CN216953205U - Energy-saving heating and ventilation equipment for building - Google Patents

Abstract

The utility model discloses an energy-saving heating and ventilation device for buildings, which comprises a heater shell, wherein the top end of the heater shell is provided with a folding drying structure, the top end of the heater shell is provided with an energy-saving thermal cycle structure, one end of the heater shell is provided with a display screen, one side of the heater shell is provided with a power switch, one side of the heater shell is provided with a humidifying structure, the bottom end of the heater shell is provided with a moving roller, two ends of the heater shell are provided with heat dissipation radiator fins, and the top end of the heater shell is provided with a control panel. Thereby realizing the thermal cycling function.

Description

Energy-saving heating and ventilation equipment for building

Technical Field

The utility model relates to the technical field of heating equipment, in particular to energy-saving heating and ventilation equipment for a building.

Background

Along with the development of the society, people have higher and higher requirements on heating equipment in cold winter, the heating equipment is generally heated by using electric energy, and the indoor temperature is raised by heating the heating equipment, so that a large amount of electric energy is consumed, and the energy-saving heating and ventilation equipment for the building is needed at present, but has certain defects;

traditional room heater drives indoor temperature through heating to self, needs extravagant a large amount of electric energy not energy-efficient enough, needs the rate of heating moreover slower:

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an energy-saving building heating and ventilating device to solve the problem of insufficient energy conservation and environmental protection in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an energy-saving heating and ventilation device for buildings comprises a heater shell, wherein a folding drying structure is arranged at the top end of the heater shell, an energy-saving thermal circulation structure is arranged at the top end of the heater shell, the energy-saving thermal circulation structure comprises a hot air outlet, the hot air outlet is arranged at the top end of the heater shell, a cold air inlet is arranged at the bottom end of the heater shell, an air filter screen is arranged at the top end of the cold air inlet, an exhaust fan is arranged at the top end of the air filter screen, a heating pipe is arranged at the top end of the exhaust fan, a display screen is arranged at one end of the heater shell, a power switch is arranged at one side of the heater shell, a humidifying structure is arranged at one side of the heater shell, movable idler wheels are arranged at the bottom end of the heater shell, heat radiating radiator fins are arranged at two ends of the heater shell, and a control panel is arranged at the top end of the warmer shell.

Preferably, the folding drying structure comprises a movable groove, the movable groove is formed in the top end of the warmer shell, a stretching rod is arranged inside the movable groove, and a limiting block is arranged at the bottom end of the stretching rod.

Preferably, the stretching rods are provided with two groups, the stretching rods are in contact with the movable groove through the limiting blocks, the stretching rods and the movable groove form a telescopic structure, and the stretching rods and the limiting blocks are of a welding integrated structure.

Preferably, the hot air outlet is communicated with the cold air inlet through the heater shell, and the air filter screen, the exhaust fan and the heating pipe are communicated in a cavity of the heater shell.

Preferably, the surface areas of the hot air outlet and the cold air inlet are equal to the cross section of the heater shell, and the exhaust fans are arranged inside the heater shell at equal intervals.

Preferably, the humidification structure includes a water tank placing groove, the water tank placing groove is arranged in the heater shell, a humidification water tank is arranged in the water tank placing groove, a perspective window cover is arranged on one side of the humidification water tank, a handle is arranged on one side of the humidification water tank, and a water mist nozzle is arranged on one side of the heater shell.

Preferably, the humidifying water tank directly constitutes sliding construction with the water tank standing groove, the water smoke spout is linked together with the humidifying water tank through the room heater casing, the handle contacts with the room heater casing through the humidifying water tank, the perspective window lid directly constitutes block structure with the room heater casing.

Compared with the prior art, the utility model has the beneficial effects that: the energy-saving heating and ventilation equipment for the building not only realizes the energy-saving heat circulation function, the folding and drying function, but also realizes the humidifying function;

(1) the energy-saving thermal cycle structure is arranged in the heater shell, when the heater shell is used, the exhaust fan in the heater shell sucks indoor cold air into the heater shell through the cold air inlet, the indoor cold air is heated by the heating pipe and then blown out through the hot air outlet to heat the indoor, and the air filter screen at the top end of the cold air inlet can filter dust in the air to ensure that the interior is clean, so that the energy-saving thermal cycle function is realized, the indoor cold air is converted into hot air through heating equipment, the indoor temperature can be quickly increased, the indoor energy can be saved by heating with least electric energy, and the air filter screen filters impurities, so that the energy consumption of the heating pipe is reduced due to the attachment of the dust;

(2) by arranging the folding drying structure, the stretching rod is arranged at the top end of the warmer shell, when the folding drying structure is used, the stretching rod is horizontally pulled from the movable groove of the warmer shell until the limiting block is contacted with the movable groove, and then the stretching rod is rotated by 90 degrees, so that the stretching rod is perpendicular to two sides of the warmer shell, the folding drying function is realized, clothes and the like can be hung on the stretching rod for drying after the stretching rod is pulled out, and the stretching rod can be folded and placed when not used, so that the space is saved, the function of reducing is not realized, and the operation is simple and rapid;

(3) through setting up the humidification structure, set up its one side at the room heater casing, after filling up water in the humidification water tank during the use, fill in the water tank standing groove of room heater casing one side with the humidification water tank, after setting up on control panel, water smoke spout the inside will blowout water smoke, to indoor humidification, the water yield condition in the humidification water tank can be monitored to the perspective window lid of humidification water tank one side, can pull out the humidification water tank through the handle after the humidification water tank water is used up, thereby the humidification function has been realized, indoor generally all can be drier after using the heating equipment, indoor drying can be alleviated to the humidification structure, use and get up and give other people more comfortable sensation.

Drawings

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

FIG. 2 is a schematic cross-sectional view of an energy-saving thermal cycle structure according to the present invention;

FIG. 3 is a schematic top view of the energy-saving thermal cycle structure of the present invention;

FIG. 4 is a schematic plan view of the folding drying structure of the present invention;

fig. 5 is a schematic perspective view of a humidifying structure according to the present invention.

In the figure: 1. folding and drying the structure; 101. a movable groove; 102. a stretching rod; 103. a limiting block; 2. an energy-saving thermal cycle structure; 201. a hot air outlet; 202. a cold air inlet; 203. an air screen; 204. an air draft fan; 205. heating a tube; 3. a display screen; 4. a power switch; 5. a humidifying structure; 501. a water mist nozzle; 502. a handle; 503. a see-through window cover; 504. a humidifying water tank; 505. a water tank placing groove; 6. moving the roller; 7. a heat sink sheet; 8. a warmer housing; 9. a control panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an energy-saving heating and ventilation device for a building comprises a heater shell 8, wherein a folding drying structure 1 is arranged at the top end of the heater shell 8, the folding drying structure 1 comprises a movable groove 101, the movable groove 101 is arranged at the top end of the heater shell 8, a stretching rod 102 is arranged inside the movable groove 101, and a limiting block 103 is arranged at the bottom end of the stretching rod 102;

two groups of stretching rods 102 are arranged, the stretching rods 102 are contacted with the movable groove 101 through a limiting block 103, the stretching rods 102 and the movable groove 101 form a telescopic structure, and the stretching rods 102 and the limiting block 103 are in a welding integrated structure;

specifically, as shown in fig. 1 and 4, by arranging the folding and drying structure 1 and arranging the folding and drying structure at the top end of the warmer shell 8, when in use, the stretching rod 102 is horizontally pulled from the movable groove 101 of the warmer shell 8 until the limiting block 103 is in contact with the movable groove 101, and then the stretching rod 102 is rotated by 90 degrees, so that the stretching rod 102 is vertical to two sides of the warmer shell 8, thereby realizing the folding and drying function;

the energy-saving thermal cycle structure 2 is arranged at the top end of the warmer shell 8, the energy-saving thermal cycle structure 2 comprises a hot air outlet 201, the hot air outlet 201 is arranged at the top end of the warmer shell 8, a cold air inlet 202 is arranged at the bottom end of the warmer shell 8, an air filter screen 203 is arranged at the top end of the cold air inlet 202, an exhaust fan 204 is arranged at the top end of the air filter screen 203, and a heating pipe 205 is arranged at the top end of the exhaust fan 204;

the hot air outlet 201 is communicated with the cold air inlet 202 through the warmer shell 8, the air filter screen 203, the induced draft fan 204 and the heating pipe 205 are communicated in the cavity of the warmer shell 8, the surface areas of the hot air outlet 201 and the cold air inlet 202 are equal to the cross section of the warmer shell 8, and the induced draft fans 204 are arranged in the warmer shell 8 at equal intervals;

specifically, as shown in fig. 1, 2 and 3, by providing the energy-saving heat cycle structure 2, when in use, the exhaust fan 204 inside the heater housing 8 sucks indoor cold air into the interior through the cold air inlet 202, heats the air by using the heating pipe 205, and blows the air out through the hot air outlet 201 to heat the interior, and the air filter screen 203 at the top end of the cold air inlet 202 can filter dust in the air to ensure the interior is clean, thereby realizing the heat cycle function;

one end of the warmer shell 8 is provided with the display screen 3, one side of the warmer shell 8 is provided with the power switch 4, one side of the warmer shell 8 is provided with the humidifying structure 5, the humidifying structure 5 comprises a water tank placing groove 505, the water tank placing groove 505 is arranged inside the warmer shell 8, a humidifying water tank 504 is arranged inside the water tank placing groove 505, one side of the humidifying water tank 504 is provided with a perspective window cover 503, one side of the humidifying water tank 504 is provided with a handle 502, and one side of the warmer shell 8 is provided with a water mist nozzle 501;

the humidifying water tank 504 and the water tank placing groove 505 directly form a sliding structure, the water mist nozzle 501 is communicated with the humidifying water tank 504 through the warmer shell 8, the handle 502 is in contact with the warmer shell 8 through the humidifying water tank 504, and the perspective window cover 503 and the warmer shell 8 directly form a clamping structure;

specifically, as shown in fig. 1 and 5, by arranging the humidifying structure 5 and arranging the humidifying structure at one side of the warmer shell 8, when the humidifying structure is used, after the humidifying water tank 504 is filled with water, the humidifying water tank 504 is plugged into the water tank placing groove 505 at one side of the warmer shell 8, after the humidifying structure is arranged on the control panel 9, water mist can be sprayed out of the water mist nozzle 501 to humidify the room, the perspective window cover 503 at one side of the humidifying water tank 504 can monitor the water quantity in the humidifying water tank 504, and after the water in the humidifying water tank 504 is used up, the humidifying water tank 504 can be pulled out through the handle 502, so that the humidifying function is realized;

the bottom of room heater casing 8 is provided with removal gyro wheel 6, and the both ends of room heater casing 8 are provided with heat dissipation spit of fland 7, and the top of room heater casing 8 is provided with control panel 9.

The working principle is as follows: when the utility model is used, firstly, the handle 502 is pulled to draw the humidifying water tank 504 out of the water tank placing groove 505, the humidifying water tank 504 is filled with water and then is plugged into the water tank placing groove 505 to be clamped, the using condition of water quantity can be seen through the perspective window cover 503 on one side of the humidifying water tank 504, then the power switch 4 is started, parameters are set on the control panel 9, the air draft fan 204 can suck indoor cold air into the heater shell 8 through the cold air inlet 202, the cold air is heated by the heating pipe 205, the heated air can be discharged into the room through the hot air outlet 201 and is heated by the heat dissipation radiator fins 7, the top end of the cold air inlet 202 is provided with the air filter screen 203 which can effectively filter dust in the air, the dust is prevented from entering the heater shell 8 to damage the inside, when the indoor temperature reaches a certain degree, the water mist can be sprayed out from the water mist nozzle 501 to humidify the room, finally, when the drying device is used, the stretching rod 102 at the top end of the warmer shell 8 can be pulled out of the movable groove 101, and the stretching rod 102 is rotated to be vertical to the warmer shell 8, so that articles to be dried can be placed on the stretching rod 102 for drying.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides an energy-saving for building warm equipment that leads to, includes room heater casing (8), its characterized in that: the energy-saving heating warmer is characterized in that a folding drying structure (1) is arranged at the top end of the warmer shell (8), an energy-saving heat circulation structure (2) is arranged at the top end of the warmer shell (8), the energy-saving heat circulation structure (2) comprises a hot air outlet (201), the hot air outlet (201) is arranged at the top end of the warmer shell (8), a cold air inlet (202) is arranged at the bottom end of the warmer shell (8), an air filter screen (203) is arranged at the top end of the cold air inlet (202), an exhaust fan (204) is arranged at the top end of the air filter screen (203), a heating pipe (205) is arranged at the top end of the exhaust fan (204), a display screen (3) is arranged at one end of the warmer shell (8), a power switch (4) is arranged at one side of the warmer shell (8), and a humidifying structure (5) is arranged at one side of the warmer shell (8), the bottom of room heater casing (8) is provided with removal gyro wheel (6), the both ends of room heater casing (8) are provided with heat dissipation spit of fland piece (7), the top of room heater casing (8) is provided with control panel (9).

2. The heating and ventilating device for energy-saving buildings as claimed in claim 1, wherein: the folding drying structure (1) comprises a movable groove (101), the movable groove (101) is arranged at the top end of the warmer shell (8), a stretching rod (102) is arranged inside the movable groove (101), and a limiting block (103) is arranged at the bottom end of the stretching rod (102).

3. The energy-saving heating and ventilating device for buildings as claimed in claim 2, wherein: the stretching rods (102) are arranged in two groups, the stretching rods (102) are in contact with the movable groove (101) through the limiting block (103), the stretching rods (102) and the movable groove (101) form a telescopic structure, and the stretching rods (102) and the limiting block (103) are in a welding integrated structure.

4. The energy-saving heating and ventilating device for buildings as claimed in claim 1, wherein: the hot air outlet (201) is communicated with the cold air inlet (202) through the heater shell (8), and the air filter screen (203), the exhaust fan (204) and the heating pipe (205) are communicated in a cavity of the heater shell (8).

5. The energy-saving heating and ventilating device for buildings as claimed in claim 1, wherein: the surface area of the hot air outlet (201) and the surface area of the cold air inlet (202) are equal to the cross section of the heater shell (8), and the exhaust fans (204) are arranged in the heater shell (8) at equal intervals.

6. The energy-saving heating and ventilating device for buildings as claimed in claim 1, wherein: the humidifying structure (5) comprises a water tank placing groove (505), the water tank placing groove (505) is arranged inside the warmer shell (8), a humidifying water tank (504) is arranged inside the water tank placing groove (505), a perspective window cover (503) is arranged on one side of the humidifying water tank (504), a handle (502) is arranged on one side of the humidifying water tank (504), and a water mist nozzle (501) is arranged on one side of the warmer shell (8).

7. The energy-saving heating and ventilating device for buildings as claimed in claim 6, wherein: the humidifying water tank (504) and the water tank placing groove (505) directly form a sliding structure, the water mist nozzle (501) is communicated with the humidifying water tank (504) through the heater shell (8), the handle (502) is in contact with the heater shell (8) through the humidifying water tank (504), and the perspective window cover (503) and the heater shell (8) directly form a clamping structure.

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