CN111622646A

CN111622646A - Air conditioner glass window and using method

Info

Publication number: CN111622646A
Application number: CN202010516880.3A
Authority: CN
Inventors: 徐凯歌
Original assignee: Wenzhou Purui Intelligent Technology Co ltd
Current assignee: Wenzhou Purui Intelligent Technology Co ltd
Priority date: 2019-09-19
Filing date: 2019-09-19
Publication date: 2020-09-04
Also published as: CN110529019B; CN110529019A

Abstract

The invention discloses an air-conditioning glass window and a using method thereof, wherein the air-conditioning glass window comprises inner glass and outer glass, one sides of the inner glass and the outer glass, which are far away from each other, are respectively provided with a plurality of capillary holes and concentrated holes, the plurality of concentrated holes are respectively communicated with the corresponding plurality of capillary holes, the upper end and the lower end of the inner glass and the outer glass are respectively glued with a combination plate, the side wall of the combination plate at the lower end is provided with a processing groove, and the plurality of concentrated holes are used for communicating the plurality of capillary holes with the processing grooves. Has the advantages that: according to the invention, the effective heat insulation effect is realized by the design of the inner glass and the outer glass, and the water mist generated by stable production inside and outside is collected into the treatment tank through the centralized hole under the action of capillary force, so that the water mist on the surfaces of the inner glass and the outer glass is removed, the shielding of a sight line is avoided, and the pollution caused by the water mist integrated water drops remaining on the wall is avoided.

Description

Air conditioner glass window and using method

The application is a divisional application of an air conditioner glass window, wherein the application date is 09 and 19 in 2019, and the application number is CN 201910886083.1.

Technical Field

The invention relates to the technical field of air conditioner glass windows, in particular to an air conditioner glass window and a using method thereof.

Background

The air conditioner has become indispensable instrument in modern life, no matter winter and summer all need use the air conditioner, and the effect of the use of air conditioner except the performance of air conditioner itself, still has very big relation with the air conditioner glass window that uses, and the exchange of indoor outer temperature can be very big avoided to the better air conditioner glass window of performance, guarantees the effective regulation and control of indoor temperature.

The existing air conditioner glass window mostly uses a double-layer hollow glass window, after the air conditioner is opened for a long time, the temperature difference which is obvious indoors and outdoors can be formed, when the air conditioner is turned on in winter, because the inside air is hot, the outside air is cold, a certain amount of water mist can be generated on the inner side of the inside inner glass, the sight line can be shielded, the water mist can be concentrated to fall water drops, the wall surface pollution is caused, the existing air conditioner glass window does not have the capability of clearing the water mist, and the inconvenience in use is caused.

Disclosure of Invention

The invention aims to solve the problem that water mist generated on the surface of glass due to temperature difference cannot be removed in time to cause pollution in the prior art, and provides an air conditioner glass window.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an air conditioner glass window, includes interior glass and outer glass, a plurality of capillary holes and central collecting hole have all been seted up to one side that interior glass and outer glass kept away from each other, and is a plurality of the central collecting hole all communicates with a plurality of capillary holes that correspond, the upper and lower both ends of interior glass and outer glass all veneer has the joint plate, the lower extreme the treatment trough has been seted up to the lateral wall of joint plate, and is a plurality of the central collecting hole is with a plurality of capillary holes and treatment trough intercommunication, the inner wall veneer of treatment trough has the reaction block, the both ends lateral wall of reaction block has positive pole and negative pole respectively veneer, a plurality of air vents have been seted up to the inner wall that the treatment trough is located positive pole one end, the inner wall veneer that the treatment trough is located positive pole one end has the fan, the inner wall that the treatment trough is located negative pole one end offsets and has colloid.

In the air conditioner glass window, the reaction block is in a V-shaped structure, the anode and the cathode are both attached to the side wall of the reaction block, and the fan faces the plurality of vent holes.

Compared with the prior art, the invention has the advantages that:

1. according to the invention, by the design of the inner glass and the outer glass, an effective heat insulation effect is realized, and by the design of the capillary holes, water mist generated by the temperature difference between the inside and the outside is collected into the treatment tank 7 through the centralized hole under the action of capillary force, so that the water mist on the surfaces of the inner glass and the outer glass is removed, the shielding of a sight line is avoided, and the pollution caused by the water mist integrated water drops remaining on the wall is avoided;

2. according to the invention, through the design of the power generation piece, continuous power generation is carried out through the continuous existence of the internal and external temperature difference, so that the concentrated water column is electrolyzed to further produce hydrogen and oxygen, the oxygen flows into the room through the vent hole under the action of the fan to supplement the oxygen in the room, the hydrogen is absorbed under the action of the colloidal palladium, the potential safety hazard caused by direct discharge of the hydrogen is avoided, and the effective utilization of the water column is realized.

Drawings

FIG. 1 is a schematic view of an air conditioner glass window according to the present invention;

FIG. 2 is a cross-sectional view taken along the direction A in FIG. 1;

fig. 3 is an enlarged schematic view of a portion B in fig. 1.

In the figure: 1 inner glass, 2 outer glass, 3 capillary holes, 4 concentrated holes, 5 power generation sheets, 6 combination plates, 7 treatment tanks, 8 reaction blocks, 9 anodes, 10 cathodes, 11 fans, 12 vent holes and 13 colloidal palladium.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

Examples

Referring to fig. 1-3, an air-conditioning glass window comprises an inner glass 1 and an outer glass 2, wherein one side of the inner glass 1 and the outer glass 2, which is far away from each other, is provided with a plurality of capillary holes 3 and a plurality of central holes 4, the upper end and the lower end of the inner glass 1 and the outer glass 2 are both provided with a bonding plate 6 through gluing, the side wall of the bonding plate 6 at the lower end is provided with a processing tank 7, the inner wall of the processing tank 7 is glued with a reaction block 8, the side walls at the two ends of the reaction block 8 are respectively glued with an anode 9 and a cathode 10, the inner wall of the processing tank 7, which is positioned at one end of the anode 9 and is close to one side of the inner glass 1, is provided with a plurality of vent holes 12, the inner wall of the processing tank 7, which is positioned at one end of the anode 9 and is close to one side of the outer glass 2, is glued with a fan 11, the, thereby realizing the power supply of the electrolysis process, and simultaneously realizing the rotation of the fan 11 by connecting the fan 11 with a lead.

The reaction block 8 is of a V-shaped structure, so that the entering water drops can be left to the bottom of the reaction block 8 along an inclined plane to form concentration of the water drops, a water column is further formed, the anode 9 and the cathode 10 are both attached to the side wall of the reaction block 8, the anode 9 and the cathode 10 are both of a rhombohedral column structure and are attached to the V-shaped surface of the reaction block 8, contact with the water column at the bottom is guaranteed, some electrolysis processes are achieved, the fan 11 faces the vent holes 12, the produced oxygen can be blown out timely through the vent holes 12, meanwhile, certain negative pressure is generated inside the treatment tank 7, water drops in the concentrated holes 4 and the capillary holes 3 can be smoothly moved into the treatment tank 7 under the assistance of external air pressure, and concentration of the water drops is guaranteed.

The plurality of concentrated holes 4 are communicated with the corresponding plurality of capillary holes 3, the plurality of concentrated holes 4 are used for communicating the plurality of capillary holes 3 with the processing groove 7, so that water mist formed on the surfaces of the inner glass 1 and the outer glass 2 can be guided into the processing groove 7 through the concentrated holes 4 through the capillary holes 3 under the action of capillary force, the collection of water drops is realized, and the subsequent electrolysis process is facilitated.

After the air conditioner is started for a long time, a relatively obvious indoor and outdoor temperature difference can be formed, when the air conditioner is started in winter, due to the fact that the inside air is hot and the outside air is cold, a certain amount of water mist can be generated on the inner side of the inner glass 1 positioned inside, the water mist formed on the surfaces of the inner glass 1 and the outer glass 2 is actually extremely small water drops, the water drops can enter the concentration hole 4 through the capillary hole 3 under the action of capillary force, then are guided into the treatment tank 7 through the concentration hole 4 and move to the V-shaped plane of the reaction block 8 in a concentrated mode, and then a water column paved on the surface of the reaction block 8 is achieved to be in contact with the anode 9 and the cathode 10 at two ends simultaneously.

Because a certain temperature difference always exists between the inner glass 1 and the outer glass 2, the power generation sheet 5 can sense the temperature difference between the inner glass and the outer glass, and then a certain voltage is generated and conducted to the anode 9 and the cathode 10 through the conducting wires, and the fan 11 is electrically rotated, because the anode 9 and the cathode 10 are simultaneously electrified and are simultaneously contacted with the water column, the electrolysis process of the water column can be carried out, after the water column is electrolyzed, a certain amount of oxygen is generated at the position of the anode 9, and certain hydrogen is generated at the position of the cathode 10, and the generated oxygen flows into the room through the air vent 12 under the action of the fan 11, certain oxygen supplement is carried out indoors, so that the lack of indoor oxygen is avoided, the generated hydrogen is in contact with the colloid palladium 13 at one end of the cathode 10, and the hydrogen is absorbed by the colloid palladium 13 after being in contact with the colloid palladium 13, so that the risk caused by the direct discharge of the hydrogen is avoided.

Colloid palladium 13 will take place certain inflation after absorbing hydrogen for the volume increase, and then extend to both ends, after observing that colloid palladium 13 expands to a certain extent and stretches out treatment tank 7, can take off colloid palladium 13 and change, cause hydrogen directly to get rid of and form the pollution after avoiding colloid palladium 13 to absorb the efficiency of hydrogen to reduce, and the colloid palladium 13 of change can make it release absorptive hydrogen through the mode of heating, and then realizes the reutilization.

The invention is also suitable for refrigerating equipment such as an ice chest, the temperature in the ice chest is lower, the temperature difference with the outside is larger, water mist appears on the glass outside the ice chest, in the invention, after the water mist is formed on the surface of the outer glass 2, the water mist enters the processing groove 7 through the capillary hole 3 on the outer glass, and then the water mist is processed through the electrolytic process, so that the water mist on the surface of the outer glass 2 is processed, in the application of the ice chest, things in the ice chest can be conveniently observed from the outside, the ice chest window does not need to be opened, the cold air in the ice chest can not be dissipated, and the refrigerating effect of the ice chest is ensured.

In addition, when the invention is used in an external open environment, the water mist quantity is less, and the generated hydrogen is not easy to gather in the open environment, the concentration of the hydrogen is in a safe state, the dangerous situations such as explosion can not occur, and the generated hydrogen can be directly discharged into the air without using the colloidal palladium 13 to absorb the generated hydrogen.

Although the terms of the inner glass 1, the outer glass 2, the capillary 3, the collecting hole 4, the electricity generating sheet 5, the bonding plate 6, the treating bath 7, the reaction block 8, the anode 9, the cathode 10, the fan 11, the vent hole 12, the colloidal palladium 13, etc. are used more frequently herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. The air-conditioning glass window comprises inner glass (1) and outer glass (2), wherein one side of the inner glass (1) and one side of the outer glass (2) which are far away from each other are respectively provided with a plurality of capillary holes (3), the air-conditioning glass window is characterized in that one side of the inner glass (1) and one side of the outer glass (2) which are far away from each other are respectively provided with a plurality of concentrated holes (4), the concentrated holes (4) are respectively communicated with a plurality of corresponding capillary holes (3), the upper end and the lower end of the inner glass (1) and the upper end and the lower end of the outer glass (2) are respectively glued with a combination plate (6), the side wall of the combination plate (6) at the lower end is provided with a treatment groove (7), the concentrated holes (4) are respectively communicated with the capillary holes (3) and the treatment groove (7), the inner wall of the treatment groove (7) is glued with a reaction block (8), and the side walls at two ends of the reaction block (8), the inner wall of the treatment tank (7) at one end of the anode (9) is provided with a plurality of vent holes (12), the inner wall of the treatment tank (7) at one end of the anode (9) is glued with a fan (11), the inner wall of the treatment tank (7) at one end of the cathode (10) is propped against colloidal palladium (13), and the inner glass (1) and the outer glass (2) are jointly glued with a power generation sheet (5);

the reaction block (8) is of a V-shaped structure, the anode (9) and the cathode (10) are attached to the side wall of the reaction block (8), and the fan (11) is opposite to the plurality of vent holes (12).

2. An air conditioner glass window and a using method thereof as claimed in claim 1, characterized in that after the air conditioner is opened for a long time, a temperature difference between the indoor and outdoor is relatively significant, when the air conditioner is opened in winter, because the internal air is hot and the external air is cold, a certain amount of water mist is generated at the inner side of the internal inner glass (1), the water mist formed on the surfaces of the inner glass (1) and the outer glass (2) is actually tiny water drops, and the water drops enter the centralized hole (4) through the capillary hole (3) under the action of capillary force, are guided into the processing tank (7) through the centralized hole (4) and move to the V-shaped plane of the reaction block (8) in a centralized way, so as to realize a water column which is tiled on the surface of the reaction block (8) and further contact with the anode (9) and the cathode (10) at the two ends simultaneously;

because a certain temperature difference always exists between the inner glass (1) and the outer glass (2), the power generation sheet (5) can sense the temperature difference between the anode (9) and the cathode (10) to generate a certain voltage, the voltage is conducted to the anode (9) and the cathode (10) through leads, the fan (11) is powered to rotate, the anode (9) and the cathode (10) are powered simultaneously and are contacted with the water column simultaneously, the electrolysis process of the water column can be carried out, after the water column is electrolyzed, a certain amount of oxygen is generated at the position of the anode (9), a certain amount of hydrogen is generated at the position of the cathode (10), the generated oxygen flows into a room through the vent hole (12) under the action of the fan (11), certain oxygen supplement is carried out in the room, the lack of the oxygen in the room is avoided, the generated hydrogen is contacted with the colloid palladium (13) at one end of the cathode (10), and after the hydrogen is contacted with the colloid (13), will be absorbed by the colloidal palladium (13), avoiding the risk caused by the direct discharge of hydrogen;

the colloid palladium (13) expands to a certain extent after absorbing hydrogen, so that the volume is increased, and the colloid palladium extends to two ends, when the colloid palladium (13) expands to a certain extent and extends out of the treatment tank (7), the colloid palladium (13) can be taken down and replaced, the phenomenon that the hydrogen is directly discharged to form pollution after the efficiency of the colloid palladium (13) for absorbing the hydrogen is reduced is avoided, and the replaced colloid palladium (13) can release the absorbed hydrogen in a heating mode, so that secondary utilization is realized;

the invention is also suitable for refrigerating equipment such as an ice chest, the temperature in the ice chest is lower, the temperature difference with the outside is larger, water mist appears on the glass outside the ice chest, in the invention, after the water mist is formed on the surface of the outer glass (2), the water mist enters the processing groove (7) through the capillary hole (3) on the surface of the outer glass, and then the water mist is processed through the electrolysis process, so that the water mist on the surface of the outer glass (2) is processed, in the application of the ice chest, things in the ice chest can be conveniently observed from the outside, the ice chest window does not need to be opened, the cold air in the ice chest can not be dissipated, and the refrigerating effect of the ice chest is ensured.