CN115677175B - Anti-condensation window of electric melting room air conditioner - Google Patents

Abstract

The invention discloses an anti-dewing window of an electric melting chamber air conditioner, which comprises an anti-dewing window component, wherein a plurality of groups of tightening arm components are arranged on the inner wall around the anti-dewing window component in a pushing and sliding manner, a dewing water absorbing component is buckled and inserted at the bottom of the tightening arm component, and a water absorbing structure which is tightly abutted against the bottom of the dewing window component is formed around the inner wall of the anti-dewing window component through the tightening arm component.

Description

Anti-condensation window of electric melting room air conditioner

Technical Field

The invention belongs to the technical field of temperature regulation of an indoor environment of an electric melting chamber, and particularly relates to an anti-condensation window of an air conditioner of the electric melting chamber.

Background

In the production and manufacture of liquid crystal glass, an electric melting chamber is used, the whole transformer set is stored in the electric melting chamber, and when the electric melting chamber is actually used, a large amount of heat is generated by the transformer set, and meanwhile, in order to ensure the actual operation efficiency of the transformer set, the electric melting chamber is always in a low-temperature and dry environment.

The prior art has the following problems: in the production and manufacture of liquid crystal glass, the transformer group needs to be cooled generally in the electric melting chamber, a traditional air conditioning system is carried out in a vertically downward outlet mode, on one hand, the temperature dispersion is uneven, the heat dissipation of the transformer group at the far end is insufficient, on the other hand, condensed water exists at the outlet, and electrical faults can be caused, if the transformer is distinguished and placed, the process management is influenced, and therefore an electric melting chamber air conditioner anti-condensation window is urgently needed to solve the problems.

Disclosure of Invention

To solve the problems set forth in the background art. The invention provides an anti-condensation window of an electric melting chamber air conditioner, which has the characteristics of convenience in temperature and humidity reduction.

In order to achieve the above purpose, the present invention provides the following technical solutions: the anti-dewing window of the electric melting room air conditioner comprises an anti-dewing window component, wherein a plurality of groups of propping arm components are arranged on the inner wall of the periphery of the anti-dewing window component in a propping sliding manner, a dew-absorbing component is buckled and inserted at the bottom of the propping arm component, and a propping and abutting water-absorbing structure is formed on the periphery of the inner wall of the anti-dewing window component at the bottom of the dew-absorbing component through the propping arm component;

the anti-condensation window assembly comprises an anti-condensation window frame, an air conditioner cold air inlet top opening and an electric melting chamber air inlet bottom opening are respectively arranged at the top and the bottom of the anti-condensation window frame, an edge type air flow guiding tile plate is arranged at the bottom of the inside of the anti-condensation window frame, a plurality of transverse guide pipes are arranged on the four sides of the edge type air flow guiding tile plate, a temporary storage groove is formed between the bottom of the edge type air flow guiding tile plate and the inner wall of the anti-condensation window frame, an anti-condensation window air outlet pipe is arranged on the outer wall of the periphery of the anti-condensation window frame, a perforated end table is fixedly arranged at the top of the inner wall of the periphery of the anti-condensation window frame, an exhaust fan is arranged at the bottom of the inside of the anti-condensation window frame through a supporting table, and an installation seat plate is arranged on one side of the anti-condensation window frame.

Preferably, the jacking arm component comprises a jacking arm sliding rod, the top and the bottom of the jacking arm sliding rod are respectively provided with a limiting ball head and a fixed bottom table, the fixed bottom table is fixedly provided with a mounting seat table, a mounting groove is formed in the mounting seat table, two sides of the mounting seat table are respectively provided with an L-shaped buckling side plate in a rotating mode, a pushing spring is arranged between the L-shaped buckling side plates and the mounting seat table, and the jacking arm sliding rod is sleeved with the jacking spring;

the dew absorption assembly comprises a mounting seat rod, a buckling top table and a sponge transverse seat plate are respectively arranged at the top and the bottom of the mounting seat rod, and dew absorption sponge is arranged on the bottom surface of the sponge transverse seat plate.

Preferably, the cold air inlet top opening of the air conditioner is used as an air inlet port of cold air of the air conditioner, the air inlet bottom opening of the electric melting chamber is used as an air inlet port of the circulation of the space inside the electric melting chamber, and the air inside the electric melting chamber is sucked and sent to the bottom of the prismatic airflow guiding tile plate through the air inlet bottom opening of the electric melting chamber by the air suction fan.

Preferably, the exhaust fan longitudinally sucks the air in the electric melting chamber to the lower part of the prismatic airflow guiding tile plate, and the air in the electric melting chamber is converted into transverse circulation through the transverse flow guide pipe and is discharged from the air outlet pipe of the anti-condensation window.

Preferably, cold air of the air conditioner enters the anti-condensation window frame from the cold air inlet top opening of the air conditioner and forms a condensation layer on the upper end face of the prismatic airflow guiding tile plate, and the air in the electric melting chamber transversely led out by the transverse flow guide pipe condenses out condensed water on the condensation layer and flows to the temporary storage groove along the top face of the prismatic airflow guiding tile plate.

Preferably, air conditioning cold air entering from the air conditioning cold air inlet top opening is mixed with air inside the electric melting chamber entering from the electric melting chamber air inlet bottom opening at the positions of the upper end surfaces of the transverse flow guide pipe and the prismatic airflow guide tile plate, and is discharged into the electric melting chamber from the air outlet pipe of the anti-condensation window.

Preferably, the jack arm slide bar and the perforated end table run through and slide, the both ends of jack spring are respectively contradicted on perforated end table and fixed bottom table, through the jack of jack spring, jack arm subassembly bottom structure is in the structure of supporting under nature, through the top of top pushing spring, L withholds curb plate bottom and withholds to mounting groove department.

Preferably, the mounting seat rod is inserted into a mounting groove on the mounting seat table, the buckling top table is abutted against the port of the mounting groove, the bottom of the L-shaped buckling side plate is buckled and pressed on the lower end face of the buckling top table, and the dew absorbing sponge is lightly abutted against the temporary storage groove.

Compared with the prior art, the invention has the beneficial effects that: when the invention is used, the cold air inlet top opening of the air conditioner is used as an air inlet port of cold air of the air conditioner, the air inlet bottom opening of the electric melting chamber is used as an air inlet port of the circulation of the space inside the electric melting chamber, the air inside the electric melting chamber is sucked and conveyed to the bottom of the prismatic airflow guiding tile plate through the air inlet bottom opening of the electric melting chamber by the exhaust fan, at the moment, the four sides of the prismatic airflow guiding tile plate are all provided with a plurality of transverse guide pipes, the cold air of the air conditioner entering from the cold air inlet top opening of the air conditioner and the air inside the electric melting chamber entering from the air inlet bottom opening of the electric melting chamber are mixed at the positions of the transverse guide pipes and the upper end surfaces of the prismatic airflow guiding tile plate and are discharged into the electric melting chamber from the air outlet pipe of the anti-condensation window, by the way, the mixing and the cooling of the cold air of the air conditioner and the air inside the electric melting chamber are realized, the integral cooling inside the electric melting chamber is realized, because the inside of the electric melting chamber is mainly provided with a voltage device, and a great amount of heat can be generated by the actual use of the voltage device, in this way, the temperature of the interior of the electric melting chamber is reduced, the other side is in the air-conditioning cold air supplying process, the air-conditioning cold air enters the anti-condensation window frame from the air-conditioning cold air inlet top opening and forms a condensation layer on the upper end surface of the prismatic airflow guiding tile plate, the air in the interior of the electric melting chamber transversely led out by the transverse flow guiding tile plate condenses out condensed water on the condensation layer and flows to the temporary storage groove along the top surface of the prismatic airflow guiding tile plate, in this way, the water in the air in the interior of the electric melting chamber can be condensed and separated out, which effectively reduces the humidity in the interior of the electric melting chamber, ensures the reliable operation of the electric melting chamber voltage device, avoids the damage caused by high indoor humidity, fully ensures the operation of the electric melting chamber voltage device in a dry environment, the pushing arm sliding rod and the end table with holes run through sliding, the pushing of the pushing arm assembly is in a naturally downward structure, through the top pushing of pushing spring, L type withholds curb plate bottom and withholds to mounting groove department, mount pad pole cartridge is in the mounting groove on the mount pad bench, withhold the port department of top platform conflict at the mounting groove, L type withhold curb plate bottom and withhold on withhold the lower terminal surface of top platform, the water absorbing sponge is light to be contradicted in keeping in the inslot, cooperation through above-mentioned structure, can make things convenient for the dismouting and the change between tight arm module in top and the water absorbing subassembly, because during actual use, the water absorbing subassembly bottom is contradicted gently and is carried out the timely absorption of condensate liquid in keeping in the inslot, after the water absorbing sponge of water absorbing subassembly bottom uses one end time, just need be changed, the change and the installation of water absorbing subassembly that above-mentioned structure can be fine are realized, the water absorbing sponge of water absorbing subassembly bottom can be contradicted in the time in the groove of keeping in order to guarantee through this structure, this effect is in order to guarantee the water absorbing subassembly after being installed, thereby the water absorbing sponge of water absorbing subassembly bottom can be contradicted in the time.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is a perspective view of the present invention's take-up arm assembly and dew-absorbing assembly;

FIG. 5 is a perspective view of the anti-condensation window assembly of the present invention;

FIG. 6 is a cross-sectional view of the anti-condensation window assembly of the present invention;

FIG. 7 is a perspective view of the present invention's take-up arm assembly;

FIG. 8 is a perspective view of the dew point assembly of the present invention;

in the figure: 100. a dewing prevention window assembly; 101. anti-condensation window frame; 102. cold air inlet top opening of air conditioner; 103. an end table with holes; 104. mounting a seat board; 105. prismatic air flow guiding tile; 106. an exhaust fan; 107. supporting the base table; 108. an air inlet bottom opening of the electric melting chamber; 109. a temporary storage groove; 110. a transverse flow guide pipe; 111. anti-condensation window air outlet pipe; 200. a jack arm assembly; 201. the arm sliding rod is tightly propped; 202. a spring is tightly propped; 203. fixing the bottom table; 204. a mounting groove; 205. an L-shaped buckling side plate; 206. a pushing spring; 207. a mounting base; 208. limiting ball heads; 300. a dew absorbing assembly; 301. a mounting seat rod; 302. buckling a top platform; 303. a sponge transverse seat board; 304. a dew absorbing sponge.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides the following technical solutions: the anti-dewing window of the electric melting room air conditioner comprises an anti-dewing window assembly 100, wherein a plurality of groups of propping arm assemblies 200 are arranged on the inner walls around the anti-dewing window assembly 100 in a propping sliding manner, a dewing water absorbing assembly 300 is buckled and inserted at the bottom of the propping arm assemblies 200, and a propping and abutting water absorbing structure is formed on the periphery of the inner wall of the anti-dewing window assembly 100 through the propping arm assemblies 200 at the bottom of the dewing water absorbing assembly 300;

the anti-condensation window assembly 100 comprises an anti-condensation window frame 101, an air conditioner cold air inlet top opening 102 and an electric melting chamber air inlet bottom opening 108 are respectively arranged at the top and the bottom of the anti-condensation window frame 101, a prismatic airflow guiding tile plate 105 is fixedly arranged at the bottom inside the anti-condensation window frame 101, a plurality of transverse guide pipes 110 are arranged on four sides of the prismatic airflow guiding tile plate 105, a temporary storage groove 109 is formed between the bottom of the prismatic airflow guiding tile plate 105 and the inner wall of the anti-condensation window frame 101, anti-condensation window outlet pipes 111 are arranged on the outer walls around the anti-condensation window frame 101, perforated end platforms 103 are fixedly arranged at the top of the inner walls around the anti-condensation window frame 101, an exhaust fan 106 is arranged at the bottom inside the anti-condensation window frame 101 through a supporting base 107, and an installation seat plate 104 is arranged on one side of the anti-condensation window frame 101.

In this embodiment, preferably, the tightening arm assembly 200 includes a tightening arm sliding rod 201, a limiting ball head 208 and a fixed base 203 are respectively provided at the top and bottom of the tightening arm sliding rod 201, a mounting base 207 is fixedly provided on the fixed base 203, a mounting groove 204 is provided in the mounting base 207, two sides of the mounting base 207 are respectively provided with an L-shaped buckling side plate 205 in a rotating manner, a pushing spring 206 is provided between the L-shaped buckling side plate 205 and the mounting base 207, and a tightening spring 202 is sleeved on the tightening arm sliding rod 201;

the dew-absorbing assembly 300 comprises a mounting seat rod 301, a buckling top platform 302 and a sponge transverse seat plate 303 are respectively arranged at the top and the bottom of the mounting seat rod 301, and dew-absorbing sponge 304 is arranged on the bottom surface of the sponge transverse seat plate 303.

In this embodiment, preferably, the air conditioning cold air inlet top opening 102 is used as an air inlet port of air conditioning cold air, the air inlet bottom opening 108 of the electric melting chamber is used as an air inlet port for circulating the space inside the electric melting chamber, and the air inside the electric melting chamber is sucked and sent to the bottom of the prismatic airflow guiding tile 105 through the air inlet bottom opening 108 of the electric melting chamber by the air suction fan 106.

In this embodiment, the air suction fan 106 preferably sucks the air inside the electric melting chamber longitudinally below the prismatic air flow guiding tile 105, and the air inside the electric melting chamber is converted into a transverse flow through the transverse flow guiding pipe 110 and is discharged from the anti-condensation window air outlet pipe 111.

In this embodiment, preferably, the air conditioning cold air enters the anti-condensation window frame 101 from the air conditioning cold air inlet top opening 102, forms a condensation layer on the upper end surface of the prismatic airflow guiding tile 105, condenses out condensed water in the condensation layer by the air in the electric melting chamber which is laterally guided out by the transverse guiding tube 110, and flows to the temporary storage groove 109 along the top surface of the prismatic airflow guiding tile 105.

In this embodiment, it is preferable that the air-conditioning cool air entering from the air-conditioning cool air inlet top opening 102 is mixed with the air inside the electric melting chamber entering from the electric melting chamber air inlet bottom opening 108 at the positions of the upper end surfaces of the transverse flow guide tube 110 and the prismatic air flow guide tile 105 and discharged into the electric melting chamber from the anti-condensation window air outlet pipe 111.

In this embodiment, preferably, the jack arm sliding rod 201 and the perforated end platform 103 run through and slide, two ends of the jack spring 202 respectively abut against the perforated end platform 103 and the fixed base platform 203, the bottom structure of the jack arm assembly 200 is in a structure of naturally abutting down through the jack of the jack spring 202, and the bottom of the L-shaped buckling side plate 205 is buckled towards the installation groove 204 through the pushing of the pushing spring 206.

In this embodiment, preferably, the mounting seat rod 301 is inserted into the mounting groove 204 on the mounting seat table 207, the buckling top table 302 abuts against the port of the mounting groove 204, the bottom of the L-shaped buckling side plate 205 is buckled on the lower end surface of the buckling top table 302, and the dew absorbing sponge 304 lightly abuts against the temporary storage groove 109.

In another embodiment of the present invention, a humidity sensor may be disposed in the temporary storage tank 109 to detect the humidity of the water absorbing sponge 304, so as to replace the water absorbing sponge 304 in time, and in order to ensure that the air in the electric melting chamber is smoothly separated out from the top surface of the prismatic air guiding tile 105, the bottom end surface of the prismatic air guiding tile 105 may be provided with an insulating layer, so as to ensure that the air in the electric melting chamber can smoothly flow to the port of the transverse flow guiding tube 110 before condensation.

The working principle and the using flow of the invention are as follows: when the invention is used, the air conditioning cold air inlet top opening 102 is used as an air inlet port of air conditioning cold air, the electric melting chamber air inlet bottom opening 108 is used as an air inlet port of circulation of the space inside the electric melting chamber, through the exhaust fan 106, the air inside the electric melting chamber is sucked and conveyed to the bottom of the prismatic air flow guiding tile plate 105 through the electric melting chamber air inlet bottom opening 108, at the moment, the prismatic air flow guiding tile plate 105 is provided with a plurality of transverse guide pipes 110 on four sides, the air conditioning cold air entering from the air conditioning cold air inlet top opening 102 and the air inside the electric melting chamber entering from the electric melting chamber air inlet bottom opening 108 are mixed at the positions of the transverse guide pipes 110 and the upper end surfaces of the prismatic air guiding tile plate 105 and are discharged into the electric melting chamber from the anti-condensation window air outlet pipe 111, by the way, the mixing and the cooling of the air inside the air conditioning cold air and the electric melting chamber are realized, the integral cooling inside the electric melting chamber is realized, because the inside of the electric melting chamber is mainly a voltage device, the actual use of the electric melting chamber generates a great deal of heat, the temperature reduction of the interior of the electric melting chamber is realized in the mode, the other side is in the air conditioner cold air supplying process, the air conditioner cold air enters the anti-condensation window frame 101 from the air conditioner cold air inlet top opening 102, the upper end surface of the prismatic air flow guiding tile plate 105 forms a condensation layer, the air in the interior of the electric melting chamber transversely led out by the transverse flow guiding tube 110 condenses out condensed water on the condensation layer and flows to the temporary storage groove 109 along the top surface of the prismatic air flow guiding tile plate 105, the water in the air in the interior of the electric melting chamber can be condensed and separated out in the mode, the humidity in the interior of the electric melting chamber is actually reduced, the reliable operation of the electric melting chamber is ensured, the damage caused by the high indoor humidity is avoided, the operation of the electric melting chamber in the dry environment is fully ensured, the pushing arm sliding rod 201 and the perforated end table 103 run through sliding, the pushing of the pushing spring 202, the bottom structure of the jacking arm assembly 200 is in a structure of abutting naturally downwards, the bottom of the L-shaped buckling side plate 205 is buckled towards the installation groove 204 through pushing of the pushing spring 206, the installation seat rod 301 is inserted into the installation groove 204 on the installation seat table 207, the buckling top table 302 abuts against the port of the installation groove 204, the bottom of the L-shaped buckling side plate 205 is buckled on the lower end face of the buckling top table 302, the water absorbing sponge 304 lightly abuts against in the temporary storage groove 109, the assembly and the replacement between the jacking arm assembly 200 and the water absorbing assembly 300 can be facilitated through the cooperation of the structure, because the bottom of the water absorbing assembly 300 lightly abuts against in the temporary storage groove 109 to absorb condensate in time during actual use, the replacement and the installation of the water absorbing assembly 300 can be well realized after the water absorbing sponge 304 is used for one end, and the jacking arm assembly 200 has a structure of downward elastic abutting against, and the water absorbing assembly 304 is in the temporary storage groove 109 after the water absorbing assembly 300 is well installed, and the water absorbing assembly 300 is contacted with the sponge 109 in time, and the water absorbing assembly is guaranteed to be effectively contacted with the sponge 109.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An electric melting room air conditioner anti-condensation window, comprising an anti-condensation window component (100), characterized in that: the anti-condensation window assembly (100) is provided with a plurality of groups of tightening arm assemblies (200) in a tightening sliding manner, a dew-absorbing assembly (300) is buckled and inserted at the bottom of the tightening arm assemblies (200), and a tightly propped and abutted water-absorbing structure is formed at the periphery of the inner wall of the anti-condensation window assembly (100) through the tightening arm assemblies (200) at the bottom of the dew-absorbing assembly (300);

the anti-condensation window assembly (100) comprises an anti-condensation window frame (101), an air conditioner cold air inlet top opening (102) and an electric melting chamber air inlet bottom opening (108) are respectively arranged at the top and the bottom of the anti-condensation window frame (101), a prismatic airflow guiding tile plate (105) is fixedly arranged at the bottom inside the anti-condensation window frame (101), a plurality of transverse guide pipes (110) are arranged on four sides of the prismatic airflow guiding tile plate (105), a temporary storage groove (109) is formed between the bottom of the prismatic airflow guiding tile plate (105) and the inner wall of the anti-condensation window frame (101), anti-condensation window outlet pipes (111) are arranged on the outer walls around the anti-condensation window frame (101), end platforms (103) with holes are fixedly arranged at the top of the inner walls around the anti-condensation window frame (101), an exhaust fan (106) is arranged at the bottom inside the anti-condensation window frame (101) through a supporting fan (107), and an installation seat plate (104) is arranged on one side of the anti-condensation window frame (101).

The jacking arm assembly (200) comprises a jacking arm sliding rod (201), a limiting ball head (208) and a fixed base table (203) are respectively arranged at the top and the bottom of the jacking arm sliding rod (201), an installation base table (207) is fixedly arranged on the fixed base table (203), an installation groove (204) is formed in the installation base table (207), L-shaped buckling side plates (205) are respectively arranged on two sides of the installation base table (207) in a rotating mode, a pushing spring (206) is arranged between the L-shaped buckling side plates (205) and the installation base table (207), and a jacking spring (202) is sleeved on the jacking arm sliding rod (201);

the dew absorption assembly (300) comprises a mounting seat rod (301), a buckling top table (302) and a sponge transverse seat plate (303) are respectively arranged at the top and the bottom of the mounting seat rod (301), and dew absorption sponge (304) is arranged on the bottom surface of the sponge transverse seat plate (303).

2. The anti-condensation window of an electric melting chamber air conditioner according to claim 1, wherein: the air conditioning cold air inlet top opening (102) is used as an air inlet port of air conditioning cold air, the electric melting chamber air inlet bottom opening (108) is used as an air inlet port of circulation of the inner space of the electric melting chamber, and through the exhaust fan (106), the inner air of the electric melting chamber is sucked and delivered to the bottom of the prismatic airflow guiding tile plate (105) through the electric melting chamber air inlet bottom opening (108).

3. The anti-condensation window of an electric melting chamber air conditioner according to claim 1, wherein: the air draft fan (106) longitudinally sucks the air in the electric melting chamber to the lower part of the prismatic airflow guiding tile plate (105), and the air in the electric melting chamber is converted into transverse circulation through the transverse flow guide pipe (110) and is discharged from the anti-condensation window air outlet pipe (111).

4. The anti-condensation window of an electric melting chamber air conditioner according to claim 1, wherein: air conditioner cold air enters the anti-condensation window frame (101) from the air conditioner cold air inlet top opening (102) and forms a condensation layer on the upper end face of the prismatic airflow guiding tile plate (105), and the air in the electric melting chamber transversely led out by the transverse flow guiding pipe (110) condenses out condensed water on the condensation layer and flows to the temporary storage groove (109) along the top face of the prismatic airflow guiding tile plate (105).

5. The anti-condensation window of an electric melting chamber air conditioner according to claim 1, wherein: air conditioning cold air entering from the air conditioning cold air inlet top opening (102) is mixed with air inside the electric melting chamber entering from the electric melting chamber air inlet bottom opening (108) at the positions of the upper end surfaces of the transverse flow guide pipe (110) and the prismatic airflow guide tile plate (105), and is discharged into the electric melting chamber from the position of the anti-condensation window air outlet pipe (111).

6. The anti-condensation window of an electric melting chamber air conditioner according to claim 1, wherein: the jack arm sliding rod (201) and the perforated end table (103) run through and slide, two ends of the jack spring (202) are respectively abutted to the perforated end table (103) and the fixed base table (203), the jack arm assembly (200) bottom structure is in a structure of being abutted under nature through the jack of the jack spring (206), and the bottom of the L-shaped buckling side plate (205) is buckled towards the installation groove (204).

7. The anti-condensation window of an electric melting chamber air conditioner according to claim 1, wherein: the mounting seat rod (301) is inserted into the mounting groove (204) on the mounting seat table (207), the buckling top table (302) is abutted against the port of the mounting groove (204), the bottom of the L-shaped buckling side plate (205) is buckled on the lower end face of the buckling top table (302), and the dew absorbing sponge (304) is lightly abutted against the inside of the temporary storage groove (109).