CN211650572U - Cabinet type air purifier purifies disinfection structure - Google Patents

Abstract

The utility model provides a cabinet type air purifier purifies disinfection structure, it includes the cabinet body, still include from the last first photocatalysis module that down inclines to set gradually at the internal cabinet, ultraviolet source module and second photocatalysis module, first photocatalysis module, the upper and lower both sides limit of ultraviolet source module and second photocatalysis module respectively with the front and back lateral wall looks butt of the cabinet body, first photocatalysis module, the left and right sides limit of ultraviolet source module and second photocatalysis module is equallyd divide and is do not be equipped with and be used for going on dismantling the joint subassembly of being connected with cabinet body left and right sides wall. The clamping assembly is utilized to enable the two side edges of the first photocatalytic module, the ultraviolet light source module and the second photocatalytic module to be respectively and fixedly connected with the left side wall and the right side wall of the cabinet body in an inclined mode, the mounting area of the first photocatalytic module and the second photocatalytic module in the cabinet body is increased, the purifying and disinfecting area of the photocatalytic module in the cabinet body is further increased, and the air purifying efficiency of the cabinet type air purifier is greatly improved.

Description

Cabinet type air purifier purifies disinfection structure

Technical Field

The utility model relates to an air purification field especially relates to a cabinet type air purifier purifies disinfection structure.

Background

The indoor air pollution is mainly caused by the overproof harmful substances in the indoor air due to various reasons, so that the health condition of a human body is influenced, and the human body is sub-healthy along with the aggravation of the pollution degree. Furniture problems, building problems and decoration problems become three main problems of indoor environmental pollution. The indoor environmental pollution problem is a very complicated problem, and comprises materials, processes, the environment where consumers are located and the misdistricts in use. Such as dust particles, adsorbable microorganisms, formaldehyde, benzene, TVOC, and the like.

For indoor air purification, the indoor air quality can be originally improved by exchanging air with outdoor air, however, due to the air pollution problems in the above aspects, the indoor air quality cannot be effectively improved by exchanging air with outdoor air, and an effective and new method for purifying indoor air is urgently needed, so that the generation of indoor air purifiers is promoted. The indoor air purifier provides a solution for indoor air environmental pollution for people, and obtains relatively pure pollution-free gas harmless to human bodies through purification of air with heavier indoor pollution degree, so that people can live in safe, healthy and comfortable environments.

At present, the indoor air purifier is mostly in a wall-mounted type or a cabinet type, and the cabinet type air purifier is very popular among people due to high purification efficiency. The traditional cabinet type air purifier mainly adopts the disinfection modes of ozone, disinfectant, ultraviolet rays, multi-layer filtration and the like. Wherein the ozone and the disinfectant have short action period, are not suitable for being used under the condition of people and are generally used for temporary disinfection; the ultraviolet disinfection speed is slow, a certain number of ultraviolet lamps which can reach higher illumination intensity need to be configured, and the energy consumption is high; the photocatalyst has the characteristics of dynamic disinfection, high speed and good effect. The existing photocatalysis device mostly adopts photocatalysis net, the photocatalysis net and ultraviolet lamp are horizontally stacked in the cabinet type air purifier, the thickness of the cabinet type air purifier determines the area of the photocatalysis net, in order to improve the efficiency of air purification, the area of the photocatalysis net needs to be increased, meanwhile, the thickness of the cabinet type air purifier needs to be increased, and thus, the cabinet type air purifier has huge volume. Still another method for improving air purification efficiency is to install multiple layers of uv lamps and photocatalytic nets spaced up and down in the cabinet air purifier, which results in higher cost.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a cabinet type air purifier purifies disinfection structure solves the problem that the photocatalyst used in cabinet type air purifier among the prior art leads to air purification inefficiency.

The technical scheme of the utility model is realized like this: the utility model provides a cabinet type air purifier purifies disinfection structure, it includes the cabinet body, still includes from last down slope in proper order and sets up first photocatalysis module, ultraviolet source module and the second photocatalysis module at the internal cabinet, the upper and lower both sides limit of first photocatalysis module, ultraviolet source module and second photocatalysis module respectively with the front and back lateral wall looks butt of the cabinet body, the left and right sides limit of first photocatalysis module, ultraviolet source module and second photocatalysis module is equallyd divide and is do not be equipped with and be used for going on dismantling the joint subassembly of being connected with cabinet body left and right sides wall.

On the basis of the above technical scheme, it is preferred that the joint subassembly includes fixed plate and bolt, the fixed plate both sides are upwards extended respectively and are formed with first turn-ups and second turn-ups, two first pinholes have been seted up to water direction on the first turn-ups, set up the second pinhole coaxial with first pinhole on the second turn-ups, the bolt is "U" style of calligraphy, and first pinhole and second pinhole are passed respectively at the both ends of bolt, the cover has the spring on the part that the bolt is located the fixed plate, and the fixed spacing piece that is provided with on the bolt at second turn-ups medial surface place, first turn-ups and spacing piece are withstood respectively at the spring both ends.

On the basis of the above technical scheme, it is preferred that the second photocatalysis module is the same with the structure of first photocatalysis module, wherein, first photocatalysis module includes the photocatalysis net, the photocatalysis net is equipped with the frame all around, the fixed plate of joint subassembly respectively with frame left and right sides fixed connection.

Further, it is preferable that the photocatalytic mesh surface is coated with a titanium dioxide catalyst.

On the basis of above technical scheme, it is preferred, ultraviolet source module is including being the ultraviolet lamp bracket of square setting, ultraviolet lamp bracket is last horizontal installation to have many ultraviolet tube, the fixed plate of joint subassembly respectively with ultraviolet lamp bracket control side fixed connection.

On the basis of above technical scheme, it is preferred, the fixed mounting panel that is provided with respectively on the wall of cabinet body both sides, from last down be provided with three on the mounting panel and be used for pegging graft the jack group of bolt, the jack group includes first jack and second jack, and first jack and second jack are the inclined setting from top to bottom.

Further, preferably, the central connecting line of the first jack and the second jack forms an angle of 20-70 degrees with the vertical plane of the cabinet body.

Further, it is preferable that the respective socket groups are arranged in parallel and at equal intervals.

The utility model discloses following beneficial effect has for prior art:

(1) the utility model discloses a cabinet type air purifier purifies disinfection structure, through at the internal first photocatalysis module of slope down having set gradually from last of cabinet, ultraviolet source module and second photocatalysis module, make first photocatalysis module, the upper and lower both sides limit of ultraviolet source module and second photocatalysis module respectively with the front and back lateral wall looks butt of the cabinet body, and make first photocatalysis module, the left and right sides limit of ultraviolet source module and second photocatalysis module is connected with the lateral wall about the cabinet body respectively, thereby increased the installation area of first photocatalysis module and second photocatalysis module at the internal cabinet, and then improved the purification and disinfection area of the internal photocatalysis module of cabinet, the air purification efficiency of cabinet type air purifier has been improved greatly.

(2) Through at first photocatalysis module, set up the joint subassembly respectively on the left and right sides limit of ultraviolet light source module and second photocatalysis module, conveniently realize first photocatalysis module, ultraviolet light source module and second photocatalysis module are connected with dismantling of cabinet side wall, when connecting, only need stimulate the bolt, aim at corresponding jack group with the bolt and can accomplish the connection, need not screwed connection, the dismouting combination is convenient, it is convenient to wash, the removable washing that relapses of photocatalysis net, the life-span and the photocatalysis disinfection effect of photocatalysis net have been increased.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a cabinet type air purifier disclosed by the present invention;

fig. 2 is a schematic structural diagram of a first photocatalytic module disclosed in the present invention;

fig. 3 is a schematic structural diagram of the ultraviolet light source module disclosed in the present invention;

FIG. 4 is a schematic structural view of the clamping assembly disclosed in the present invention;

FIG. 5 is a schematic structural view of the clamping assembly disclosed in the present invention;

fig. 6 is a schematic view of the layout structure of the purifying and disinfecting structure of the cabinet air purifier disclosed by the present invention;

fig. 7 is a partially enlarged view of a portion a in fig. 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

As shown in fig. 1, combine fig. 2 and 3, the embodiment of the utility model discloses a cabinet type air purifier purifies disinfection structure, it includes the cabinet body 1, the internal 1 internal top and bottom slope in proper order of cabinet has set up first photocatalysis module 2, ultraviolet source module 3 and second photocatalysis module 4, first photocatalysis module 2, the upper and lower both sides limit of ultraviolet source module 3 and second photocatalysis module 4 respectively with the front and back lateral wall looks butt of the cabinet body 1, first photocatalysis module 2, the left and right sides limit of ultraviolet source module 3 and second photocatalysis module 4 is equallyd divide and is do not be equipped with the joint subassembly 5 that is used for going on dismantling the connection with the cabinet body 1 left and right sides wall.

Under the above-mentioned structural arrangement, utilize joint subassembly 5 to make first photocatalysis module 2, the both sides limit of ultraviolet source module 3 and second photocatalysis module 4 is connected with the lateral wall about the cabinet body 1 respectively, keep first photocatalysis module 2 simultaneously, the upper and lower both sides limit of ultraviolet source module 3 and second photocatalysis module 4 respectively with the front and back lateral wall looks butt of the cabinet body 1, thereby make first photocatalysis module 2, the fixed mounting that ultraviolet source module 3 and second photocatalysis module 4 down slope from last, the installation area of first photocatalysis module 2 and second photocatalysis module 4 in the cabinet body 1 has been increased, and then the purification and disinfection area of photocatalysis module in the cabinet body 1 has been improved.

Set up first photocatalysis module 2 and second photocatalysis module 4 respectively in both sides about ultraviolet source module 3, can carry out ultraviolet irradiation to the air that at first passes second photocatalysis module 4, utilize the ultraviolet ray to carry out disinfection and sterilization, the catalyst on ultraviolet pair second photocatalysis module 4 of ultraviolet ray simultaneously catalyzes, further disinfects and sterilizes to the air. Because of ultraviolet tube 32 belongs to 360 full light sources, the ultraviolet ray above ultraviolet tube 32 can't be absorbed by second photocatalysis module 4 to lead to the waste of ultraviolet ray, consequently set up first photocatalysis module 2 above ultraviolet source module 3, can make full use of ultraviolet irradiation carry out the photocatalysis disinfection of disinfecting, make the air carry out secondary disinfection and sterilization, improve the bactericidal effect. Meanwhile, the first photocatalytic module 2 can also block ultraviolet rays from irradiating upwards, so that other elements are subjected to radiation-induced aging. Simultaneously, the air purification efficiency of the cabinet type air purifier is greatly improved.

Referring to fig. 3, in the present embodiment, the ultraviolet light source module 3 includes an ultraviolet lamp holder 31 disposed in a square shape, and a plurality of ultraviolet lamps 32 are horizontally mounted on the ultraviolet lamp holder 31. Preferably, the ultraviolet lamp tubes 32 are arranged at equal intervals, so that uniform ultraviolet irradiation can be provided for the first photocatalytic module 2 and the second photocatalytic module 4, and therefore the first photocatalytic module 2 and the second photocatalytic module 4 perform sufficient photocatalytic reaction, and efficient air purification and disinfection are achieved. The left side and the right side of the ultraviolet lamp bracket 31 are respectively connected with a clamping component 5, and the ultraviolet light source module 3 can be detachably connected with the left side wall and the right side wall of the cabinet body 1 through the clamping component 5.

Referring to fig. 2, in the present embodiment, the second photocatalytic module 4 has the same structure as the first photocatalytic module 2, wherein the first photocatalytic module 2 includes a photocatalytic net 21, and the surface of the photocatalytic net 21 is coated with a titanium dioxide catalyst. Tio2 has good photo-corrosion resistance and catalytic activity, stable performance, low price, easy obtaining, no toxicity and no harm, and is the best photo-catalyst recognized at present. The titanium dioxide catalyst on the photocatalytic net 21 receives the irradiation of the ultraviolet lamp, so that the nano titanium dioxide coating can be activated to generate catalytic oxidation reduction reaction, harmful substances in the air are safely converted into inorganic substances such as carbon dioxide, water and the like, and the effects of further sterilizing, inhibiting bacteria, removing formaldehyde and viruses, preventing and treating the breeding of mold and the like are achieved. The periphery of the photocatalytic net 21 is provided with a frame 22, and the photocatalytic net 21 can be fixed through the frame 22. The left side and the right side of the frame 22 are respectively connected with a clamping component 5, and the first photocatalytic module 2 and the second photocatalytic module 4 can be detachably connected with the left side wall and the right side wall of the cabinet body 1 through the clamping component 5.

Referring to fig. 4 and 5, specifically, the clamping assembly 5 includes a fixing plate 51 and a pin 52, two sides of the fixing plate 51 extend upward to form a first flange 511 and a second flange 512, two first pin holes 5111 are formed in the first flange 511 in the water supply direction, a second pin hole 5121 coaxial with the first pin hole 5111 is formed in the second flange 512, the pin 52 is U-shaped, two ends of the pin 52 respectively penetrate the first pin hole 5111 and the second pin hole 5121, a spring 53 is sleeved on a portion of the pin 52 located in the fixing plate 51, a limiting piece 521 is fixedly disposed on the pin 52 where an inner side surface of the second flange 512 is located, and two ends of the spring 53 respectively abut against the first flange 511 and the limiting piece 521.

Under the above structure arrangement, in an initial state, under the elastic force of the spring 53, one end of the spring 53 abuts against the limiting piece 521, and the limiting piece 521 abuts against the second flange 512, so that the two free ends of the plug 52 pass through the second pin hole 5121, when the plug 52 is pulled, the two free ends of the plug 52 can move towards the second pin hole 5121, and after the plug 52 is sent out, the elastic force of the spring 53 is restrained, and the plug 52 extends out along the second pin hole 5121.

In the present embodiment, the first photocatalytic module 2 and the second photocatalytic module 4 are fixedly connected to the fixing plate 51 of the clamping assembly 5 through the frame 22, and specifically, the fixing plate 51 is fixed on the left and right sides of the frame 22. The ultraviolet light source module 3 is fixedly connected with the fixing plate 51 of the clamping component 5 through the ultraviolet lamp holder 31, and specifically, the fixing plate 51 is fixed on the left side and the right side of the ultraviolet lamp holder 31.

Referring to fig. 6 and 7, in this embodiment, the two side walls of the cabinet 1 are respectively and fixedly provided with the mounting plates 6, the mounting plates 6 are provided with three jack groups 61 from top to bottom for inserting the pins 52, each jack group 61 includes a first jack 611 and a second jack 612, and the first jack 611 and the second jack 612 are arranged in an inclined manner.

With the above structure, the first photocatalytic module 2 and the second photocatalytic module 4 are respectively connected to the first jack group 61 and the third jack group 61 on the mounting plate 6 through the plug 52 on the clamping assembly 5, specifically, the two free ends of the plug 52 are respectively inserted into the first jack 611 and the second jack 612.

The uv light source module 3 is connected to the second jack group 61 of the mounting board 6 through the plug 52 of the clamping assembly 5, and specifically, the two free ends of the plug 52 are respectively inserted into the first jack 611 and the second jack 612.

Because the first insertion hole 611 and the second insertion hole 612 are arranged in an up-down inclined manner, the first photocatalytic module 2, the second photocatalytic module 4 and the ultraviolet light source module 3 are formed in an up-down inclined manner in the cabinet body 1 after being mounted with the mounting plate 6.

In the installation process of the above module, firstly, the bolt 52 is pulled to make the two free ends of the bolt 52 move towards the second pin hole 5121, after the frame 22 or the ultraviolet lamp holder 31 is completely embedded between the two mounting plates 6 in the cabinet 1, the two free ends of the bolt 52 are respectively aligned with the first insertion hole 611 and the second insertion hole 612, at this time, the bolt 52 is released, and under the elastic action of the spring 53, the two free ends of the bolt 52 respectively extend out of the second pin hole 5121 and are inserted into the first insertion hole 611 and the second insertion hole 612, so that the connection of the first photocatalytic module 2, the second photocatalytic module 4 and the ultraviolet light source module 3 with the mounting plates 6 is realized.

Above-mentioned installation can be from last down installing, also can be from down up installing, convenient operation, the installation is swift, and it is also convenient to dismantle first photocatalysis module 2, second photocatalysis module 4 and ultraviolet source module 3 simultaneously, only needs to stimulate bolt 52, makes bolt 52 break away from first jack 611 and second jack 612 can. Dismantle the convenience, be convenient for wash the photocatalysis net 21 on first photocatalysis module 2 and the second photocatalysis module 4, increased the life-span and the photocatalysis disinfection effect of photocatalysis net 21.

Preferably, the central connecting line of the first insertion hole 611 and the second insertion hole 612 forms an angle of 20-70 degrees with the vertical plane of the cabinet 1. The setting of angle can be according to the cabinet body 1 highly suitably select, and of course, the angle is big more, and first photocatalytic module 2 and second photocatalytic module 4's area is big more, and the cabinet body 1 that needs is high more, the utility model discloses can adjust the design according to actual need, the utility model discloses do not specifically prescribe a limit to.

In this embodiment, each jack group 61 is parallel and equidistant to be set up each other, adopt such structure setting, can make first photocatalysis module 2, second photocatalysis module 4 and ultraviolet source module 3 are parallel state each other, avoid taking place the installation to interfere, equidistant setting, the ultraviolet ray of having guaranteed that the ultraviolet lamp sent can be by the even absorption of the photocatalysis net 21 on first photocatalysis module 2 and the second photocatalysis module 4 and catalyze, improve photocatalysis efficiency, thereby make cabinet type air purifier's purification efficiency improve.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a cabinet type air purifier purifies disinfection structure, its includes cabinet body (1), its characterized in that: still include from last down slope in proper order set up first photocatalysis module (2), ultraviolet source module (3) and second photocatalysis module (4) in the cabinet body (1), the upper and lower both sides limit of first photocatalysis module (2), ultraviolet source module (3) and second photocatalysis module (4) respectively with the front and back lateral wall looks butt of the cabinet body (1), the left and right sides limit of first photocatalysis module (2), ultraviolet source module (3) and second photocatalysis module (4) is equipped with joint subassembly (5) that are used for going on dismantling the connection with the cabinet body (1) left and right sides wall respectively.

2. The cabinet type air purifier purifying and disinfecting structure of claim 1, wherein: the clamping assembly (5) comprises a fixing plate (51) and a bolt (52), a first flanging (511) and a second flanging (512) are formed by upward extending two sides of the fixing plate (51) respectively, two first pin holes (5111) are formed in the water feeding direction of the first flanging (511), a second pin hole (5121) coaxial with the first pin hole (5111) is formed in the second flanging (512), the bolt (52) is U-shaped, two ends of the bolt (52) penetrate through the first pin hole (5111) and the second pin hole (5121) respectively, a spring (53) is sleeved on a part, located in the fixing plate (51), of the bolt (52), a limiting piece is fixedly arranged on the bolt (52) on which the inner side face of the second flanging (512) is located, and two ends of the spring (53) prop against the first flanging (511) and the limiting piece (521) respectively.

3. The cabinet type air purifier purifying and disinfecting structure of claim 2, wherein: the structure of second photocatalysis module (4) is the same with first photocatalysis module (2), wherein, first photocatalysis module (2) are including photocatalysis net (21), photocatalysis net (21) are equipped with frame (22) all around, fixed plate (51) of joint subassembly (5) respectively with frame (22) left and right sides fixed connection.

4. The cabinet type air purifier purifying and disinfecting structure of claim 3, wherein: the surface of the photocatalytic net (21) is coated with a titanium dioxide catalyst.

5. The cabinet type air purifier purifying and disinfecting structure of claim 2, wherein: ultraviolet light source module (3) is including being ultraviolet lighting fixture (31) of square setting, ultraviolet lighting fixture (31) are gone up horizontal installation and are had many ultraviolet tube (32), fixed plate (51) of joint subassembly (5) respectively with the left and right sides fixed connection of ultraviolet lighting fixture (31).

6. The purifying and disinfecting structure of the cabinet air purifier as claimed in claim 3 or 4, wherein: the utility model discloses a cabinet body, including the cabinet body, be provided with mounting panel (6) on the cabinet body (1) both sides wall respectively fixedly, mounting panel (6) are gone up from last down to be provided with three and are used for pegging graft jack group (61) of bolt (52), jack group (61) include first jack (611) and second jack (612), and first jack (611) and second jack (612) are the setting of inclining from top to bottom.

7. The cabinet type air purifier purifying and disinfecting structure of claim 6, wherein: the central connecting line of the first jack (611) and the second jack (612) forms an angle of 20-70 degrees with the vertical plane of the cabinet body (1).

8. The cabinet type air purifier purifying and disinfecting structure of claim 7, wherein: the socket groups (61) are arranged in parallel and at equal intervals.

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