CN217441888U - A high-efficient ventilation unit for removing aldehyde robot - Google Patents

Abstract

The utility model provides a high-efficient ventilation unit for removing aldehyde robot, including casing, air inlet mechanism, processing mechanism and air-out mechanism, use this to remove aldehyde robot to indoor when removing aldehyde, will remove aldehyde robot and put indoor, then start whole platform and remove aldehyde robot. The two air inlet fans are operated, so that indoor air can enter from the plurality of air inlets on the side surface of the shell, and part of the air is directly blown in from the air inlet fan at the bottom of the shell. The air inlet machine that is located the bottom is direct towards another air inlet machine, consequently can be fine make the outside air of casing can get into the cavity fast, then directly blow to processing agency through the air inlet machine in the cavity, and processing agency can handle the formaldehyde in the air well, and disinfect the air, then blows off the air that will handle through air-out mechanism from a plurality of air outlets. Through the cooperation of two air inlet machines, can clear away indoor formaldehyde fast, holistic aldehyde effect of removing is obvious.

Description

A high-efficient ventilation unit for removing aldehyde robot

Technical Field

The utility model relates to a remove formaldehyde equipment technical field, especially relate to a high-efficient ventilation unit for removing aldehyde robot.

Background

The main hazard of formaldehyde is manifested by irritation of the skin mucosa. When the formaldehyde reaches a certain concentration indoors, people feel uncomfortable. A formaldehyde concentration of greater than 0.08mg/m3 can cause redness, itching, discomfort or pain in the throat, hoarseness, sneezing, chest distress, asthma, dermatitis, etc. The newly decorated room has high formaldehyde content and is the main cause of many diseases, and in the list of carcinogens published by the international cancer research institution of the world health organization, formaldehyde is put in a list of carcinogens.

At present, common formaldehyde removing equipment cannot rapidly remove indoor formaldehyde due to insufficient ventilation quantity, and the overall formaldehyde removing effect is not obvious.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model adopts the following technical scheme: a high efficiency ventilation apparatus for an aldehyde removal robot, comprising: the air conditioner comprises a shell, an air inlet mechanism, a processing mechanism and an air outlet mechanism;

the air inlet mechanism, the processing mechanism and the air outlet mechanism are all arranged in the cavity;

the air inlet mechanism comprises an air inlet pipe and two air inlet fans, one air inlet fan is arranged on one side of the air inlet pipe, the other air inlet fan is arranged on the other side of the air inlet pipe, the two air inlet fans are communicated with the interior of the air inlet pipe, the two air inlet fans are correspondingly arranged, the air inlet pipe is provided with a plurality of air inlets, and the plurality of air inlets are communicated with the interior of the air inlet pipe;

one air inlet machine penetrates through the shell and then is communicated with the outside, the other air inlet machine is connected with the processing mechanism, one end, far away from the air inlet mechanism, of the processing mechanism is connected with the air outlet mechanism, and the air outlet mechanism is communicated with the air outlets.

Furthermore, a first fixing plate is arranged in the cavity, a first through hole is formed in the first fixing plate, and the air inlet fan is fixedly connected with the first fixing plate through the first through hole.

Further, the shape of casing is the cuboid, four air inlets have been seted up to the air-supply line, just the shape of air-supply line is "ten" style of calligraphy, each the air inlet with a plurality of one side of casing the air intake intercommunication, a second perforation has been seted up respectively to the both sides of air-supply line, each the air inlet machine through one the second perforate with the air-supply line is connected.

Furthermore, the processing mechanism comprises a first air guide pipe, a second air guide pipe and three processing tanks, wherein a first pipe orifice is formed in one side of the first air guide pipe, three second pipe orifices are formed in the other side of the first air guide pipe, the first pipe orifice is communicated with the air inlet machine, each second pipe orifice is communicated with one processing tank, a third pipe orifice is formed in one side of the second air guide pipe, three fourth pipe orifices are formed in the other side of the second air guide pipe, the third pipe orifice is communicated with the air outlet mechanism, and each fourth pipe orifice is communicated with one processing tank.

Further, each be provided with first filter screen, bactericidal lamp, expansion plate and second filter screen in the processing jar, each the one end and the one of processing jar the second mouth of pipe intercommunication, the other end and one the fourth mouth of pipe intercommunication, first filter screen the expansion plate the bactericidal lamp with the second filter screen is followed the processing jar is close to the orificial one end of second is past the processing jar is close to the orificial one end of fourth sets gradually.

Furthermore, the first air guide pipe is provided with three control valves, and each control valve is used for controlling the air volume passing through one second pipe orifice.

Further, air-out mechanism includes the air exhauster and goes out the tuber pipe, one side of air exhauster with the third mouth of pipe intercommunication, the opposite side with go out the tuber pipe intercommunication, four gas outlets have been seted up to the play tuber pipe, each the gas outlet with a plurality of one side of casing the air outlet intercommunication.

Furthermore, the shape of the air outlet pipe is in a cross shape.

Furthermore, each expansion plate is an electric expansion plate.

Furthermore, a second fixing plate is arranged in the cavity, a second through hole is formed in the second fixing plate, and the exhaust fan is fixedly connected with the second fixing plate through the second through hole.

The utility model has the advantages that: when the formaldehyde removing robot is used for removing formaldehyde indoors, the formaldehyde removing robot is placed indoors, and then the whole formaldehyde removing robot is started. The two air inlet fans are operated, so that indoor air can enter from the plurality of air inlets on the side surface of the shell, and part of the air is directly blown in from the air inlet fan at the bottom of the shell. The air inlet machine that is located the bottom is direct towards another air inlet machine, consequently can be fine make the outside air of casing can get into the cavity fast, then directly blow to processing agency through the air inlet machine in the cavity, and processing agency can handle the formaldehyde in the air well, and disinfect the air, then blows off the air that will handle through air-out mechanism from a plurality of air outlets. Through the cooperation of two air inlet machines, can clear away indoor formaldehyde fast, holistic aldehyde effect of removing is obvious.

Drawings

The figures further illustrate the invention, but the embodiments in the figures do not constitute any limitation of the invention.

FIG. 1 is a schematic view of an embodiment of an efficient ventilation device for an aldehyde removing robot;

fig. 2 is a schematic internal structure diagram of an efficient ventilation device for an aldehyde removal robot according to an embodiment.

Detailed Description

The following will combine the drawings of the embodiments of the present invention to further describe the technical solution of the present invention, and the present invention is not limited to the following specific embodiments. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

As shown in fig. 1 to 2, a high efficiency ventilating device for an aldehyde removing robot includes: casing 100, air-supply line 220 structure, processing mechanism and air-out mechanism, the inside of casing 100 has cavity 110, just a plurality of air intakes 120 have been seted up to the one end of casing 100, and a plurality of air outlets 130 have been seted up to the other end, a plurality of the air intake 120 equidistance is seted up, a plurality of the air outlet 130 equidistance is seted up, air-supply line 220 structure processing mechanism with air-out mechanism all sets up in cavity 110, air-supply line 220 structure includes air-supply line 210 and two air-supply lines 220, one air-supply line 220 set up in one side of air-supply line 210, another air-supply line 220 set up in the opposite side of air-supply line 210, two air-supply lines 220 all with the inside intercommunication of air-supply line 210, and two air-supply lines 220 correspond the setting, a plurality of air inlets have been seted up to air-supply line 210, a plurality of air inlets all with the inside intercommunication of air-supply line 210, one air inlet fan 220 penetrates through the shell 100 and then is communicated with the outside, the other air inlet fan 220 is connected with the processing mechanism, one end of the processing mechanism, which is far away from the air inlet fan 220, is connected with the air outlet mechanism, and the air outlet mechanism is communicated with the air outlets 130.

Specifically, the aldehyde removing robot controls the aldehyde removing robot through the control system, namely, the control system controls the state of the whole aldehyde removing robot. When the formaldehyde removing robot is used for removing formaldehyde indoors, the formaldehyde removing robot is placed indoors, and then the whole formaldehyde removing robot is started. That is, two air inlet fans 220 are activated, and specifically, one air inlet fan 220 is partially connected to the outside after passing through the bottom of the casing 100, that is, two air inlet fans 220 are operated, so that indoor air can be introduced from the air inlets 120 on the side of the casing 100, and part of the air is directly blown from the air inlet fan 220 on the bottom of the casing 100. The air inlet machine 220 at the bottom directly faces another air inlet machine 220, so that the air outside the casing 100 can enter the cavity 110 quickly, and then is directly blown to the processing mechanism through the air inlet machine 220 in the cavity 110, the processing mechanism can well process formaldehyde in the air, sterilize and disinfect the air, and then the processed air is blown out from the air outlets 130 through the air outlet mechanism. Through the cooperation of two air inlet machines 220, can clear away indoor formaldehyde fast, holistic aldehyde effect of removing is obvious.

In one embodiment, a first fixing plate 111 is disposed in the cavity 110, a first through hole is formed in the first fixing plate 111, and the air inlet fan 220 is fixedly connected to the first fixing plate 111 through the first through hole. The shape of casing 100 is the cuboid, four air inlets have been seted up to air-supply line 210, just air-supply line 210's shape is "ten" style of calligraphy, each the air inlet with a plurality of one side of casing 100 air intake 120 intercommunication, a second perforation has been seted up respectively to air-supply line 210's both sides, each air-supply line 220 is through one the second perforates with air-supply line 210 connects. The processing mechanism comprises a first air guide pipe 310, a second air guide pipe 320 and three processing tanks 330, wherein a first pipe orifice is formed in one side of the first air guide pipe 310, three second pipe orifices are formed in the other side of the first air guide pipe 310, the first pipe orifice is communicated with the air inlet fan 220, each second pipe orifice is communicated with one processing tank 330, a third pipe orifice is formed in one side of the second air guide pipe 320, three fourth pipe orifices are formed in the other side of the second air guide pipe, the third pipe orifice is communicated with the air outlet mechanism, and each fourth pipe orifice is communicated with one processing tank 330. Each be provided with first filter screen 331, bactericidal lamp 332, expansion plate 333 and second filter screen 334 in the treatment tank 330, each the one end and one of treatment tank 330 the second mouth of pipe intercommunication, the other end and one the fourth mouth of pipe intercommunication, first filter screen 331 the expansion plate 333 the bactericidal lamp 332 with second filter screen 334 is followed treatment tank 330 is close to the orificial one end of second is toward treatment tank 330 is close to the orificial one end of fourth sets gradually. The first air guiding pipe 310 is provided with three control valves 500, and each control valve 500 is used for controlling the air volume passing through one second pipe orifice. Air-out mechanism includes air exhauster 410 and play tuber pipe 420, one side of air exhauster 410 with the third mouth of pipe intercommunication, the opposite side with play tuber pipe 420 intercommunication, it has seted up four gas outlets to go out tuber pipe 420, each the gas outlet with one side of casing 100 is a plurality of air outlet 130 communicates. The shape of the air outlet pipe 420 is cross-shaped. Each of the expansion plates 333 is an electric expansion plate 333. A second fixing plate 112 is disposed in the cavity 110, a second through hole is formed in the second fixing plate 112, and the exhaust fan 410 is fixedly connected to the second fixing plate 112 through the second through hole.

That is, by providing the first fixing plate 111 and the second fixing plate 112, the entire process mechanism can be located in the cavity 110, and a closed space is formed. Therefore, the formaldehyde in the air can be well treated by the treatment mechanism without leakage. Further, outside air enters through the air inlet pipe 210, then enters into the first air guide pipe 310 through the blower, the air enters into the three processing tanks 330 from the three second pipe orifices respectively, after entering into the processing tanks 330, the air is firstly filtered through the first filter screen 331, formaldehyde is firstly absorbed through the activated carbon on the first filter screen 331, then the air is sterilized and disinfected through the sterilizing lamp 332, residual formaldehyde is absorbed again through the second filter screen 334, the air after being cleaned of formaldehyde and sterilized and disinfected is extracted from the exhaust fan 410 along the second air guide pipe 320, then is discharged along the four air outlets of the air outlet pipe 420, and finally is discharged into the room from the plurality of air outlets 130 of the shell 100.

In the above embodiment, the amount of air introduced into the three second nozzles can be controlled by three control valves 500, that is, when one treatment tank 330 is damaged, air cannot be introduced into the treatment tank 330 by closing the control valve 500 of the second nozzle connected to the second nozzle. That is, the three control valves 500 are adjusted according to specific requirements. It should be noted that a retractable plate 333 is provided in each processing tank 330, and the retractable plate 333 can change the size of the passage for air to pass through in the processing tank 330 by retracting.

As described above, the above embodiments are not limiting embodiments of the present invention, and modifications or equivalent variations made by those skilled in the art based on the substance of the present invention are within the technical scope of the present invention.

Claims (10)

1. A high-efficiency ventilation device for an aldehyde removing robot, comprising: the air conditioner comprises a shell, an air inlet mechanism, a processing mechanism and an air outlet mechanism;

the air inlet mechanism, the processing mechanism and the air outlet mechanism are all arranged in the cavity;

the air inlet mechanism comprises an air inlet pipe and two air inlet machines, one air inlet machine is arranged on one side of the air inlet pipe, the other air inlet machine is arranged on the other side of the air inlet pipe, the two air inlet machines are communicated with the interior of the air inlet pipe, the two air inlet machines are correspondingly arranged, the air inlet pipe is provided with a plurality of air inlets, and the air inlets are communicated with the interior of the air inlet pipe;

one air inlet machine penetrates through the shell and then is communicated with the outside, the other air inlet machine is connected with the processing mechanism, one end, far away from the air inlet mechanism, of the processing mechanism is connected with the air outlet mechanism, and the air outlet mechanism is communicated with the air outlets.

2. The efficient ventilating device for an aldehyde removing robot according to claim 1, wherein: the air inlet machine is characterized in that a first fixing plate is arranged in the cavity, a first through hole is formed in the first fixing plate, and the air inlet machine is fixedly connected with the first fixing plate through the first through hole.

3. The efficient ventilating device for an aldehyde removing robot according to claim 2, wherein: the shape of casing is the cuboid, four air inlets have been seted up to the air-supply line, just the shape of air-supply line is "ten" style of calligraphy, each the air inlet with a plurality of one side of casing the air intake intercommunication, a second perforation has been seted up respectively to the both sides of air-supply line, each the air-supply line through one the second perforate with the air-supply line is connected.

4. The efficient ventilating device for an aldehyde removing robot according to claim 1, wherein: the processing mechanism comprises a first air guide pipe, a second air guide pipe and three processing tanks, wherein a first pipe orifice is formed in one side of the first air guide pipe, three second pipe orifices are formed in the other side of the first air guide pipe, the first pipe orifice is communicated with the air inlet machine, each second pipe orifice is communicated with one processing tank, a third pipe orifice is formed in one side of the second air guide pipe, three fourth pipe orifices are formed in the other side of the second air guide pipe, the third pipe orifice is communicated with the air outlet mechanism, and each fourth pipe orifice is communicated with one processing tank.

5. The efficient ventilation device for the aldehyde removing robot according to claim 4, wherein: each be provided with first filter screen, bactericidal lamp, expansion plate and second filter screen in the treatment tank, each the one end and one of treatment tank the second mouth of pipe intercommunication, the other end and one the fourth mouth of pipe intercommunication, first filter screen the expansion plate the bactericidal lamp with the second filter screen is followed the treatment tank is close to the orificial one end of second is past the treatment tank is close to the orificial one end of fourth sets gradually.

6. The efficient ventilating device for an aldehyde removing robot according to claim 5, wherein: the first air guide pipe is provided with three control valves, and each control valve is used for controlling the air quantity passing through one second pipe orifice.

7. The efficient ventilating device for an aldehyde removing robot according to claim 6, wherein: air-out mechanism includes the air exhauster and goes out the tuber pipe, one side of air exhauster with the third mouth of pipe intercommunication, the opposite side with go out the tuber pipe intercommunication, four gas outlets have been seted up to the play tuber pipe, each the gas outlet with a plurality of one side of casing the air outlet intercommunication.

8. The efficient ventilating device for an aldehyde removing robot according to claim 7, wherein: the shape of the air outlet pipe is in a cross shape.

9. The efficient ventilating device for an aldehyde removing robot according to claim 5, wherein: each expansion plate is an electric expansion plate.

10. The efficient ventilating device for an aldehyde removing robot according to claim 7, wherein: a second fixing plate is arranged in the cavity, a second through hole is formed in the second fixing plate, and the exhaust fan is fixedly connected with the second fixing plate through the second through hole.

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