CN204973339U - Molecular sieve air purification device - Google Patents

Abstract

The utility model provides a molecular sieve air purification device, includes the framework, be arranged in the framework below the admission line, accept in the first filter screen of admission line, accept in a plurality of heating pipes of admission line, be located the admission line right side first fan, be located the framework top the connecting tube, be located the cooler bin of connecting tube below and be located the second fan of cooler bin below, the framework is hollow cylinder, the top and bottom table facial features of framework is led to, is equipped with the molecular sieve filter screen in the framework and is located the first filter of molecular sieve filter screen below, the admission line is the L type, the admission line includes vertical component and horizontal component, it accepts the chamber to be equipped with one in the vertical component, the inside horizontally inlet channel that is equipped with of horizontal component, accept the chamber with inlet channel communicates with each other, the heating pipe is located accept in the chamber, first filter screen is located among the inlet channel, the cooler bin includes the box and is located the inside a plurality of cooling tubes of box.

Description

A kind of molecular sieve air cleaning unit

Technical field

The utility model relates to a kind of air cleaning facility, particularly relates to a kind of molecular sieve air cleaning unit.

Background technology

Along with the increasing of air pollution degree, air purifier becomes a part important in life gradually, and existing air purifier volume ratio is commercially comparatively large, and cost is also high, is therefore badly in need of a kind of small volume and lower-cost air cleaning unit.

Utility model content

Problem to be solved in the utility model is to provide a kind of molecular sieve air cleaning unit that can effectively solve the problems of the technologies described above.

In order to solve the problems of the technologies described above, the utility model adopts following technical scheme:

A kind of molecular sieve air cleaning unit, described molecular sieve air cleaning unit comprises framework, be positioned at the admission line below described framework, be contained in the first screen pack in described admission line, be contained in the some heating tubes in described admission line, be positioned at the first blower fan on the right side of described admission line, be positioned at the connecting pipe above described framework, be positioned at the cooler bin below described connecting pipe and be positioned at the second blower fan below described cooler bin, described framework is hollow cylinder, the upper and lower surface of described framework communicates, be provided with molecular sieve filtration net in described framework and be positioned at first filter of described molecular sieve filtration side off the net, described admission line is L-type, described admission line comprises vertical component and horizontal component, a host cavity is provided with in described vertical component, described horizontal component inside is provided with the inlet channel of a level, described host cavity communicates with described inlet channel, described heating tube is arranged in described host cavity, described first screen pack is arranged in described inlet channel, described cooler bin comprises casing and is positioned at some cooling tubes of described box house.

Described molecular sieve filtration net is cylinder, and the edge of described molecular sieve filtration net is fixedly connected with the inwall of described framework.

Described first filter is cylinder, and the edge of described first filter is fixedly connected with the inwall of described framework, and described first filter is provided with some first through holes, and described first through hole communicates with the upper and lower surface of described first filter.

Described vertical component is positioned at the left side of described horizontal component, and is positioned at the top of described horizontal component, and the upper surface of described vertical component is fixedly connected with the lower surface of described framework.

Described first screen pack is provided with some circular holes.

The air outlet that described first blower fan is provided with an air inlet and is positioned on the left of described air inlet.

Described connecting pipe is roughly in semicircle shape, and the lower surface of described connecting pipe is fixedly connected with the upper surface of described framework, and the upper surface of described connecting pipe is fixedly connected with the upper surface of described cooler bin.

Described casing is cuboid.

Described second blower fan is positioned at the below of described cooler bin, and described second blower fan is provided with side ducts and is positioned at the lower side conduit below described second blower fan.

The upper end of described upper side ducts is fixedly connected with the lower surface of described cooler bin, and described upper side ducts communicates with the inside of described cooler bin.

After adopting technique scheme, the utility model tool has the following advantages:

The utility model molecular sieve air cleaning unit structure is simple, easy to use, can effectively purify air, and carries out heating cooling to its temperature, and accelerate its purification process, molecular sieve can by contaminants removal most of in air, fast and easy.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described further:

Fig. 1 is the structural representation of the utility model molecular sieve air cleaning unit.

Detailed description of the invention

As shown in Figure 1, the utility model molecular sieve air cleaning unit comprises framework 1, is arranged in admission line 2 below described framework 1, is contained in the first screen pack 3 of described admission line 1, is contained in some heating tubes 4 of described admission line 1, is positioned at the first blower fan 5 on the right side of described admission line 2, is positioned at connecting pipe 6 above described framework 1, is positioned at the cooler bin 7 below described connecting pipe 6 and is positioned at the second blower fan 8 below described cooler bin 7.

As shown in Figure 1, described framework 1 is in hollow cylinder, and the upper and lower surface of described framework 1 communicates.Be provided with molecular sieve filtration net 11 in described framework 1 and be positioned at the first filter 12 below described molecular sieve filtration net 11.Described molecular sieve filtration net 11 is in cylinder, and the edge of described molecular sieve filtration net is fixedly connected with the inwall of described framework 1.Described first filter 12 is in cylinder, the edge of described first filter 12 is fixedly connected with the inwall of described framework 1, described first filter 12 is provided with some first through holes 121, and described first through hole 121 communicates with the upper and lower surface of described first filter 12.

As shown in Figure 1, described admission line 2 is in L-type, it comprises vertical component and horizontal component, described vertical component is positioned at the left side of described horizontal component, and be positioned at the top of described horizontal component, the upper surface of described vertical component is fixedly connected with the lower surface of described framework 1, and the right surface of described horizontal component is for entering the air needing purification.Be provided with a host cavity 21 in described vertical component, described horizontal component inside is provided with the inlet channel 22 of a level, and described host cavity 21 communicates with described inlet channel 22.Described heating tube 4 is arranged in described host cavity 21, thus can heat the air of coming in described inlet channel 22, makes it increase, and through the filtration of the first filter 12 and molecular sieve filtration net 11, is fallen by dust Impurity removal wherein.Described first screen pack 3 is arranged in described inlet channel 22, and is fixedly connected with the inwall of described inlet channel 22.Described first screen pack 3 is provided with some circular holes 31, makes air enter into host cavity 21.The air outlet 51 that described first blower fan 5 is provided with an air inlet 52 and is positioned on the left of described air inlet 52.Described air outlet 51 is connected with the right surface of the horizontal component of described admission line 2, makes described first blower fan 5 can by air transmission in described admission line 2.

As shown in Figure 1, described connecting pipe 6 is roughly in semicircle shape, and the lower surface of described connecting pipe 6 is fixedly connected with the upper surface of described framework 1.The upper surface of described connecting pipe 6 is fixedly connected with the upper surface of described cooler bin 7, and described connecting pipe 6 cools in the gas transport after filtration in described framework 1 to described cooler bin 7 it, makes it be more suitable for surrounding environment.Described cooler bin 7 comprises casing 71 and is positioned at some cooling tubes 72 of described casing 71 inside.Described casing 71 is in cuboid, and described cooling tube 72 can cool the hot-air entered in cooler bin 7, its temperature is reduced, discharging.Described second blower fan 8 is positioned at the below of described cooler bin 7, and described second blower fan 8 is provided with side ducts 81 and is positioned at the lower side conduit 82 below described second blower fan 8.The upper end of described upper side ducts 81 is fixedly connected with the lower surface of described cooler bin 7, and described upper side ducts 81 communicates with the inside of described cooler bin 7.Described lower side conduit 82 for being transported to outside from upper side ducts 81 by air.

As shown in Figure 1, during described the utility model molecular sieve air cleaning unit work, first the first blower fan 5 is started, make to need the air of purification to enter into device from air inlet 52, and through the first screen pack 3, it is filtered, wherein most particulate blockage is made outside, to need the air of purification to enter into host cavity 21.Then heating tube 4 starts to heat it, air themperature is raised, and start to move upward, through the first filter 12 and molecular sieve filtration net 11, it is filtered, wherein most dust, impurity, particle filtering are fallen, and enters into cooler bin 7 through connecting pipe 6, wherein cooling tube 72 starts its cooling, fall within the range of the temperature made people feel comfortable, then transfer to outside by the second blower fan 8.So far, the work of the utility model molecular sieve air cleaning unit is complete.

More than show and describe general principle of the present utility model, principal character and advantage.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (10)

1. a molecular sieve air cleaning unit, it is characterized in that: described molecular sieve air cleaning unit comprises framework, be positioned at the admission line below described framework, be contained in the first screen pack in described admission line, be contained in the some heating tubes in described admission line, be positioned at the first blower fan on the right side of described admission line, be positioned at the connecting pipe above described framework, be positioned at the cooler bin below described connecting pipe and be positioned at the second blower fan below described cooler bin, described framework is hollow cylinder, the upper and lower surface of described framework communicates, be provided with molecular sieve filtration net in described framework and be positioned at first filter of described molecular sieve filtration side off the net, described admission line is L-type, described admission line comprises vertical component and horizontal component, a host cavity is provided with in described vertical component, described horizontal component inside is provided with the inlet channel of a level, described host cavity communicates with described inlet channel, described heating tube is arranged in described host cavity, described first screen pack is arranged in described inlet channel, described cooler bin comprises casing and is positioned at some cooling tubes of described box house.

2. molecular sieve air cleaning unit according to claim 1, is characterized in that: described molecular sieve filtration net is cylinder, and the edge of described molecular sieve filtration net is fixedly connected with the inwall of described framework.

3. molecular sieve air cleaning unit according to claim 2, it is characterized in that: described first filter is cylinder, the edge of described first filter is fixedly connected with the inwall of described framework, described first filter is provided with some first through holes, and described first through hole communicates with the upper and lower surface of described first filter.

4. molecular sieve air cleaning unit according to claim 3, it is characterized in that: described vertical component is positioned at the left side of described horizontal component, and being positioned at the top of described horizontal component, the upper surface of described vertical component is fixedly connected with the lower surface of described framework.

5. molecular sieve air cleaning unit according to claim 4, is characterized in that: described first screen pack is provided with some circular holes.

6. molecular sieve air cleaning unit according to claim 5, is characterized in that: the air outlet that described first blower fan is provided with an air inlet and is positioned on the left of described air inlet.

7. molecular sieve air cleaning unit according to claim 6, it is characterized in that: described connecting pipe is roughly in semicircle shape, the lower surface of described connecting pipe is fixedly connected with the upper surface of described framework, and the upper surface of described connecting pipe is fixedly connected with the upper surface of described cooler bin.

8. molecular sieve air cleaning unit according to claim 7, is characterized in that: described casing is cuboid.

9. molecular sieve air cleaning unit according to claim 8, is characterized in that: described second blower fan is positioned at the below of described cooler bin, and described second blower fan is provided with side ducts and is positioned at the lower side conduit below described second blower fan.

10. molecular sieve air cleaning unit according to claim 9, is characterized in that: the upper end of described upper side ducts is fixedly connected with the lower surface of described cooler bin, and described upper side ducts communicates with the inside of described cooler bin.