CN215388719U - High-efficient deodorizing device - Google Patents

Abstract

A high-efficiency deodorizing device comprises a shell, a supporting frame, a plasma deodorizing device, a photocatalyst deodorizing device, a microwave heating device and an induced air device. The plasma deodorization device comprises an electric field shell and a plasma deodorization component. Each of the plasma deodorization assemblies includes a filter screen, and a plasma generator. The electric field shell comprises an electric field shell main body, an air outlet, an air inlet, a mounting hole and a mounting guide frame. The photocatalyst deodorization device comprises a lamp shell, a lamp support and a photocatalyst lamp tube. Each lamp support comprises a lamp support frame and a lamp tube mounting plate. Each lamp tube mounting plate comprises a lamp tube mounting plate main body and mounting holes. Each microwave heating device comprises a microwave heating main body and an emitting device. The efficient deodorization device is simple in structure, convenient to use and install, and capable of achieving more efficient and economical treatment of odor.

Description

High-efficient deodorizing device

Technical Field

The utility model belongs to the technical field of odor removal, and particularly relates to a high-efficiency deodorization device.

Background

With the development of social economy and the acceleration of industrialization process, a large amount of garbage is generated, and a large amount of malodorous pollutants generated in the garbage treatment process are discharged into the air inevitably, so that the surrounding environment and the life of residents are negatively influenced. Therefore, there is an increasing demand for odor treatment in garbage places, and there is an increasing demand for deodorization in a deodorization device in order to improve the quality and efficiency of odor treatment.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a high efficiency deodorization device capable of improving deodorization efficiency, so as to meet industrial requirements.

The utility model provides a high-efficient deodorizing device includes a shell, and a setting is in the support frame of shell one end, a setting is in plasma deodorizing device on the support frame, a photocatalyst deodorizing device who sets up in plasma deodorizing device one end, two symmetries set up microwave heating device on the photocatalyst deodorizing device, and a fixed connection is in the shell is kept away from the induced air device of support frame one end. The plasma deodorization device comprises an electric field shell fixedly connected to the shell and a plurality of plasma deodorization components arranged in the electric field shell at intervals. Each plasma deodorization assembly comprises at least one filter screen and a plurality of plasma generators inserted in the filter screen. The electric field shell includes that one sets up electric field shell main part on the support frame, one sets up the electric field shell main part is close to the exhaust vent of photocatalyst deodorizing device one side, one sets up the electric field shell main part dorsad the fresh air inlet of exhaust vent one side, one sets up electric field shell main part one side lateral wall mounting hole to and the multiunit setting is in installation guide frame in the electric field shell main part. Each plasma deodorization assembly is erected on one group of installation guide frames. The photocatalyst deodorization device comprises a lamp shell arranged in the shell, two lamp supports symmetrically arranged at two ends of the lamp shell, and a plurality of photocatalyst lamp tubes arranged between the lamp supports. Each lamp props and all includes a lamp and props the frame to and a plurality of interval sets up lamp tube mounting panel on the lamp props the frame. The lamp tube mounting plates are arranged in parallel. Each lamp tube mounting plate comprises a lamp tube mounting plate main body and a plurality of mounting holes which are arranged on the lamp tube mounting plate main body at intervals. Each microwave heating device comprises a microwave heating main body arranged on the lamp shell and an emitting device arranged on one side of the microwave heating main body. The extending direction of each photocatalyst lamp tube is consistent with the central axis direction of the shell, and the plasma deodorization device, the photocatalyst deodorization device, the microwave heating device and the air inducing device are hermetically connected together, so that gas flows out of the air inducing device.

Further, the high-efficiency deodorization device also comprises a control device arranged on the shell.

Further, the distance between any two adjacent lamp tube mounting plates is equal.

Further, the distance between any two adjacent mounting holes is equal.

Further, the plasma deodorization device, the photocatalyst deodorization device and the induced draft device are overlapped in central axis.

Further, the plasma generators in each plasma deodorization assembly are symmetrically arranged at two ends of the filter screen.

Furthermore, the induced draft device includes a fan shell, a fan that sets up in the fan shell to and two respectively fixed connection be in the screen panel at fan shell both ends.

Compared with the prior art, the high-efficiency deodorization device provided by the utility model carries out two times of deodorization treatment through the plasma deodorization device and the photocatalyst deodorization device. The plasma deodorization device comprises an electric field shell fixedly connected to the shell and a plurality of plasma deodorization components arranged in the electric field shell at intervals. The electric field shell the plasma deodorization subassembly all erects on the installation guide frame, the plasma deodorization subassembly can be followed the installation guide frame slides to be convenient for change the plasma deodorization subassembly. Each plasma deodorization subassembly all includes at least one filter screen, and a plurality of plasma generator of wearing to establish on the filter screen. The filter screen is used for filtering dust, and the plasma generator eliminates peculiar smell and improves the quality of air. The photocatalyst deodorization device comprises a lamp shell arranged in the shell, two lamp supports symmetrically arranged at two ends of the lamp shell, and a plurality of photocatalyst lamp tubes arranged between the lamp supports. Each lamp props and all includes a lamp and props the frame to and a plurality of interval sets up lamp tube mounting panel on the lamp props the frame. The mounting holes of each lamp tube mounting plate are used for mounting the photocatalyst lamp tubes, so that the photocatalyst lamp tubes are stable in position. The lamp tube mounting plates are arranged in parallel to prevent the photocatalyst lamp tubes on the lamp tube mounting plates from being intersected together. The photocatalyst lamp tube can purify air, sterilize and disinfect. The photocatalyst deodorization device is also provided with the microwave heating device so as to keep the photocatalyst deodorization device dry. The efficient deodorization device is simple in structure, convenient to use and install, and capable of achieving more efficient and economical treatment of odor.

Drawings

Fig. 1 is a schematic structural view of a high-efficiency deodorizing device provided by the present invention.

Fig. 2 is a schematic sectional view of the high-efficiency deodorizing means of fig. 1.

FIG. 3 is a schematic sectional view of the plasma deodorization module in the high-efficiency deodorization apparatus shown in FIG. 2.

Detailed Description

Specific examples of the present invention will be described in further detail below. It should be understood that the description herein of embodiments of the utility model is not intended to limit the scope of the utility model.

As shown in fig. 1 to 3, which are schematic structural views of the high-efficiency deodorizing device provided by the present invention. High-efficient deodorizing device includes a shell 1, and a setting is in support frame 2 of 1 one end of shell, a setting is in plasma deodorizing device 10 on the support frame 2, a photocatalyst deodorizing device 20 that sets up in plasma deodorizing device 10 one end, two symmetries set up microwave heating device 30 on the photocatalyst deodorizing device 20, a fixed connection is in shell 1 keeps away from the induced air device 40 of 2 one end ends of support frame, and one sets up controlling means 50 on the shell 1. The high-efficiency deodorizing device further includes other functional modules, such as assembling components, electrical connecting components, etc., which should be known to those skilled in the art, and will not be described in detail herein.

The housing 1 is used for installing the plasma deodorization device 10, the photocatalyst deodorization device 20, the microwave heating device 30, and the induced air device 40, so that the devices are integrated with each other and protected, and the housing 1 is a prior art and is not described herein again.

Support frame 2 fixed connection be in the one end of shell 1, plasma deodorizing device 10 set up in on the support frame 2, make plasma deodorizing device 10 sets up with the contact surface interval to be convenient for gaseous entering in the ion deodorizing device 10. The supporting frame 2 is a prior art, and is not described herein again.

The plasma deodorization apparatus 10 includes a field case 11 fixedly connected to the housing 1, and a plurality of plasma deodorization assemblies 12 disposed at intervals in the field case 11.

The electric field shell 11 includes that one sets up electric field shell main part 111 on the support frame 2, one sets up electric field shell main part 111 is close to the exhaust vent 112 of photocatalyst deodorizing device 20 one side, one sets up electric field shell main part 111 dorsad the fresh air inlet 113 of exhaust vent 112 one side, one sets up electric field shell main part 111 one side lateral wall mounting hole 114 to and the multiunit setting is in installation guide frame 115 in electric field shell main part 111.

The electric field shell main part 111 is used for protecting the plasma deodorization assembly 12, makes a plurality of the plasma deodorization assembly 12 forms a whole, the fresh air inlet 113 is used for getting into external air in the electric field shell 11, and loops through the plasma deodorization assembly 12 is deodorized and is followed the exhaust vent 112 flows out, lets in the exhaust vent 112.

Each of the plasma deodorization assemblies 12 includes at least one filter screen 121, and a plurality of plasma generators 122 penetrating the filter screen 121. Each of the plasma deodorization assemblies 12 is mounted on a set of the mounting guide frames 115, and the plasma deodorization assembly 12 can slide along the mounting guide frames 115, so that the plasma deodorization assembly 12 can be conveniently taken out from the mounting hole 114, thereby replacing the plasma deodorization assembly 12.

The filter screen 121 is used to filter large particles of dust and prevent the dust from contacting the plasma generator 122. The filter screen 121 is a prior art, and is not described herein again. The plasma generators 122 of each plasma deodorization assembly 12 are symmetrically arranged at both ends of the filter screen 121. The plasma generator 122 is inserted into the filter screen 121, that is, the filter screen 121 covers the ion generator 122 to filter dust and protect the ion generator 122.

When the plasma generator 122 is used, the positive ions and the negative ions generated at the same time generate huge energy release at the moment of neutralizing positive and negative charges in the air, so that the structure of bacteria around the plasma generator is changed or the energy is converted, the bacteria are killed, and the sterilization effect of the plasma generator is realized. Because the quantity of the negative ions is greater than that of the positive ions, the redundant negative ions still float in the air, and the effects of eliminating smoke and dust, eliminating peculiar smell and improving the quality of the air can be achieved, so that the health care effect of human health is promoted. The plasma generator 122 is a prior art. In this embodiment, in the process of purifying air by the plasma generator 122, the plasma generator 122 generates ozone, the generated ozone is transmitted to the outside through the photocatalyst deodorization device 20 and the air inducing device 40, and the ozone is described with reference to the air inducing device 40.

The photocatalyst deodorization device 20 comprises a lamp housing 21 arranged in the housing 1, two lamp supports 22 symmetrically arranged at two ends of the lamp housing, and a plurality of photocatalyst tubes 23 arranged between the lamp supports 22.

The lamp housing 21 is used for covering the photocatalyst tube 23, protecting the photocatalyst tube 23, and guiding gas to be transmitted to the induced draft device 40 along the lamp housing 21, and the lamp housing 21 is a prior art and is not described herein again.

Each of the lamp holders 22 includes a lamp holder frame 221, and a plurality of lamp tube mounting plates 222 disposed on the lamp holder frame 221 at intervals. The lamp mounting plates 222 are arranged in parallel with each other.

Each of the lamp mounting plates 222 includes a lamp mounting plate main body 2221, and a plurality of mounting holes 2222 spaced apart from each other on the lamp mounting plate main body 2221. The mounting holes 2222 are used to mount the photocatalyst tube 23, so that the position of the photocatalyst tube 23 is stable. The mounting holes 2222 in both the lamp holders 22 correspond to each other. The distance between any two adjacent lamp tube mounting plates 222 is equal, and the distance between any two adjacent lamp tube mounting plates 2222 is equal, so that the distances between the photocatalyst lamps 23 are all equal, and the gas is uniformly treated.

The photocatalyst is a synthesized word of light and catalyst. The photocatalyst is a generic name of a photo-semiconductor material represented by nano-scale titanium dioxide and having a photocatalytic function, and is one of materials for treating indoor environmental pollution internationally. The surface of the photocatalyst lamp tube 23 is usually coated with a layer of uniform film, and a layer of rainbow film is observed facing the light, so that the brightness of the light is not influenced. The filament of the photocatalyst lamp tube is different from the filament of the common lamp tube, and the filament of gallium tungsten 365 nanometer wavelength is used in some cases. The photocatalyst lamp tube 23 can perform the functions of air purification, sterilization and disinfection without affecting the illumination. The extending direction of each photocatalyst tube 23 is consistent with the central axis direction of the housing 1, so that the photocatalyst tubes 23 are always in contact with the gas during the gas transmission process in the lamp housing 21. The photocatalyst lamp 23 is a prior art and will not be described herein.

Each of the microwave heating devices 30 includes a microwave heating body 31 disposed on the lamp housing 21, and an emitting device 32 disposed at one side of the microwave heating body 31. The microwave heating body 31 drives the emitting device 32 to work. Under the action of the microwave heating device 30, the photocatalyst deodorization device 20 is kept dry, so as to prevent the ozone from reacting with the water in the air. The microwave heating body 31 and the emitting device 32 are all the prior art and are not described herein again.

The air inducing device 40 includes a blower housing 41, a blower 42 disposed in the blower housing 41, and two mesh covers 43 fixedly connected to two ends of the blower housing 41, respectively. One end of the fan housing 41 is connected to the lamp housing 21, the mesh enclosure 43 is used for protecting two ends of the fan housing 41, and when the fan 42 is driven, the fan 42 makes the gas in the plasma deodorization device 10 and the photocatalyst deodorization device 20 flow, so as to purify the gas. In addition, when in use, one end of the induced air device 40 is communicated with purified water, so that ozone formed by the plasma deodorization device 10 is mixed with the purified water, and the ozone has a high oxidation-reduction potential in the water, so that the ozone is commonly used for sterilization, deodorization, decoloration and the like.

The plasma deodorization device 10, the photocatalyst deodorization device 20, the microwave heating device 30, and the air inducing device 40 are hermetically connected together, so that gas flows out from the air inducing device 40, and the central axes of the plasma deodorization device 10, the photocatalyst deodorization device 20, and the air inducing device 40 are overlapped, so that gas flows out smoothly.

The control device 50 is connected to the plasma deodorization device 10, the photocatalyst deodorization device 20, the microwave heating device 30, and the air inducing device 40, thereby controlling the respective devices. The control device 50 is a prior art device and will not be described in detail herein.

Compared with the prior art, the high-efficiency deodorization device provided by the utility model performs deodorization treatment twice through the plasma deodorization device 10 and the photocatalyst deodorization device 20. The plasma deodorization apparatus 10 includes a field case 11 fixedly connected to the housing 1, and a plurality of plasma deodorization assemblies 12 disposed at intervals in the field case 11. The plasma deodorization assembly 12 is mounted on the mounting guide frame 115 of the field case 11, and the plasma deodorization assembly 12 can slide along the mounting guide frame 115 to facilitate replacement of the plasma deodorization assembly 12. Each of the plasma deodorization assemblies 12 includes at least one filter screen 121, and a plurality of plasma generators 122 penetrating the filter screen 121. The filter screen 121 is used for filtering dust, and the plasma generator 122 eliminates odor and improves air quality. The photocatalyst deodorization device 20 comprises a lamp housing 21 arranged in the housing 1, two lamp supports 22 symmetrically arranged at two ends of the lamp housing, and a plurality of photocatalyst tubes 23 arranged between the lamp supports 22. Each of the lamp holders 22 includes a lamp holder frame 221, and a plurality of lamp tube mounting plates 222 disposed on the lamp holder frame 221 at intervals. The mounting holes 2222 of each lamp mounting plate 222 are used for mounting the photocatalyst tubes 23, so that the position of the photocatalyst tubes 23 is stable. The lamp mounting plates 222 are disposed in parallel to each other to prevent the photocatalyst lamps 23 on the lamp mounting plates 222 from intersecting with each other. The photocatalyst lamp tube 23 can purify air, sterilize and disinfect. The photocatalyst deodorizing device 20 is further provided with the microwave heating device 30 to keep the photocatalyst deodorizing device 20 dry. The efficient deodorization device is simple in structure, convenient to use and install, and capable of achieving more efficient and economical treatment of odor.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, and any modifications, equivalents or improvements that are within the spirit of the present invention are intended to be covered by the following claims.

Claims (7)

1. The utility model provides a high-efficient deodorizing device, includes a shell, and one sets up the support frame of shell one end, its characterized in that: the high-efficiency deodorization device comprises a plasma deodorization device arranged on the support frame, a photocatalyst deodorization device arranged at one end of the plasma deodorization device, two microwave heating devices symmetrically arranged on the photocatalyst deodorization device, and an air inducing device fixedly connected to the end head of the shell far away from one end of the support frame, wherein the plasma deodorization device comprises a field case fixedly connected to the shell, and a plurality of plasma deodorization components arranged in the field case at intervals, each plasma deodorization component comprises at least one filter screen and a plurality of plasma generators inserted in the filter screens, the field case comprises a field case main body arranged on the support frame, and an air outlet arranged at one side of the field case main body close to the photocatalyst deodorization device, a wind inlet hole arranged on one side of the electric field casing body opposite to the wind outlet hole, a mounting hole arranged on one side wall of the electric field casing body, and a plurality of groups of mounting guide frames arranged in the electric field casing body, wherein each plasma deodorization component is erected on one group of the mounting guide frames, the photocatalyst deodorization device comprises a lamp housing arranged in the casing, two lamp supports symmetrically arranged at two ends of the lamp housing, and a plurality of photocatalyst lamp tubes arranged between the lamp supports, each lamp support comprises a lamp support frame, and a plurality of lamp tube mounting plates arranged on the lamp support frame at intervals, the lamp tube mounting plates are arranged in parallel, each lamp tube mounting plate comprises a lamp tube mounting plate body, and a plurality of mounting holes arranged on the lamp tube mounting plate body at intervals, each microwave heating device comprises a microwave heating main body arranged on the lamp shell and an emitting device arranged on one side of the microwave heating main body, the extending direction of each photocatalyst lamp tube is consistent with the direction of the central shaft of the shell, and the plasma deodorization device, the photocatalyst deodorization device, the microwave heating device and the air inducing device are hermetically connected together so that gas flows out of the air inducing device.

2. The high efficiency deodorizing means according to claim 1, wherein: the high efficiency deodorizing means further comprises a control means provided on the casing.

3. The high efficiency deodorizing means according to claim 1, wherein: the distance between any two adjacent lamp tube mounting plates is equal.

4. The high efficiency deodorizing means according to claim 1, wherein: the distance between any two adjacent mounting holes is equal.

5. The high efficiency deodorizing means according to claim 1, wherein: the plasma deodorization device, the photocatalyst deodorization device and the air inducing device are overlapped by the central axis.

6. The high efficiency deodorizing means according to claim 1, wherein: the plasma generators in each plasma deodorization assembly are symmetrically arranged at two ends of the filter screen.

7. The high efficiency deodorizing means according to claim 1, wherein: the air inducing device comprises a fan shell, a fan arranged in the fan shell and two mesh enclosures fixedly connected to two ends of the fan shell respectively.

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