CN114110734A

CN114110734A - Warmer capable of preventing air drying

Info

Publication number: CN114110734A
Application number: CN202111422634.2A
Authority: CN
Inventors: 单炳俊
Original assignee: Yuyao Zhonglin Machinery Co ltd
Current assignee: Baiyi Electric Co ltd
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-03-01
Anticipated expiration: 2041-11-26
Also published as: CN114110734B

Abstract

The invention belongs to the field of heating, and particularly relates to a warmer for preventing air from drying, which comprises an anti-scald shell, wherein a heating cavity is arranged in the anti-scald shell, a through front heat dissipation groove is uniformly formed in one side wall of the heating cavity, a through upper heat dissipation groove is formed in one side wall of the heating cavity perpendicular to the side wall provided with the front heat dissipation groove, a power shell is fixedly arranged in the middle position of the inner wall of the heating cavity far away from the front heat dissipation groove, a water heat dissipation mechanism is arranged in the heating cavity close to the front heat dissipation groove, a heating mechanism is arranged in the heating cavity far away from the upper heat dissipation groove, a humidifying mechanism is arranged in the heating cavity far away from the front heat dissipation groove, and water vapor in the heating cavity is blown into a room through the upper heat dissipation groove and the front heat dissipation groove by wind generated by fan blades to humidify the room, and not only can humidify the room, but also has heat, and can generate temperature for the room.

Description

Warmer capable of preventing air drying

Technical Field

The invention belongs to the field of heating, and particularly relates to a heater capable of preventing air from drying.

Background

The room heater is the equipment that is used for the heating, and water heating when the north is common, through the hot water of flow in the pipeline to the room heating, the hot-water heating not only warms up including water and still includes water heating fin, compares in other materials, and the specific heat capacity of water is bigger, and the heat of launching and giving off is more under the same temperature, can be faster make the room warm up, but current water heater has following problem:

in the heating process, water in a room is evaporated along with the rise of temperature, water pipes are in a sealed state although water vapor is generated by water heating, and little water can be leaked into the room, so that the room is dried and the skin and the respiratory tract of people are damaged;

secondly, the existing water warmer can only heat the area and can not disperse hot air;

the existing water heater with the humidifying function easily causes the water mist to have overhigh temperature in the heating and humidifying processes, so people can be scalded.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an air drying prevention warmer capable of supplementing water in a room by water vapor cooled by air.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a prevent air drying's room heater, is including preventing scalding the shell, prevent scalding being equipped with the heating chamber in the shell, evenly be equipped with the preceding radiating groove that runs through on the lateral wall in heating chamber, the heating chamber with be equipped with the last radiating groove that runs through on preceding radiating groove vertically a lateral wall, the heating chamber is kept away from the fixed power shell that is equipped with in intermediate position of the inner wall of preceding radiating groove side, it is close to in the heating chamber preceding radiating groove side is equipped with the water heat dissipation mechanism, keep away from in the heating chamber upward the radiating groove side is equipped with heating mechanism, keep away from in the heating chamber preceding radiating groove side is equipped with humidification mechanism.

Preferably, water heat dissipation mechanism includes be close to in the power shell the hydrologic cycle chamber that preceding radiating groove side was equipped with, the hydrologic cycle chamber is kept away from inlay on the inner wall of preceding radiating groove side and be equipped with hydrologic cycle motor, hydrologic cycle motor from the epaxial annular of taking evenly is equipped with eight hydrologic cycles and dials the board, the power shell is followed the length direction of going up the radiating groove about the power shell symmetry is fixed and is equipped with two hydrologic cycles pipes.

Preferably, heating mechanism includes the scald preventing shell is kept away from go up the central point of heat dissipation groove side puts and inlays the hot water shell of establishing, be close to in the hot water shell power shell side is equipped with hot water groove and steam chamber, the steam chamber compare in the hot water groove is closer to the power shell, the hot water groove is kept away from fixed intercommunication is equipped with whole water pipe on the inner wall of preceding heat dissipation groove side, the hot water shell is kept away from steam chamber side internal fixation is equipped with the heater, the hot water groove with be equipped with on the next door between the steam chamber and run through the through-hole in hot water groove and steam chamber.

Preferably, the heating mechanism further comprises two water sealing grooves with openings facing the hot water groove, which are symmetrically arranged on the connection part of the whole water pipe and the hot water groove, of the whole water pipe, a water sealing plate is hermetically arranged on the connection part of the whole water pipe and the hot water groove, the water sealing plate is respectively connected to the inner walls of the two water sealing plates through two water sealing springs, one end, far away from the power shell, of each water circulating pipe is communicated with the whole water pipe, and the water circulating cavity is communicated with the hot water groove through a water guide pipe.

Preferably, humidification mechanism still includes the power shell is kept away from preceding radiating groove side is equipped with steam power chamber, prevents scalding the shell and keeps away from central point puts the fixed steam dispersion motor that is equipped with on the outer wall of preceding radiating groove side, steam dispersion motor is close to power shell side rotates and is equipped with the fan axle, the fan axle is located steam power intracavity end annular evenly is equipped with eight steam dials the board, the steam chamber is kept away from through two steam pipe intercommunications on the inner wall of preceding radiating groove side steam power chamber, steam power chamber is located all fixedly on the inner wall of water circulating pipe both sides be equipped with steam dispersion pipe, every steam dispersion pipe keeps away from power shell end all is the closed form, every all evenly be equipped with a plurality of opening on the steam dispersion pipe and deviate from preceding radiating groove's steam louvre.

Preferably, the humidifying mechanism further comprises an air cavity arranged on the side of the anti-scalding shell far away from the front heat dissipation groove, a plurality of vent holes are uniformly arranged on the partition wall between the air cavity and the heating cavity, the fan shaft is fixedly arranged at the inner end of the air cavity and is symmetrically and fixedly provided with two fan blades around the fan shaft, a plurality of air exchange holes are arranged on the inner wall of the air cavity far away from the heating cavity, two heat absorption pipes are symmetrically arranged on the partition wall of the steam power cavity and the water circulation cavity relative to the water circulation motor, a hot air cavity is arranged on the side of each heat absorption pipe close to the water circulation cavity, a heat absorption sealing plate is hermetically arranged on the side of each hot air cavity close to the water circulation cavity, the side, far away from the water circulation cavity, of the heat absorption sealing plate is symmetrically connected to the inner wall, close to the heat absorption pipe, of the hot gas cavity through two heat absorption sealing springs.

Has the advantages that: because the liquid level of the water in the hot water tank is higher than the position of the water adjusting pipe, the water sealing plate can prevent the water in the hot water tank from flowing back into the water circulating pipe to influence the circulation of the water.

The wind that the flabellum produced blows in the room with the steam in the heating chamber through last radiating groove and preceding radiating groove, humidifies the room, and steam not only can humidify the room, and steam itself also has the heat, can also produce the temperature to the room.

Because the steam in the steam dispersion pipe is high temperature, the wind that produces in the flabellum can be bigger with the scope that steam blows, can also cool down the steam of high temperature, and the wind that the flabellum produced can make last radiating groove and preceding radiating groove blow out the wind for hot-blast after passing through the water circulating pipe, and makes the faster of heat diffusion, makes the room heat up more fast.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic diagram of a structural implementation of the present invention;

FIG. 3 is a schematic view of FIG. 2 taken along line A-A;

FIG. 4 is an enlarged view of the point B in FIG. 2;

FIG. 5 is an enlarged view of FIG. 3 at C;

FIG. 6 is a schematic view of the direction D-D in FIG. 3;

FIG. 7 is a schematic view taken along the line E-E in FIG. 5;

fig. 8 is an enlarged view of F in fig. 3.

In the figure, an anti-burn housing 10; a heating chamber 11; a water circulation pipe 12; a power shell 13; a water circulation chamber 14; a water circulation poking plate 15; a hot water shell 16; a heater 17; a hot water tank 18; a water rectification pipe 19; a water introduction duct 20; a water vapor chamber 21; a water vapor pipe 22; a wind chamber 23; a water feed pipe 24; a sealing plug 25; a fan shaft 26; fan blades 27; a front heat sink 28; a vent hole 29; a water vapor dispersion pipe 30; a steam power chamber 31; 32, a first step of removing the first layer; a steam paddle 33; a heat absorbing tube 34; a hot air chamber 35; a heat absorbing seal spring 36; a heat absorbing sealing plate 37; a water circulation motor 38; a steam dispersion motor 39; a steam heat dissipation hole 40; an upper heat dissipation groove 41; a water seal groove 42; a water seal spring 43; a water seal plate 44; a water heat dissipation mechanism 90; a heating mechanism 91; a humidifying mechanism 92.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Combine fig. 2, fig. 3, a prevent air drying's room heater, including preventing scalding shell 10, prevent scalding shell 10 and be equipped with heating chamber 11, evenly be equipped with the preceding radiating groove 28 that runs through on heating chamber 11's the lateral wall, be equipped with the last radiating groove 41 that runs through on heating chamber 11 and the lateral wall that is equipped with preceding radiating groove 28 vertically, heating chamber 11 keeps away from the fixed power shell 13 that is equipped with in inner wall intermediate position of preceding radiating groove 28 side, be close to preceding radiating groove 28 side in heating chamber 11 and be equipped with water heat dissipation mechanism 90, it is equipped with heating mechanism 91 to keep away from last radiating groove 41 side in heating chamber 11, it is equipped with humidification mechanism 92 to keep away from preceding radiating groove 28 side in heating chamber 11.

Further, referring to fig. 2, the water heat dissipation mechanism 90 includes a water circulation cavity 14 disposed in the power housing 13 near the front heat dissipation groove 28, a water circulation motor 38 is embedded on an inner wall of the water circulation cavity 14 far from the front heat dissipation groove 28, eight water circulation dial plates 15 are uniformly annularly disposed on a self-contained shaft of the water circulation motor 38, and two water circulation pipes 12 are symmetrically and fixedly disposed on the power housing 13 along the length direction of the upper heat dissipation groove 41 of the power housing 13.

Further, combine fig. 2, fig. 4, heating mechanism 91 includes that the central point that prevents scalding shell 10 and keep away from last radiating groove 41 side puts the hot water shell 16 of inlaying and establishing, it is equipped with hot-water tank 18 and steam chamber 21 to be close to power shell 13 side in the hot water shell 16, steam chamber 21 is compared in hot-water tank 18 and is more close to power shell 13, fixed intercommunication is equipped with whole water pipe 19 on the inner wall of radiating groove 28 side before hot-water tank 18 keeps away from, hot-water shell 16 keeps away from steam chamber 21 side internal fixation and is equipped with heater 17, be equipped with the through-hole that runs through hot-water tank 18 and steam chamber 21 on the next door between hot-water tank 18 and the steam chamber 21.

Further, referring to fig. 2 and 8, the heating mechanism 91 further includes two water sealing plates 42 with openings facing the hot water tank 18, the connection between the water rectification pipe 19 and the hot water tank 18 is symmetrically provided with the two water sealing grooves 42 with openings facing the hot water tank 18, the connection between the water rectification pipe 19 and the hot water tank 18 is hermetically provided with a water sealing plate 44, the water sealing plates 44 are respectively connected to the inner walls of the two water sealing plates 44 through two water sealing springs 43, one end of each water circulation pipe 12 away from the power shell 13 is communicated with the water rectification pipe 19, and the water circulation cavity 14 is communicated with the hot water tank 18 through a water guide pipe 20.

Further, with reference to fig. 5, fig. 6, fig. 7, the humidifying mechanism 92 further includes a power shell 13, a steam power cavity 31 is arranged on the side far away from the front heat dissipation groove 28, a steam dispersion motor 39 is fixedly arranged at the central position on the outer wall of the anti-scalding shell 10, which is far away from the front heat dissipation groove 28, a fan shaft 26 is rotatably arranged on the side close to the power shell 13, the fan shaft 26 is positioned on the inner end of the steam power cavity 31 and annularly and uniformly provided with eight steam dial plates 33, the inner wall of the steam cavity 21, which is far away from the front heat dissipation groove 28, is communicated with the steam power cavity 31 through two steam pipes 22, the steam power cavity 31 is positioned on the inner walls of two sides of the water circulation pipe 12 and fixedly provided with steam dispersion pipes 30, the end of each steam dispersion pipe 30, which is far away from the power shell 13, is closed, and each steam dispersion pipe 30 is uniformly provided with a plurality of steam heat dissipation holes 40, the openings of which deviate from the front heat dissipation groove 28.

Further, with reference to fig. 3 and fig. 6, the humidifying mechanism 92 further includes an air cavity 23 disposed on the side of the anti-scald housing 10 away from the front heat dissipation groove 28, a plurality of ventilation holes 29 are uniformly disposed on a partition wall between the air cavity 23 and the heating cavity 11, two fan blades 27 are fixedly disposed on the inner end of the air cavity 23 and symmetrically fixed with respect to the air shaft 26, a plurality of ventilation holes are disposed on the inner wall of the air cavity 23 away from the heating cavity 11, two heat absorption pipes 34 are symmetrically disposed on the partition wall between the steam power cavity 31 and the water circulation cavity 14 and symmetrically disposed with respect to the water circulation motor 38, a hot air cavity 35 is disposed on the side of each heat absorption pipe 34 close to the water circulation cavity 14, a heat absorption sealing plate 37 is hermetically disposed on the side of each hot air cavity 35 close to the water circulation cavity 14 and symmetrically connected to the inner wall of the hot air cavity 35 close to the heat absorption pipes 34 through two heat absorption sealing springs 36 on the side of the heat absorption sealing plate 37 away from the water circulation cavity 14.

Initial state: the heat absorbing sealing spring 36 is in a slightly compressed state and the water sealing spring 43 is in a slightly stretched state.

The working principle is as follows: the sealing plug 25 is opened to add water into the hot water tank 18 through the water adding pipe 24, so that water is stored in both the hot water tank 18 and the water circulation chamber 14, the water adding pipe 24 is sealed through the sealing plug 25, the heater 17 is started to heat the water in the hot water tank 18, the water in the hot water tank 18 is heated, meanwhile, the water circulation motor 38 is started, the water circulation shifting plate 15 is driven by the water circulation motor 38 to rotate, the water circulation shifting plate 15 rotates in the water circulation chamber 14, so that the pressure in the water circulation chamber 14 is reduced, the water in the hot water tank 18 is sucked into the water circulation chamber 14 through the water guide pipe 20, the water in the water circulation chamber 14 is discharged into the water circulation pipes 12, the water in the two water circulation pipes 12 pushes the water sealing plate 44 through the water shaping pipe 19 to return to the hot water tank 18, so that the water circulates in the water circulation pipes 12, the water sealing plate 44 seals the inner wall of the hot water tank 18 through the pulling force of the water sealing spring 43, because the liquid level of the water in the hot water tank 18 is higher than the position of the water-conditioning pipe 19, the water sealing plate 44 can prevent the water in the hot water tank 18 from flowing back into the water circulation pipe 12 to affect the circulation of the water, when the water passes through the water in the hot water tank 18 and is heated slowly by the heater 17, the water circulating in the water circulation pipe 12 is heated more and more, the heat is easy to spread because the specific heat capacity of the water is larger, and the hot gas generated by the water is diffused into the room through the upper heat dissipation groove 41 and the front heat dissipation groove 28, so that the temperature of the room is raised quickly.

After the temperature of the water in the water circulation pipe 12 rises, the steam dispersion motor 39 is started, the steam dispersion motor 39 drives the fan blade 27 and the steam poking plate 33 to rotate through the fan shaft 26, the pressure in the steam power cavity 31 is reduced, the steam generated in the hot water tank 18 is sucked into the steam power cavity 31 through the steam pipe 22, the steam poking plate 33 rotates to discharge the steam entering the steam power cavity 31 into the steam dispersion pipe 30, the steam in the steam dispersion pipe 30 enters the heating cavity 11 through the steam heat dissipation holes 40, the fan shaft 26 rotates to drive the fan blade 27 to rotate, the wind generated by the fan blade 27 enters the heating cavity 11 through the wind cavity 23 and the ventilation holes 29, and the wind generated by the fan blade 27 blows the steam in the heating cavity 11 into a room through the upper heat dissipation groove 41 and the front heat dissipation groove 28, so as to humidify the room.

Because the steam in the steam dispersion pipe 30 is high temperature, the wind that produces in the flabellum 27 can be bigger with the scope that steam blows, can also cool down the steam of high temperature, prevent that steam from scalding the user, the wind that flabellum 27 produced can make radiator tank 41 and preceding radiator tank 28 blow out for hot-blast after passing through water circulating pipe 12, and make the heat diffusion faster, make the room heat up more fast, and steam itself also has the heat, can produce the temperature to the room.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a prevent air drying's room heater, includes prevents scalding shell (10), its characterized in that: prevent scalding and be equipped with in shell (10) and heat chamber (11), evenly be equipped with preceding radiating groove (28) that run through on the lateral wall in heating chamber (11), heating chamber (11) with be equipped with last radiating groove (41) that run through on preceding radiating groove (28) vertically a lateral wall, heating chamber (11) are kept away from the fixed power shell (13) that is equipped with in inner wall intermediate position of preceding radiating groove (28) side, be close to in heating chamber (11) preceding radiating groove (28) side is equipped with water heat dissipation mechanism (90), keep away from in heating chamber (11) it is equipped with heating mechanism (91) to go up radiating groove (41) side, keep away from in heating chamber (11) preceding radiating groove (28) side is equipped with humidification mechanism (92).

2. A warmer of claim 1, wherein: water heat dissipation mechanism (90) include be close to in power shell (13) hydrologic cycle chamber (14) that preceding radiating groove (28) side was equipped with, hydrologic cycle chamber (14) are kept away from inlay on the inner wall of preceding radiating groove (28) side and be equipped with hydrologic cycle motor (38), the epaxial annular of taking certainly of hydrologic cycle motor (38) evenly is equipped with eight hydrologic cycles and dials board (15), power shell (13) are followed the length direction who goes up radiating groove (41) is about power shell (13) symmetry is fixed and is equipped with two hydrologic cycle pipes (12).

3. A warmer of claim 2, wherein: heating mechanism (91) include prevent scalding shell (10) and keep away from go up central point that radiating groove (41) incline puts and inlays hot-water shell (16) of establishing, be close to in hot-water shell (16) power shell (13) side is equipped with hot-water tank (18) and steam chamber (21), steam chamber (21) compare in hot-water tank (18) are more close to power shell (13), hot-water tank (18) are kept away from fixed intercommunication is equipped with whole water pipe (19) on the inner wall of preceding radiating groove (28) side, hot-water shell (16) are kept away from steam chamber (21) side internal fixation is equipped with heater (17), hot-water tank (18) with be equipped with on the next door between steam chamber (21) and run through the through-hole of hot-water tank (18) and steam chamber (21).

4. A warmer of claim 3, wherein: the heating mechanism (91) further comprises two water sealing grooves (42) which are symmetrically arranged on the connection part of the water preparation pipe (19) and the hot water tank (18) and have openings facing the hot water tank (18), water sealing plates (44) are hermetically arranged on the connection part of the water preparation pipe (19) and the hot water tank (18), the water sealing plates (44) are respectively connected to the inner walls of the two water sealing plates (44) through two water sealing springs (43), one end of each water circulation pipe (12) far away from the power shell (13) is communicated with the water preparation pipe (19), and the water circulation cavity (14) is communicated with the hot water tank (18) through a water guide pipe (20).

5. A warmer of claim 4, wherein: the humidifying mechanism (92) further comprises a steam power cavity (31) is arranged on the side, far away from the front heat dissipation groove (28), of the power shell (13), a steam dispersion motor (39) is fixedly arranged at the central position on the outer wall, far away from the front heat dissipation groove (28), of the anti-scalding shell (10), a fan shaft (26) is arranged on the side, close to the power shell (13), of the steam dispersion motor (39) in a rotating mode, eight steam poking plates (33) are annularly and uniformly arranged on the inner end of the steam power cavity (31), the inner wall, far away from the front heat dissipation groove (28), of the steam cavity (21) is communicated with the steam power cavity (31) through two steam pipes (22), the steam power cavity (31) is arranged on the inner walls on the two sides of the water circulation pipe (12), steam dispersion pipes (30) are fixedly arranged on the inner walls, far away from the power shell (13), of each steam dispersion pipe (30) is closed, each steam dispersion pipe (30) is uniformly provided with a plurality of steam radiating holes (40) with openings deviating from the front radiating grooves (28).

6. A warmer of claim 5, wherein: the humidifying mechanism (92) further comprises an air cavity (23) which is arranged on the side of the anti-scalding shell (10) far away from the front heat dissipation groove (28), a plurality of ventilation holes (29) are uniformly formed in a partition wall between the air cavity (23) and the heating cavity (11), the fan shaft (26) is positioned at the inner end of the air cavity (23), two fan blades (27) are symmetrically and fixedly arranged on the inner end of the air cavity (23) relative to the fan shaft (26), a plurality of ventilation holes are formed in the inner wall of the air cavity (23) far away from the heating cavity (11), two heat absorbing pipes (34) are symmetrically arranged on the partition wall between the steam power cavity (31) and the water circulation cavity (14) relative to the water circulation motor (38), a hot air cavity (35) is arranged on the side of each heat absorbing pipe (34) close to the water circulation cavity (14), and a heat absorbing sealing plate (37) is hermetically arranged on the side of each hot air cavity (35) close to the water circulation cavity (14), the side of the heat absorption sealing plate (37) far away from the water circulation cavity (14) is symmetrically connected to the inner wall of the heat absorption cavity (35) close to the heat absorption pipe (34) through two heat absorption sealing springs (36).