5, namely, the filter screen 7 and the activated carbon filter layer 8 are simultaneously positioned in the arc-shaped cover plate 5.

Due to the arrangement of the sliding blocks 401 and the guide sliding rails 101, the installation cylinder 4 can move along the axis direction of the installation cylinder 4, the arc-shaped cover plate 5 and the part of the installation cylinder 4 corresponding to the arc-shaped cover plate 5 can be moved out of the installation cylinder 4, the arc-shaped cover plate 5 can be detached, and the filter screen 7 and the activated carbon filter layer 8 in the installation cylinder 4 can be cleaned and overhauled conveniently at the moment by detaching the arc-shaped cover plate 5.

Example two

Referring to fig. 1-6, in this embodiment, based on the first embodiment, a HEPA filter layer 9 is further disposed between the filter screen 7 and the activated carbon filter layer 8, the HEPA filter layer 9 is fixedly connected in the installation cylinder 4, the number of HEPA filter layers 9 is two, in this embodiment, air is primarily filtered through the filter screen 7, and then filtered through the two HEPA filter layers 9, the HEPA filter layer 9 can filter harmful gases in the air, so as to improve the air purification degree, and then the air passing through the HEPA filter layer 9 flows through the activated carbon filter layer 8, and finally the purified gas is discharged through the orifice plate 2.

In this embodiment, when the arc cover plate 5 and the part of the installation cylinder 4 corresponding to the arc cover plate 5 are removed from the installation cylinder 4, and the arc cover plate 5 is detached, cleaning or maintenance treatment can be conveniently performed on the filter screen 7, the activated carbon filter layer 8 and the HEPA filter layer 9 in the installation cylinder 4.

Example III

Referring to fig. 1-7, the embodiment is based on the second embodiment, the fixed connection mode of the filter screen 7, the HEPA filter layer 9 and the activated carbon filter layer 8 with the mounting cylinder 4 is replaced by the detachable connection mode, one limiting block 10 is arranged on each of the filter screen 7, the activated carbon filter layer 8 and each HEPA filter layer 9, namely four limiting blocks 10 are arranged in the mounting cylinder 4, four limiting grooves 403 are arranged in parallel, the limiting blocks 10 are matched with the limiting grooves 403, and the four limiting blocks 10 are respectively matched with the four limiting grooves 403, namely, the limiting blocks 10 are matched with the limiting grooves 403, so that limiting fixation of the limiting blocks 10 is realized, and after the arc cover plate 5 and the part of the mounting cylinder 4 corresponding to the arc cover plate 5 are removed from the mounting cylinder 4, the arc cover plate 5 is removed, the filter screen 7, the HEPA filter layer 9 and the activated carbon filter layer 8 are further convenient to overhaul and repair the filter screen 7, the HEPA filter layer 9 and the activated carbon filter layer 8, and the filter screen 8 are also convenient to replace or install.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

It should be noted that the above-mentioned embodiments are merely preferred embodiments of the present utility model, and the present utility model is not limited thereto, but may be modified or substituted for some of the technical features thereof by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (9)

1. An embedded air disinfection and purification device, comprising an embedded housing (1), characterized in that: A mounting cylinder (4) is movably disposed inside the embedded housing (1), and the mounting cylinder (4) is movable along the axis direction of the mounting cylinder (4); A perforated plate (2) is detachably provided at one end of the embedded housing (1), and one end of the perforated plate (2) is pressed against the end surface of the mounting cylinder (4); An air inlet assembly (3) is provided on the installation cylinder (4), and the air inlet assembly (3) is used to introduce air into the installation cylinder (4); A flow guide component (6) is arranged in the installation cylinder (4); The installation cylinder (4) is detachably provided with an arc-shaped cover plate (5); The installation cylinder (4) is provided with a filter screen (7), a HEPA filter layer (9) and an activated carbon filter layer (8). 2. An embedded air disinfection and purification device according to claim 1, characterized in that the filter screen (7), HEPA filter layer (9) and activated carbon filter layer (8) are all circular structures, and the filter screen (7), HEPA filter layer (9) and activated carbon filter layer (8) are all compatible with the arc cover plate (5) and the mounting tube (4). 3. An embedded air disinfection and purification device according to claim 1, characterized in that: a plurality of guide rails (101) are installed inside the embedded shell (1), and a slider (401) is respectively arranged inside each of the guide rails (101), and the slider (401) is fixedly connected to the mounting tube (4). 4. An embedded air disinfection and purification device according to claim 2, characterized in that the arc-shaped cover plate (5) and the mounting tube (4) are connected by a snap-fit connection. 5. An embedded air disinfection and purification device according to claim 1, characterized in that: the air inlet assembly (3) comprises an air inlet pipe (301) arranged on the mounting tube (4), one end of the air inlet pipe (301) is provided with an air guide tube (302), and the air guide tube (302) is used to contact the end of the mounting tube (4) away from the orifice plate (2); An air inlet hole (402) is provided at one end of the mounting tube (4) away from the orifice plate (2), and the air guide tube (302) is coaxial with the air inlet hole (402). 6. An embedded air disinfection and purification device according to claim 1, characterized in that: the guide component (6) includes a support seat (601) arranged inside the installation tube (4), and a guide fan (602) is installed in the support seat (601). 7. An embedded air disinfection and purification device according to claim 6, characterized in that: the activated carbon filter layer (8) is close to the side of the orifice plate (2), and the filter screen (7) and the HEPA filter layer (9) are arranged between the ventilator (602) and the activated carbon filter layer (8); Furthermore, the filter screen (7) is close to the fan guide (602), and the HEPA filter layer (9) is arranged between the filter screen (7) and the activated carbon filter layer (8). 8. An embedded air disinfection and purification device according to claim 7, characterized in that the number of the HEPA filter layers (9) is two. 9. An embedded air disinfection and purification device according to claim 8, characterized in that: the filter screen (7), the activated carbon filter layer (8) and each of the HEPA filter layers (9) are provided with a limit block (10), and the mounting cylinder (4) is provided with a plurality of limit grooves (403); The number of the limiting grooves (403) is equal to the number of the limiting blocks (10), and each limiting block (10) is respectively fitted in each limiting groove (403).