CN210070013U - Heating structure - Google Patents

Abstract

The utility model discloses a heating installation structure relates to the domestic appliance field. In this application, a heating structure includes: air-out circulation subassembly, air-out circulation subassembly includes: the power assembly is provided with a main shaft and drives the main shaft to move, the inner shell and the power assembly are in opposite positions, an accommodating space is arranged in the inner shell and used for providing an airflow flowing space, and the accommodating space also has the function of accommodating an entity; the heat generating part is arranged in the inner shell and used for generating heat, the heat generated by the heat generating part is dissipated into the accommodating space, the oblique flow part is used for guiding the airflow direction in the accommodating space, and the oblique flow part and the heat generating part are in opposite positions. The utility model discloses when keeping warm to people, radiating air outlet is hidden, improves holistic visual effect to the air outlet is to outside to one side, and the hot gas flow of production can not directly blow to the crowd, reduces the uncomfortable sense of uncomfortable crowd, can also make the temperature experience warmly more easily from the rebound down.

Description

Heating structure

Technical Field

The utility model relates to a domestic appliance field, in particular to heating installation structure.

Background

Since the urban heating equipment is formally introduced from the Soviet Union in 1950 s of China, the heating equipment is generally increased in an explosive manner like bamboo shoots in spring after raining, and various heating equipment applied to different scenes is developed rapidly. In fact, in China, from the age of old stoneware, cold air invasion is blocked by means of flowing air for combustion supporting, then, the furnace is developed into singing in the early spring and autumn period for transferring fire species to facilitate heating, after the era of spring and autumn warring, the south-north boundary of the heating is gradually concealed and the change of burning substances (burning carbon) is carried out, heating equipment is developed into a fireplace, and after the era, the heating equipment is developed into different heating modes for facilitating heating enjoyment and heating.

In the fast-paced work and life, people are more eager to enjoy the natural, warm and romantic leisure feeling brought by the heating equipment.

However, the heating devices have many unsatisfactory places in the using process, for example, the existing heating devices can contact human bodies due to heating airflow in the using process to cause adverse reactions (facial paralysis, dizziness and the like) which are not suitable for people, and although the existing heating devices have an adjustable function, the airflow of the heating devices can inevitably contact the human bodies when a plurality of people share the same heating device, thereby causing the adverse reactions.

Therefore, the existing heating equipment cannot meet the pursuit of people for the natural, warm and romantic leisure feeling brought by the heating equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a heating installation structure for the air current that produces of heating installation structure in the use can contact the human body and cause the problem that the uncomfortable crowd takes place the adverse reaction among the solution prior art.

In order to achieve the above purpose, the embodiments of the present application adopt the following technical solutions: heating installation structure includes: air-out circulation subassembly, this air-out circulation subassembly includes: the power assembly is provided with a main shaft and drives the main shaft to move; the inner shell is opposite to the power assembly, an accommodating space is arranged in the inner shell and used for providing an airflow flowing space, and the accommodating space also has the function of accommodating an entity; the heating part is positioned in the inner shell and used for generating heat, the heat generated by the heating part is dissipated into the accommodating space, and the heating part and the power assembly are positioned at opposite positions; the oblique flow portion is used for guiding the airflow direction in the accommodating space, the oblique flow portion and the heating portion are in opposite positions, the oblique flow portion is provided with an air outlet, the air outlet is used for the airflow in the accommodating space to flow out, the air outlet is located on one side of the heating portion, and heat generated by the heating portion is driven to flow out through the airflow in the accommodating space.

In above-mentioned technical scheme, this application embodiment is in same accommodation space with oblique flow portion and the portion that generates heat, and oblique flow portion can disperse the heat that the portion that generates heat through the diagonal direction simultaneously, makes hot-blast keeping away from the human body dispersing the in-process, reduces the problem that the crowd takes place the adverse reaction that does not adapt to.

Further, in an embodiment of the present invention, an atomizing part for generating mist includes: a reservoir having a receiving space for providing storage of a liquid, the reservoir being hollow inside; the cotton swab is positioned in the storage device, contacts the liquid in the containing space, absorbs the liquid and is in a cylinder shape; the spraying part is used for releasing the mist generated by the atomizing part, the spraying part is positioned on one side of the air outlet circulation component, and the mist sprayed by the spraying part is vertically sprayed out. One end of the connecting pipe is connected with the spraying part, the other end of the connecting pipe is connected with the storage device, and the storage device is positioned below the air outlet circulation assembly; the fixed knob is connected with the storage device, and one end of the fixed knob is provided with an accommodating space for matching with the storage device for fixing; the connecting knob is fixedly connected with the fixed knob, the other end of the connecting pipe is connected above the connecting knob, and an accommodating space is formed in one end of the connecting knob. The atomization plate is used for atomizing the liquid conducted by the cotton swab and is arranged above the cotton swab; the sealing ring is arranged between the storage device and the fixing knob, and the sealing ring is arranged in the accommodating space of the storage device. The spraying part is positioned below the air outlet and is used for humidifying the air of the heat generated by the heating part, and a diversion trench is arranged on the periphery of the spraying part; the diversion trench is used for guiding out liquid residues generated by the oblique flow part, one end of the diversion trench is provided with a plurality of outlets and the spraying part, the diversion trench is provided with an accommodating space used for guiding residual liquid, the drainage tube is arranged above the diversion trench, the outlet end of the drainage tube is aligned to the diversion trench, and the outlet end of the drainage tube is arranged above the diversion trench. Deposit liquid in the accumulator, absorb liquid through the cotton swab and then atomize cotton swab absorptive liquid at the atomization plate of cotton swab top, after atomizing, the liquid after atomizing portion will atomize is the vertical direction blowout to atomizing portion through the connecting pipe, can be when heating warm the air heating structure through atomizing portion, air humidity crosses low back, carries out the humidification through atomizing portion to the air and prevents that the air is too dry, cause the uncomfortable crowd, breathe the difficulty, the health is uncomfortable. Meanwhile, the guide groove on the periphery of the spraying part can accumulate atomized liquid sprayed by the spraying part to form liquid which can drop inside the heating structure, and the heating structure is damaged. The guiding gutter can be retrieved the outer wall of liquid through spraying portion that forms just, prevents to drip to cause environmental pollution to the device outside, and is not pleasing to the eye, and the accommodation space that spraying portion caused simultaneously forms liquid, can draw forth through the drainage tube, and drainage is concentrated to the guiding gutter and is retrieved, prevents that the liquid that forms from dripping at will, influences device life, causes the outside not pleasing to the eye.

Further, in an embodiment of the present invention, a capturing component, the capturing component includes: a housing having an accommodating space for storing a captured object, the housing being hollow; the upper cover is positioned above the shell, a hole is formed in the upper cover, the upper cover is used for being fixed above the shell for sealing, and the interior of the upper cover is hollow; the rotating part is positioned in the shell, the rotating part attracts the captured object into the shell through rotation, and the rotating part and the inner hole of the upper cover are in the same axis. The flow gathering cover is arranged in the shell, the connecting edge of the flow gathering cover and the inner wall of the shell is fixed, the flow gathering cover is positioned below the rotating part, a vortex generated by the rotating part and the flow gathering cover are in the same axis, and the flow gathering cover is used for gathering the captured objects; the spraying shell is arranged at the bottom of the shell and is provided with a spraying head, the spraying head sprays liquid, and the inner wall of the spraying shell is provided with threads; the mist dispersing cover is arranged in the shell and meshed with the threads on the inner wall of the spraying shell, and the mist dispersing cover is positioned below the flow collecting cover. The spray head is wrapped by the mist dispersing cover, the periphery of the mist dispersing cover is provided with mist dispersing openings, and the shape of the mist dispersing openings is from large to small. The mist dispersing cover and the flow gathering cover are funnel-shaped, and the conical top end of the mist dispersing cover is opposite to the conical top end of the flow gathering cover. Six sprinkler heads are provided. The casing periphery is provided with the drainage groove, and this drainage groove is used for the liquid that this oblique flow portion of drainage produced to remain, and this drainage inslot portion has accommodation space. The liquid is a medicament. The drainage groove and the shell are integrally arranged. The shell is externally provided with an electromagnetic valve which is used for controlling the flow of water in the drainage groove. When the heating structure is used for heating, the spraying part and the heating part can cause a damp and hot environment which is very favorable for mosquitoes, so the mosquitoes are caught by the catching component, the mosquitoes are more abundant due to damp and hot air when the heating structure is used at night, the mosquitoes are attracted to the attracting lamp part by the attracting lamp of the catching component, meanwhile, the rotating part below the attracting lamp rotates in a vortex mode, the mosquitoes above the attracting lamp are adsorbed into the shell through vortex whirlwind, the mosquitoes enter the shell through the flow gathering cover, the mosquitoes cannot fly out after entering the shell through the funnel of the flow gathering cover, however, when the mosquitoes are excessively adsorbed, the mosquitoes in the shell can generate sound inside due to the flying capacity, the excessive mosquitoes can amplify the sound, at the moment, the spraying shell at the bottom of the shell can spray liquid atomized medicine out, and the medicine can be diffused to the periphery inside the shell through the fog scattering cover, the inside mosquito of casing can lose flight ability after contacting atomizing medicament, and the mosquito can die after the long time contact simultaneously, and the medicament that sprays out can not spill over the casing inside because of the inward vortex of rotating part.

Further, in the embodiment of the present invention, the air-out circulation component further includes: the fan, this fan is connected with this power component, and this fan is used for producing the air current, and this fan is located inside this inner shell, and this fan is located this inner shell one end, is provided with this portion that generates heat in one side of this fan. The air current that this fan produced passes through this portion that generates heat, and this air current contacts this oblique flow portion and moves down to one side. The air current that produces through the fan flows along with the oblique below of slope angle because the inclination that the oblique flow portion has after contacting oblique flow portion, and the air current that at this moment flows can not the direct contact human body, can move down, and the heat because the air current has can make hot-air slowly upwards simultaneously, makes people feel the heating installation naturally, can not the direct contact human body again.

Further, in the embodiment of the present invention, the oblique flow portion includes: the oblique flow plate is arranged in an oblique angle mode, the oblique flow plate and the inner shell form an oblique angle, the oblique flow plate is used for guiding air flow in the accommodating space, a flow blocking surface is arranged at the extending position of one end of the oblique flow plate, and the flow blocking surface and the oblique flow plate form an oblique angle. The joint of the flow blocking surface and the oblique flow plate forming an oblique angle is provided with a through hole, and an accommodating space is arranged in the through hole. The inclined flow plate and the inner shell are integrally formed, the inclined flow plate is arranged at one end of the inner shell, and a drainage tube is arranged at one side of the inner shell; the drainage tube corresponds to the through hole, the drainage tube and the through hole are in the same axis, and the interior of the drainage tube is hollow. The oblique flow board that the oblique flow portion set up can use when the device humidifies of spraying portion, remains the atomized liquid at oblique flow portion oblique angle, can flow out downwards along with the oblique angle, can concentrate remaining atomized liquid through the oblique angle that keeps off the surface of flowing and oblique flow board formation and retrieve, and the through-hole that opens through the junction that keeps off the surface of flowing and oblique flow board formation oblique angle after retrieving makes and remains atomized liquid and flow out, prevents to form the long-pending retention in inside.

Further, in the embodiment of the present invention, the heat generating portion is one of a heating wire, a heating sheet, an electric heating tube, an electric heating plate, or an electric heating coil.

The embodiment of the utility model also discloses a heating method based on above-mentioned heating installation structure, including following step:

the unit is arranged at a position to be installed, and an air outlet is aligned to the direction needing heating during installation;

after the installation is finished, a unit switch is started, and the air outlet circulation assembly is started;

the air outlet circulation component generates heat and blows out the heat through an internal fan;

in the hot air blowing process, the oblique flow part conducts oblique below diversion on the hot air to enable the wind direction to move obliquely downwards:

after the hot air is blown out, when the humidity in the space is too low, the mist humidification is carried out by the spraying part.

Further, the embodiment of the utility model provides a still disclose: the mist sprayer unit humidifies the mist by blowing the mist in a vertical direction during atomization and humidification, and after humidification, air containing humidity is blown obliquely downward by the oblique flow unit.

Further, the embodiment of the utility model provides a still disclose: the heating method further comprises the following steps: when the mosquitoes need to be caught, the catching assembly is started to attract and catch the mosquitoes.

Further, the embodiment of the utility model provides a still disclose: the catching assembly is started, the attracting lamp irradiates to attract the mosquitoes, when the mosquitoes pass through the attracting lamp, the rotating part continuously rotates to attract the mosquitoes into the shell, and the mosquitoes are prevented from escaping through the flow gathering cover.

The utility model has the advantages that: firstly, the heating structure of the utility model guides the air flow generated by the fan through the oblique flow part to the oblique lower part when the air blowing is carried out on the heating, this can make the warm air flow not directly contact with human body when blowing out, most of the hot air outlets of the existing heating structure in the market are arranged on the top of the product (the hot air upwards causes poor heating effect), and the other part is arranged on the bottom (the bottom outlet air can generate larger dust to fly upwards to cause larger damage to human body when heating in the closed space), and the part sets up directly in the front (at this moment heating structure, though can not lead to the heating effect not good, the dust can not fly upward, but at this moment visual effect can be poor people's will), because the air outlet can lead to partial heating crowd at the front simultaneously, is not suitable the heat current direct contact health to produce the adverse reaction. And the utility model discloses a heating installation structure will keep warm the thermal current through oblique flow portion and set up to blow off to one side down, and is first, and this can blow off to one side through the thermal current when keeping warm, makes the hot-air slowly rise and makes the human body feel warm more easily. Secondly, the heat flow blown out obliquely downwards can not cause the dust on the ground to fly too much due to the airflow, so that the air quality can be kept clean in a closed space, and the physical damage and sensory discomfort of people can be reduced. Thirdly, the design of oblique flow portion for the hot-air outlet is difficult to be found by the people, through human visual difference effect, makes people can't discover the air outlet very fast when seeing heating structure, makes ornamental effect better, and is more pleasing to the eye. Simultaneously the utility model discloses a heating installation structure still has spraying portion, under the dry condition of indoor air through spraying portion, carries out certain air humidifying, reduces the dry sense of heating in-process, and spraying portion and the combination of oblique flow portion can also be at the in-process of long-time humidification air, and humid air remains inside spraying portion, and formation hydrops is remained, carries out the water conservancy diversion through the hydrops of oblique flow portion in with spraying portion, prevents that the hydrops from leading to internal damage too much, and air circumstance worsens. Finally the utility model discloses the seizure subassembly that heating installation structure has, can breed because the mosquito that the damp and hot environment that the heating installation structure produced caused down, attract the mosquito and then catch through catching the subassembly, the mosquito after catching keeps in the subassembly casing, when the inside mosquito of casing is too much, the mosquito still has flight ability and can produce the noise that makes the people irritated, through spraying shell and fog dispersal cover, atomize the medicament, thereby make the mosquito lose the unable noise that produces of flight ability, and the medicament is because the vortex whirlwind of rotating part, can not overflow outside the casing, it belongs to clean air to have guaranteed that outside hot-air, can not cause the damage to the human body.

Drawings

The present application is further described below with reference to the drawings and examples.

FIG. 1 is a schematic perspective view of an electric fireplace according to an embodiment of the present invention.

FIG. 2 is a schematic view of the internal structure of an electric fireplace in an embodiment of the present invention.

FIG. 3 is the utility model discloses electric fireplace air-out circulation subassembly structure sketch map.

FIG. 4 is the utility model discloses electric fireplace air-out circulation subassembly inner structure sketch map.

FIG. 5 is a schematic structural view of an electric fireplace capturing component according to an embodiment of the present invention.

FIG. 6 is a schematic view of the internal structure of the electric fireplace catching component according to the embodiment of the present invention.

In the attached drawings

1. Air outlet 2, air guide port 3 and heating part

4. Air-out circulation subassembly 401, inner shell 402, accumulator

403. Diversion trench 404, drainage tube 405, cotton swab

406. Sealing ring 407, fixing knob 408, and connecting knob

409. Fan 4010, spraying part 4011, connecting pipe

4012. Diagonal flow part

5. Glass 6, flame display board 7, reflecting blade

8. Flame lamp strip 9, charcoal bed groove 10, charcoal bed lamp strip

11. Capture assembly 1101, upper cover 1102, housing

1103. Rotating part 1104, flow collecting cover 1105 and mist dispersing cover

1106. Drainage groove 12 and atomization part

Detailed Description

In order to make the objects and technical solutions of the present invention clear and fully described, and the advantages thereof more clearly understood, the embodiments of the present invention are described in further detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some, but not all, embodiments of the present invention and are not to be considered as limiting, and that all other embodiments can be made by one of ordinary skill in the art without any inventive work.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "side", "vertical", "horizontal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "a," "an," "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art that the embodiments may be practiced without these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

as shown in fig. 1 and 4, this embodiment discloses a heating structure, the main casing, the inside accommodation space that has of main casing, the inside air-out circulation subassembly 4 that has in the main casing, the inside air-out circulation subassembly 4 that includes: the power assembly is arranged on two sides of the air outlet circulation assembly 4 and used for controlling starting of the air outlet circulation assembly 4, the power assembly is provided with a main shaft, the main shaft is driven by the power assembly to move, and the main shaft is connected with a fan 409 of the air outlet circulation assembly 4, so that the fan 409 is controlled to be used. Air-out circulation subassembly 4 has inner shell 401, inner shell 401 is in relative position with power component, left and right sides fixedly connected with power component at inner shell 401, accommodation space has in the inner shell 401, inner shell 401 is the cavity setting, it can reduce the material to set inner shell 401 to cavity, alleviate integrated device's weight simultaneously, conveniently get and put, the accommodation space that inner shell 401 had also can be used for providing the air current flow space, carry out the direction guide of fixing through the flow space when fan 409 is rotatory to produce the air current, let the air current can remove according to the inner shell 401 structure that sets up, the accommodation space that inner shell 401 has still has the function that holds the entity. The inner shell 401 is further provided with a heating part 3 which is arranged inside the inner shell 401, the heating part 3 and the fan 409 are arranged in tandem, the fan 409 is arranged behind the heating part 3, the airflow can be used to the maximum extent through the heating part 3 when the fan 409 rotates, waste of heat resources is avoided, the heating part 3 can be used for generating heat, the heat generated by the heating part 3 is dissipated into the accommodating space, and the heating part 3 and the power assembly are in relative positions. Still be provided with oblique flow portion 4012 at inner shell 401, oblique flow portion 4012 is used for guiding the air current flow direction in the accommodation space, oblique flow portion 4012 is in relative position with the portion 3 that generates heat, through fan 409, the portion 3 that generates heat, the combination of oblique flow portion 4012 forms a complete heating installation transport structure, this kind of structure is comparatively simple, oblique flow portion 4012 has air outlet 1 simultaneously, can be used for the air current outflow in the accommodation space through air outlet 1, air outlet 1 is located the portion 3 one side that generates heat, air outlet 1 is an organic whole structure with oblique flow portion 4012, can carry out the use of longer time, air outlet 1 can drive the outflow through the air current in the accommodation space with the heat that the portion 3 that generates heat.

As shown in fig. 1, 3 and 4, an atomizing unit 12 is further connected and disposed outside the inner casing 401, the atomizing unit 12 is used for generating mist to prevent air drying caused in a long-time warming process, humidifying air, and reducing discomfort of a human body, and the atomizing unit 12 includes: the storage 402, the storage 402 has the accommodation space, and the accommodation space is used for providing the deposit to liquid, and the storage 402 is inside to be hollow casting simultaneously, and the storage 402 is fixed through the inside mounting of main casing and is prevented in the use, and the emergence is dropped and is caused structural damage. The reservoir 402 is provided with a cotton swab 405 inside the reservoir 402, the cotton swab 405 is used for contacting the liquid in the containing space, the cotton swab 405 absorbs the liquid, and the cotton swab 405 is in a cylinder shape.

Spray portion 4010, spray portion 4010 sets up in the air outlet 1 below of oblique flow portion 4012, and is connected with air outlet 1 mutually in the laminating, and spray portion 4010 is used for releasing the fog that atomizing portion 12 produced, and spray portion 4010 is located air-out circulation subassembly 4 one side, and the fog that spray portion 4010 spun is perpendicular blowout, and the fog that spouts through spray portion 4010 can converge with the rotatory air current that produces of fan 409, then blows out through oblique flow portion 4012 below to the slant.

A connection pipe 4011 is further connected between the atomizing unit 4010 and the storage 402, the atomizing unit 4010 is connected to one end of the connection pipe 4011, the storage 402 is connected to the other end of the connection pipe 4011, and the storage 402 is located below the air outlet circulation module 4. A fixing knob 407 is further disposed above the opening of the reservoir 402, the fixing knob 407 is connected to the reservoir 402, and an accommodating space is formed at one end of the fixing knob 407 for accommodating the reservoir 402 for fixing. A connection knob 408 is provided above the fixed knob 407, the connection knob 408 is fixedly connected to the fixed knob 407, the other end of the connection pipe 4011 is connected above the connection knob 408, one end of the connection knob 408 has an accommodation space, and the storage device 402 and the spray unit 4010 can be hermetically connected through the connection pipe 4011, the connection knob 408, and the fixed knob 407, thereby reducing the leakage of mist when mist is sprayed. Still be provided with the atomizing board in the top of accumulator 402, the atomizing board is used for atomizing the liquid of cotton swab 405 conduction, and the atomizing board sets up in cotton swab 405 top, and the atomizing board produces the atomizing granule through the vibration, then carries the atomizing granule in connecting pipe 4011, then carries spraying portion 4010 through connecting pipe 4011 and carries out the spraying and discharge moisture. The fixing knob 407 is further provided with a sealing ring 406, the sealing ring 406 is disposed between the reservoir 402 and the fixing knob 407 to prevent the reservoir 402 from leaking and provide a sealing function, and the sealing ring 406 is disposed in the accommodating space of the reservoir 402.

The atomizing part 4010 is located under the air outlet 1, the atomizing part 4010 is used for humidifying heat generated by the heating part 3, the atomizing part 4010 is installed at the air outlet 1 of the inclined flow part 4012, therefore, the air outlet 1 is suitable for discharging hot air and fresh air with humidity, the air outlet 1 and the inclined flow part 4012 form an air guide port 2 for guiding generated air flow to the inclined flow 4012, so that the air flow can contact the inclined flow part 4012 to move obliquely downwards, the fog outlet wind direction of the atomizing part 4010 is blown out vertically, so that the humidified and atomized air and the air of the air outlet 1 are discharged together to obtain fresh and clean warm air, the periphery of the atomizing part 4010 is provided with a diversion groove 403, the diversion groove 403 is used for guiding out liquid residue generated by the inclined flow part 4012, one end of the diversion groove 403 is more than the atomizing part 4010, the diversion groove 403 is integrated with the atomizing part 4010, the diversion groove is provided with a containing space, after the atomizing part 4010 discharges moisture for a long time, the water mist is accumulated inside, and the excessive water mist is accumulated to form flowing water, and the flowing water flows down along the outer wall surface of the spraying part 4010, when flowing down, the diversion trench 403 can recover and concentrate the flowing water, the flowing water is led out through the diversion trench 403 to prevent accumulation in the interior, the accommodating space of the diversion trench 403 can also be used for diversion of residual liquid, so that the pollution of the residual liquid to the air environment in the interior can be reduced, not only the spraying part 4010 can form the residual liquid to form flowing water, but also the inclined flow part 4012 can blow hot air out in the guiding direction, because the airflow generated by the fan 409 moves in the horizontal direction, and meanwhile, the airflow passes through the heating part 3 to form airflow with heat, and finally, the hot airflow is guided in the oblique downward direction by the oblique flow plate passing through the oblique flow part 4012, so that the hot airflow cannot be directly blown out horizontally, and discomfort caused by direct contact of the hot airflow with the body by people who are not suitable for the crowd is easily caused. After long-time work, a piece of flow water formed by gathering fog can be formed on the surface of the inclined flow plate more or less, the flow blocking surface arranged at the end of the air outlet 1 of the inclined flow plate can recover and concentrate the formed flow water to prevent the flow water from dropping on the outside of a heating structure along with the wall surface of the inclined flow plate to influence the appearance, so that a user needs to clean the generated flow water and increase the unnecessary labor amount. A draft tube 404 is arranged above the diversion trench 403, the outlet end of the draft tube 404 is aligned with the diversion trench 403, and the outlet end of the draft tube 404 is above the diversion trench 403. Liquid is stored in the storage device 402, the liquid is absorbed by the cotton swab 405 and then atomized by the atomization plate above the cotton swab 405, after atomization, the atomized liquid is moved to the atomization part 4010 through the connecting pipe 4011 by the atomization part 4010 and is sprayed out in the vertical direction, and the sprayed mist and the air flow generated by the fan 409 are converged into an integral air flow, so that air dryness can not be felt during heating, and the comfort is improved. Can be when heating at the heating installation structure through the combination of spraying portion 4010 and atomizing part 12, air humidity crosses low back excessively, carries out the humidification to the air through spraying portion 4010 and prevents that the air is too dry, causes the uncomfortable crowd, breathes difficultly, and is uncomfortable. Meanwhile, the diversion trench 403 on the periphery of the spraying part 4010 can accumulate atomized liquid sprayed by the spraying part 4010 to form liquid which can drip inside the heating structure, the heating structure is damaged, and the atomized liquid can drip outside the heating structure, so that unnecessary cleaning labor is increased for a user. Guiding gutter 403 can retrieve the liquid that forms through spraying portion 4010's outer wall, prevents to drip to cause environmental pollution to the device outside, and is not pleasing to the eye, and the accommodation space that spraying portion 4010 caused forms liquid simultaneously, can draw forth through drainage tube 404, and drainage is concentrated to guiding gutter 403 and is retrieved, prevents that the liquid that forms from dripping at will, influences device life, causes the outside and is not pleasing to the eye.

As shown in fig. 5 and 6, a trap module 11 is further installed inside the heating structure, and the trap module 11 includes: the inside accommodation space that is provided with of casing 1102, casing 1102 is inside to be used for depositing catching thing, and the inside cavity that is of casing 1102 is provided with upper cover 1101 in the top of casing 1102, has the hole in the inside of upper cover 1101, and upper cover 1101 fixes and seals casing 1102 above casing 1102 and prevents behind the mosquito entering fly-out, and the inside of upper cover 1101 is the cavity. The rotating portion 1103 is further provided inside the housing 1102, the rotating portion 1103 attracts the captured objects into the housing 1102 by rotating, the rotating portion 1103 and the inner hole of the upper cover 1101 are coaxial, and the upper cover 1101 hole concentrically provided when the rotating portion 1103 rotates can better attract the captured objects into the housing 1102 to improve the capturing effect and prevent the mosquitoes from escaping.

A flow gathering cover 1104 is further arranged in the shell 1102, the flow gathering cover 1104 is fixed with the connecting edge of the inner wall of the shell 1102, the flow gathering cover 1104 is positioned below the rotating part 1103, the flow gathering cover 1104 is funnel-shaped, the wide edge of the flow gathering cover 1104 faces upwards and corresponds to the rotating part 1103, the flow gathering cover 1104 and the rotating part 1103 are arranged concentrically, when the vortex generated by the rotating part 1103 and the flow gathering cover 1104 are in the same axis, the effect of gathering caught objects by the flow gathering cover 1104 is better, after mosquitoes are sucked into the upper cover 1101 through the vortex of the rotating part 1103, the mosquitoes further enter the flow gathering cover 1104 along with the downward vortex, the funnel-shaped of the flow gathering cover 1104 can gather the sucked mosquitoes, finally the mosquitoes are conveyed into the shell 1102, after the mosquitoes enter the shell 1102 in the shape of the funnel-shaped cover 1104, the mosquitoes cannot fly out from the small opening end of the flow gathering cover 1104, and under the vortex airflow of the 1103, the mosquitoes cannot fly upwards, further ensuring that the mosquitoes can not fly out of the inner shell 401, and achieving high-efficiency capturing efficiency. Still be provided with in casing 1102 bottom and spray the shell, spray the shell and have the sprinkler head, the sprinkler head can carry out spraying of medicament, sprays the medicament through the sprinkler head and enables the mosquito and lose flight ability, prevents to fly out casing 1102, sprays the shell inner wall and has the screw thread and pass through the screw thread fastening in casing 1102 bottom, prevents to become flexible, sprays the bottom of shell and leaves accommodation space with casing 1102 bottom, forms through spraying the bottom backup pad of shell, and accommodation space can store liquid. The housing 1102 is also provided with a mist dispersing cover 1105, the mist dispersing cover 1105 is engaged with the screw thread of the inner wall of the spraying housing, and the mist dispersing cover 1105 is positioned below the flow collecting cover 1104. The spray head is wrapped by the mist dispersing cover 1105, and the outer periphery of the mist dispersing cover 1105 is provided with mist dispersing openings which are arranged from big to small. The fog dispersing cover 1105 and the flow gathering cover 1104 are funnel-shaped, the top end of the cone of the fog dispersing cover 1105 is opposite to the top end of the cone of the flow gathering cover 1104, six spraying heads are arranged, and the fog dispersing cover 1105 can prevent mosquitoes from falling on the spraying heads to block the spraying heads when the spraying heads spray medicament, so that the service life is prolonged. The periphery of the housing 1102 is provided with a drainage groove 1106, the drainage groove 1106 is used for draining liquid residue generated by the inclined flow portion 4012, and an accommodating space is formed inside the drainage groove 1106. The drainage slots 1106 are integrally formed with the housing 1102. The water inlet of the flow guide groove 1106 is connected with the flow guide groove 403, the flow guide groove 403 concentrates all flowing water generated by the spraying part 4010 and the inclined flow part 4012 together, then the water outlet of the flow guide groove 403 is connected with the water inlet of the flow guide groove 1106, the generated water is recycled, the resource waste is reduced, the water in the flow guide groove 1106 enters the accommodating space formed by the spraying shell and the bottom of the shell 1102, and the medicament placed in the accommodating space is mixed with the water to form the final medicament which is sprayed by the spraying head. A solenoid valve is provided on the exterior of the housing 1102 for controlling the flow of water in the drainage slots 1106.

When the heating structure gets warm, the mist spraying part 4010 and the heating part 3 can create a damp and hot environment, which is very beneficial to mosquitoes, so the mosquitoes are caught by the catching assembly 11, when the mosquito is used at night, the mosquitoes become more due to damp and hot air, at this time, the mosquitoes are attracted to the attraction lamp through the attraction lamp of the catching assembly 11, meanwhile, the rotating part 1103 below the attraction lamp rotates in a vortex mode, the mosquitoes above the attraction lamp are attracted into the shell 1102 through vortex cyclone, the mosquitoes enter the shell 1102 through the flow gathering cover 1104, and the mosquitoes cannot fly out after entering the shell 1102 through the funnel of the flow gathering cover 1104. However, when the mosquitoes adsorb too much, the mosquitoes in the housing 1102 can generate sound inside because of having flight ability, the sounds can be amplified by the excessive mosquitoes, at the moment, the spraying shell at the bottom of the housing 1102 can spray liquid atomized medicament, the medicament is diffused to the periphery inside the housing 1102 through the mist dispersing cover 1105, the mosquitoes in the housing 1102 can lose flight ability after contacting the atomized medicament, meanwhile, the mosquitoes die after a long time contact, the sprayed medicament can not overflow the inside of the housing 1102 because of the inward vortex of the rotating part 1103, the external hot air is guaranteed to be clean air, and the damage to the human body can not be caused.

As shown in fig. 3, 4 and 5, a fan 409 is connected to a main shaft of the power assembly, the fan 409 is used for generating air flow, the fan 409 is located inside the inner shell 401, the fan 409 and the power assembly are jointly disposed at one end of the inner shell 401, and a heat generating portion 3 is disposed at one side of the fan 409. The air current that fan 409 produced blows to the portion 3 that generates heat horizontally, and the air current forms the hot gas flow after contacting the portion 3 that generates heat, and the hot gas flow continues to move to the horizontal direction, carries out downward movement to the slant behind the oblique flow board that contacts inclined flow portion 4012, and the moisture that sprays portion 4010 and hot gas flow in the downward movement process of inclining merges and forms the hot gas flow that has humidity, then discharges through air outlet 1. The air current that produces through fan 409 flows along with the oblique below of slope angle because the inclination that oblique flow portion 4012 has after contacting oblique flow portion 4012, and the air current that at this moment flows can not the direct contact human body, can move down, and the heat because the air current has can make hot-air slowly upwards simultaneously, makes people feel the heating installation naturally, can not direct contact human body again, causes human discomfort. And the heat flow blown out obliquely downwards can not cause the dust stored on the ground to fly too much due to the airflow, so that the air quality can be kept clean in a closed space, and the physical damage and sensory discomfort of people can be reduced. The inclined flow plate is arranged in an inclined angle, the inclined flow plate and the inner shell 401 form an inclined angle, the inclined flow plate is used for guiding air flow in the accommodating space, a flow blocking surface is arranged at the extending position of one end of the inclined flow plate, and the flow blocking surface and the inclined flow plate form an inclined angle. The junction of the flow blocking surface and the oblique flow plate forming an oblique angle is provided with a through hole, and an accommodating space is arranged in the through hole. The oblique flow plate is integrally formed with the inner shell 401, the oblique flow plate is arranged at one end of the inner shell 401, a drainage tube 404 is arranged on one side of the inner shell 401, the drainage tube 404 corresponds to the through hole, meanwhile, the drainage tube 404 and the through hole are in the same axis, the interior of the drainage tube 404 is hollow, and when water exists in the through hole, the water in the through hole is guided out through the drainage tube 404 and flows into the diversion trench 403. The oblique flow board that oblique flow portion 4012 set up can use spraying portion 4010 humidification at the device when, long-time humidification back, fog can remain and form the atomized liquid in oblique flow portion 4012 oblique angle department, thereby flow downwards along with the oblique angle, if there is not the device to block the recovery, the atomized liquid can be because gravity and inclined plane drip outside heating structure, form the spot, user's unnecessary amount of labour has been increased, and the oblique angle that forms through keeping off the flow face and oblique flow board can concentrate recovery with remaining atomized liquid, it makes remaining atomized liquid to flow to open the through-hole that has through keeping off the flow face and oblique flow board junction that forms the oblique angle after the recovery, prevent to form long-pending in inside, cause heating structure to damage.

As shown in fig. 2, a glass 5 is further installed in the heating structure, the glass 5 is located inside the heating structure, the glass 5 is vertically placed inside the heating structure, a flame display panel 6 is installed behind the glass 5, a certain distance exists between the flame display panel 6 and the glass 5, the flame display panel 6 is used for displaying simulated flame combustion, a reflector 7 is installed behind the flame display panel 6, a flame light bar 8 is fixedly arranged inside a main casing below the flame display panel 6, a carbon bed groove 9 is further arranged inside the main casing, a carbon bed light bar 10 is arranged on the carbon bed groove 9 on the right side of the flame light bar 8, a real simulated flame effect is achieved through the carbon bed light bar 10 and the flame light bar 8, hot air blown out from the upper side through a fan 409 just falls into a simulated flame area, the simulated flame effect is more real, and the air outlet 1 can be hidden inside the casing through the structure, meanwhile, the air outlet 1 corresponds to the flame display area, and the real flame effect can be infinitely approached. When in use, the novel electric heating stove does not have soot, smell and noise generated during flame combustion, can save the heating cost, has ornamental value, and is safer and more convenient.

Finally, a heating method of the heating structure is provided, which comprises the following steps:

the unit is arranged at a position to be installed, and the air outlet 1 is aligned to the direction needing heating during installation;

after the installation is finished, a unit switch is started, and the air outlet circulation component 4 is started;

the heating part 3 in the air outlet circulation component 4 generates heat, and simultaneously the heat is blown out by the rotation of the internal fan 409;

in the process of blowing out the hot air, the hot air flows horizontally, and when reaching the inclined flow plate of the inclined flow part 4012, the hot air is guided obliquely downward along with the angle of the inclined flow plate, so that the wind direction moves obliquely downward.

After the hot air is blown out, the humidity in the space is reduced by long-time dry hot air, when the humidity in the external space is too low, the mist humidification is carried out by the mist humidification part 4010, and the hot air flow at the moment can be mixed with the mist vertically sprayed out by the mist humidification part 4010 when passing through the air outlet 1, so that the blown air flow is hot and humid air flow.

Specifically, the atomizing unit 4010 atomizes the moisture conducted by the cotton bud 405 through the atomizing plate when performing the atomizing humidification, and then the atomizing unit 4010 blows out the atomized moisture in the vertical direction to humidify the hot air flow, and after the humidification, the air containing humidity is blown out obliquely downward through the oblique flow plate of the oblique flow unit 4012. During the humidification process, water formed by the internal mist automatically drops along with the oblique angle of the inclined flow part 4012, meanwhile, the mist water remaining on the spraying part 4010 flows into the diversion trench 403, and the water of the inclined flow part 4012 is introduced into the diversion trench 403 through the drainage tube 404 along with the internal through hole, so as to be recycled and concentrated.

Specifically, the heating method further comprises the following steps: when mosquitoes need to be caught, the catching assembly 11 is started to attract and catch the mosquitoes.

Specifically, when the catching assembly 11 is started, the attraction lamp irradiates to attract mosquitoes, the mosquitoes are gathered around the attraction lamp due to irradiation of the attraction lamp, when the mosquitoes pass through the upper part of the attraction lamp, the rotating part 1103 in the catching assembly 11 continuously rotates, so that the mosquitoes are attracted and drawn into the shell 1102 by the generated vortex cyclone, the mosquitoes are intensively caught by the flow gathering cover 1104 in the drawing process, when the mosquitoes pass through the flow gathering cover 1104, the mosquitoes are temporarily stored in the shell 1102, the mosquitoes can be prevented from escaping from the flow gathering cover 1104 due to the large upper part and the small lower part, and meanwhile, the mosquitoes can be prevented from flying upwards through the downward vortex cyclone airflow of the rotating part 1103.

Specifically, in order to improve ornamental effect during the daytime, inside flame lamp strip 8 of heating installation structure, charcoal bed lamp strip 10 are opened, form the simulation flame effect, and air outlet 1 is directly over flame simultaneously, and the hot-blast fire that blows off makes the flame effect infinitely close the authenticity in flame simulation region just, makes the simulation effect truer through above-mentioned setting, improves the usability.

Although the illustrative embodiments of the present application have been described above to enable those skilled in the art to understand the present application, the present application is not limited to the scope of the embodiments, and various modifications within the spirit and scope of the present application defined and determined by the appended claims will be apparent to those skilled in the art from this disclosure.

Claims (20)

1. A heating structure, comprising:

air-out circulation subassembly, air-out circulation subassembly includes:

a power assembly having a main shaft, the power assembly driving the main shaft to rotate;

the inner shell is opposite to the power assembly, an accommodating space is formed in the inner shell and used for providing an airflow flowing space, and the accommodating space also has the function of accommodating an entity;

the heating part is positioned in the inner shell and used for generating heat, the heat generated by the heating part is dissipated into the accommodating space, and the heating part and the power assembly are positioned at opposite positions;

the oblique flow part is used for guiding the flow direction of the airflow in the accommodating space, the oblique flow part and the heating part are in opposite positions, the oblique flow part is provided with an air outlet, the air outlet is used for the airflow in the accommodating space to flow out, and the air outlet is positioned on one side of the heating part and is used for driving the heat generated by the heating part to flow out through the airflow in the accommodating space.

2. A heating structure according to claim 1, wherein the heating structure comprises:

an atomizing part for generating mist, the atomizing part comprising:

a reservoir having a receiving space for providing storage of a liquid, the reservoir being hollow inside;

a swab positioned within the reservoir, the swab contacting the liquid within the containment space, the swab absorbing the liquid, the swab being a cylinder;

the atomizing part is used for releasing the fog generated by the atomizing part, the atomizing part is positioned on one side of the air outlet circulating assembly, and the fog sprayed by the atomizing part is vertically sprayed out.

3. A heating structure according to claim 1, wherein the heating structure comprises:

a capture component, the capture component comprising:

the device comprises a shell, a first fixing device and a second fixing device, wherein the shell is provided with an accommodating space used for storing a captured object, and the interior of the shell is hollow;

the upper cover is positioned above the shell, a hole is formed in the upper cover, the upper cover is used for being fixed above the shell for sealing, and the interior of the upper cover is hollow;

the rotating part, the rotating part is located inside the casing, the rotating part will through rotating the catch object attracts into in the casing, the rotating part with the inside hole of upper cover is same axle center.

4. A heating structure according to claim 1, wherein the air-out circulation module further comprises:

the fan, the fan with power component connects, the fan is used for producing the air current, the fan is located inside the inner shell, the fan is located inner shell one end the one end of fan is provided with the portion that generates heat.

5. A heating structure according to claim 1, wherein the diagonal flow portion comprises:

the oblique flow plate is arranged in an oblique angle mode, the oblique flow plate and the inner shell form an oblique angle, the oblique flow plate is used for guiding air flow in the accommodating space, a flow blocking surface is arranged at the extending position of one end of the oblique flow plate, and the flow blocking surface and the oblique flow plate form an oblique angle.

6. A heating structure according to claim 5, wherein a through hole is formed at a joint of the flow blocking surface and the oblique flow plate, and the through hole has an accommodating space therein.

7. A heating structure according to claim 6, wherein the diagonal flow plate is integrally formed with the inner casing, the diagonal flow plate being provided at one end of the inner casing, and a drainage tube being provided at one side of the inner casing;

the drainage tube corresponds to the through hole, the drainage tube and the through hole are in the same axis, and the inside of the drainage tube is hollow.

8. The heating structure according to claim 4, wherein the fan generates an air flow that passes through the heat generating portion, and the air flow guides the fan to move obliquely downward while contacting the oblique flow portion in a rotational direction.

9. A heating structure according to claim 1, wherein the heating portion is one of a heating wire, a heating sheet, an electrothermal tube, an electrothermal plate, or an electrothermal ring.

10. A heating structure according to claim 2, wherein the atomizing part further comprises:

one end of the connecting pipe is connected with the spraying part, the other end of the connecting pipe is connected with the storage, and the storage is positioned below the air outlet circulation assembly;

the fixing knob is connected with the storage device, and one end of the fixing knob is provided with an accommodating space for matching with the storage device to fix;

the connecting knob is fixedly connected with the fixing knob, the other end of the connecting pipe is connected above the connecting knob, and an accommodating space is formed in one end of the connecting knob.

11. A heating structure according to claim 10, wherein the atomizing part further comprises:

the atomization plate is used for atomizing liquid conducted by the cotton swab and is arranged above the cotton swab;

the sealing ring is arranged between the storage and the fixing knob, and the sealing ring is arranged in the accommodating space of the storage.

12. A heating structure according to claim 2, wherein the mist spray unit is located below the air outlet, the mist spray unit is configured to humidify air by heat generated by the heat generating unit, and the mist spray unit has a flow guide groove on an outer periphery thereof;

the guiding gutter is used for guiding out the liquid residue generated by the oblique flow part, one end of the guiding gutter is more than that of the spraying part, the guiding gutter is provided with an accommodating space used for guiding the residual liquid, a drainage tube is arranged above the guiding gutter, the outlet end of the drainage tube is aligned to the guiding gutter, and the outlet end of the drainage tube is arranged above the guiding gutter.

13. A heating structure according to claim 3, wherein the trap component further comprises:

the flow collecting cover is arranged in the shell, the connecting edge of the flow collecting cover and the inner wall of the shell is fixed, the flow collecting cover is positioned below the rotating part, a vortex generated by the rotating part and the flow collecting cover are in the same axis, and the flow collecting cover is used for collecting the captured objects;

the spraying shell is arranged at the bottom of the shell and provided with a spraying head, the spraying head sprays liquid, and the inner wall of the spraying shell is provided with threads;

the mist dispersing cover is arranged inside the shell and meshed with the threads on the inner wall of the spraying shell, and the mist dispersing cover is positioned below the flow collecting cover.

14. A heating structure according to claim 13, wherein the spray head is wrapped by the mist-dispersing cover, and the mist-dispersing cover has mist-dispersing openings on the periphery thereof, and the mist-dispersing openings are arranged from large to small.

15. A heating structure according to claim 13, wherein the mist diffusing cover and the flow collecting cover are conical, and a conical tip of the mist diffusing cover is opposite to a conical tip of the flow collecting cover.

16. A heating construction according to claim 13 wherein six spray heads are provided.

17. A heating structure according to claim 13, wherein the casing is provided at its outer periphery with a drainage groove for draining liquid residue generated by the diagonal flow portion, and the drainage groove has an accommodating space therein.

18. A heating arrangement according to claim 13, wherein the liquid is a medicament.

19. A heating arrangement according to claim 17, wherein the drainage channel is integral with the housing.

20. A heating structure according to claim 19, wherein the casing has a solenoid valve on the outside thereof for controlling the flow of water inside the drainage groove.

Images