CN217220188U - Integrated hydrogen peroxide evaporation module - Google Patents

Abstract

The utility model discloses an integrated form hydrogen peroxide evaporation module, include: the thermal conductivity module body is provided with air runner, hydrogen peroxide runner and electric heating pipe in the thermal conductivity module body, and air runner, hydrogen peroxide runner and electric heating pipe are curved structure, and electric heating pipe is located between air runner and the hydrogen peroxide runner, and the air outlet end of air runner links to each other with the liquid inlet end of hydrogen peroxide runner, and the equipartition has four first connecting posts and four first connecting holes on the roof of thermal conductivity module body and diapire respectively. The utility model has the advantages that: compact structure can heat compressed air and hydrogen peroxide liquid simultaneously, has reduced the energy consumption, has improved the vaporization efficiency of hydrogen peroxide liquid to improve the disinfection effect of hydrogen peroxide.

Description

Integrated hydrogen peroxide evaporation module

Technical Field

The utility model relates to an integrated form hydrogen peroxide evaporation module.

Background

Traditional disinfecting equipment sets up two independent heating device and comes to separately heat air and hydrogen peroxide liquid, adds two heating device and not only can increase the disinfecting equipment volume in disinfecting equipment, increases the energy consumption, has reduced the efficiency of heating of air and the evaporation vaporization efficiency of hydrogen peroxide liquid moreover, and the particle diameter of the hydrogen peroxide vapour that the hydrogen peroxide liquid evaporation formed is great, and penetrability is low, and disinfection efficiency is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a compact structure, power consumption are low, hydrogen peroxide liquid evaporation high efficiency's integrated form hydrogen peroxide evaporation module of vaporization.

In order to achieve the above object, the utility model adopts the following technical scheme: an integrated hydrogen peroxide vaporization module comprising: thermal conductivity module body, be provided with the air runner in thermal conductivity module body, hydrogen peroxide runner and electric heating pipe, the air runner, hydrogen peroxide runner and electric heating pipe are curved structure, the air inlet end and the air outlet end of air runner all outwards stretch out in thermal conductivity module body, the liquid inlet end and the vapour exit end of hydrogen peroxide runner all outwards stretch out in thermal conductivity module body, electric heating pipe is located between air runner and the hydrogen peroxide runner, the air outlet end of air runner links to each other with the liquid inlet end of hydrogen peroxide runner, the equipartition has four first connecting holes on the diapire of thermal conductivity module body, the equipartition has four first connecting posts on the roof of thermal conductivity module body, four first connecting posts on the thermal conductivity module body align with four first connecting holes on the thermal conductivity module body one by one respectively.

Further, in the integrated hydrogen peroxide evaporation module, the air flow channel is U-shaped, and the hydrogen peroxide flow channel and the electric heating tube are both W-shaped.

Further, in the integrated hydrogen peroxide evaporation module, the air flow channel is located above the electric heating tube, the hydrogen peroxide flow channel is located below the electric heating tube, and an outlet end of the air flow channel is connected with an inlet end of hydrogen peroxide in a downward direction.

Further, aforementioned integrated form hydrogen peroxide evaporation module, wherein, be connected with the piezoceramics module on the heat conduction module body, the equipartition has four second spliced poles on the roof of piezoceramics module, the equipartition has four second connecting holes on the diapire of piezoceramics module, four second spliced poles on the piezoceramics module insert respectively in four first connecting holes on the heat conduction module body, thereby make the piezoceramics module connect on the diapire of heat conduction module body, or four first connecting posts on the heat conduction module body insert respectively in four second connecting holes on the piezoceramics module, thereby make the piezoceramics module connect on the roof of heat conduction module body.

Further, in the integrated hydrogen peroxide evaporation module, a heat insulation pad is disposed between the piezoelectric ceramic module and the thermal conductive module body.

The utility model has the advantages that: compact structure can heat compressed air and hydrogen peroxide liquid simultaneously, has reduced the energy consumption, has improved the vaporization efficiency of hydrogen peroxide liquid to improve the disinfection effect of hydrogen peroxide.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of an integrated hydrogen peroxide evaporation module according to the present invention.

Fig. 2 is a perspective view of a plurality of the thermal conductivity module bodies of fig. 1 stacked together.

Fig. 3 is a schematic perspective view of a second embodiment of the integrated hydrogen peroxide evaporation module according to the present invention.

Fig. 4 is a schematic perspective view of the integrated hydrogen peroxide evaporation modules of fig. 3 stacked in a stacked manner.

Detailed Description

The technical solution of the present invention will be further described with reference to the accompanying drawings and preferred embodiments.

Example one

As shown in fig. 1, the integrated hydrogen peroxide evaporation module of the present invention comprises: the heat-conducting module body 1 is provided with an air flow channel 2, a hydrogen peroxide flow channel 3 and an electric heating tube 4 in the heat-conducting module body 1, the air flow channel 2, the hydrogen peroxide flow channel 3 and the electric heating tube 4 are of curved structures, the air flow channel 2 is in a U shape, the hydrogen peroxide flow channel 3 and the electric heating tube 4 are in W shapes, an air inlet end 21 and an air outlet end 22 of the air flow channel 2 both extend outwards from the heat-conducting module body 1, a liquid inlet end 31 and a vapor outlet end 32 of the hydrogen peroxide flow channel 3 both extend outwards from the heat-conducting module body 1, the air flow channel 2 is positioned above the electric heating tube 4, the hydrogen peroxide flow channel 3 is positioned below the electric heating tube 4, the air outlet end 22 of the air flow channel 2 is downwards connected with the liquid inlet end 31 of the hydrogen peroxide flow channel 3, four first connecting holes 11 are uniformly distributed on the bottom wall of the heat-conducting module body 1, four first connecting posts 12 are evenly distributed on the top wall of the thermal conductivity module body 1, and the four first connecting posts 12 on the thermal conductivity module body 1 are respectively aligned with the four first connecting holes 11 on the thermal conductivity module body 1 one by one.

When evaporation is carried out, the electric heating tube 4 is electrified and heated, then compressed air is introduced into the air flow channel 2 from the air inlet end 21 of the air flow channel 2, the compressed air flows in the air flow channel 2, when the compressed air flows in the air flow channel 2, the temperature of the compressed air is raised after being heated by the electric heating tube 4, high-temperature compressed air enters the hydrogen peroxide flow channel 3 from the air outlet end 22 of the air flow channel 2, at the moment, hydrogen peroxide liquid is introduced into the hydrogen peroxide flow channel 3 from the liquid inlet end 31 of the hydrogen peroxide flow channel 3, the hydrogen peroxide liquid is mixed with the high-temperature compressed air at the liquid inlet end 31 of the hydrogen peroxide flow channel 3, the high-temperature compressed air can heat and vaporize the hydrogen peroxide liquid, so that part of the hydrogen peroxide liquid is vaporized into hydrogen peroxide vapor, the high-temperature compressed air is mixed with the hydrogen peroxide liquid and the hydrogen peroxide vapor and flows in the hydrogen peroxide flow channel 3, in the flowing process, the unvaporized hydrogen peroxide liquid is heated and vaporized into hydrogen peroxide vapor under the heating action of the electric heating tube 4, and then the hydrogen peroxide vapor is mixed with the compressed air and sprayed out from the vapor outlet end 32 of the hydrogen peroxide flow channel 3.

When more hydrogen peroxide liquid needs to be vaporized, a plurality of thermal conductive module bodies 1 may be stacked as shown in fig. 2: insert four first connecting posts 12 on a thermal conductivity module body 1 into four first connecting holes 11 of another thermal conductivity module body 1 to analogize, then connect the air inlet end 21 of a plurality of thermal conductivity module bodies 1 on same root air pipeline, connect the liquid inlet end 31 of a plurality of thermal conductivity module bodies 1 on same root hydrogen peroxide liquid pipeline, connect the vapour outlet end 32 of a plurality of thermal conductivity module bodies 1 on same root hydrogen peroxide vapour pipeline.

Second embodiment, as shown in fig. 3, a piezoelectric ceramic module 5 is connected to the thermal conductive module body 1, the piezoelectric ceramic module 5 is a conventional one, not described in detail herein, a heat insulating pad 51 is provided between the piezoelectric ceramic module 5 and the thermal conductive module body 1, four second connecting columns 52 are uniformly distributed on the top wall of the piezoelectric ceramic module 5, four second connecting holes are uniformly distributed on the bottom wall of the piezoelectric ceramic module 5, the four second connecting columns 52 on the piezoelectric ceramic module 5 are respectively inserted into the four first connecting holes 11 on the heat-conducting module body 1, so that the piezoelectric ceramic module 5 is connected on the bottom wall of the heat-conducting module body 1, or the four first connection posts 12 of the thermal conductivity module body 1 are inserted into the four second connection holes of the piezoelectric ceramic module 5, respectively, so that the piezoelectric ceramic module 5 is connected to the top wall of the thermal conductivity module body 1. When hydrogen peroxide liquid evaporates the vaporization in heat conduction module body 1, the high frequency oscillation that piezoceramics module 5 produced can play similar ultrasonic atomization's effect to hydrogen peroxide liquid for the hydrogen peroxide vapour can further disperse and obtain the hydrogen peroxide vapour that the particle diameter is littleer, thereby improves the disinfection effect of hydrogen peroxide vapour.

When more hydrogen peroxide liquid needs to be evaporated, as shown in fig. 4, a plurality of thermal conductivity module bodies 1 and the piezoelectric ceramic modules 5 are stacked at intervals, then the air inlet ends 21 of the plurality of thermal conductivity module bodies 1 are connected to the same air pipeline, the liquid inlet ends 31 of the plurality of thermal conductivity module bodies 1 are connected to the same hydrogen peroxide liquid pipeline, and the vapor outlet ends 32 of the plurality of thermal conductivity module bodies 1 are connected to the same hydrogen peroxide vapor pipeline.

The utility model has the advantages that: compact structure can heat compressed air and hydrogen peroxide liquid simultaneously, has reduced the energy consumption, has improved the vaporization efficiency of hydrogen peroxide liquid to improve the disinfection effect of hydrogen peroxide.

Claims (5)

1. An integrated hydrogen peroxide vaporization module comprising: thermal conductivity module body, its characterized in that: be provided with the air runner in heat conduction module body, hydrogen peroxide runner and electric heating pipe, the air runner, hydrogen peroxide runner and electric heating pipe are curved structure, the air inlet end and the air outlet end of air runner all outwards stretch out in heat conduction module body, the liquid inlet end and the gas outlet end of hydrogen peroxide runner all outwards stretch out in heat conduction module body, electric heating pipe is located between air runner and the hydrogen peroxide runner, the air outlet end of air runner links to each other with the liquid inlet end of hydrogen peroxide runner, the equipartition has four first connecting holes on the diapire of heat conduction module body, the equipartition has four first connecting posts on the roof of heat conduction module body, four first connecting posts on the heat conduction module body align one by one with four first connecting holes on the heat conduction module body respectively.

2. The integrated hydrogen peroxide vaporization module of claim 1, wherein: the air flow channel is U-shaped, and the hydrogen peroxide flow channel and the electric heating tube are both W-shaped.

3. The integrated hydrogen peroxide vaporization module of claim 2, wherein: the air flow passage is positioned above the electric heating pipe, the hydrogen peroxide flow passage is positioned below the electric heating pipe, and the outlet end of the air flow passage is downwards connected with the inlet end of the hydrogen peroxide.

4. The integrated hydrogen peroxide vaporization module of claim 1 or 2 or 3 wherein: be connected with the piezoceramics module on the heat conduction module body, the equipartition has four second spliced poles on the roof of piezoceramics module, the equipartition has four second connecting holes on the diapire of piezoceramics module, four second spliced poles on the piezoceramics module insert respectively in four first connecting holes on the heat conduction module body, thereby make the piezoceramics module connect on the diapire of heat conduction module body, or four first connecting poles on the heat conduction module body insert respectively in four second connecting holes on the piezoceramics module, thereby make the piezoceramics module connect on the roof of heat conduction module body.

5. The integrated hydrogen peroxide vaporization module of claim 4, wherein: a heat insulation pad is arranged between the piezoelectric ceramic module and the heat conduction module body.

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