CN220705989U - Dual-purpose tower fan - Google Patents

Abstract

The application relates to a dual-purpose tower fan, which comprises a main body, wherein the main body comprises a shell, a heating component and a blowing component, a heating groove and a blowing groove are formed in one side of the shell, and the opening directions of the heating groove and the blowing groove are the same; the heating component is arranged in the heating groove; the blowing component is arranged in the blowing groove. Compared with two independent heaters and fans, the volume occupied by two articles is reduced, storage is not needed according to season switching, and convenience of users is improved. The heating tank and the blowing tank are all arranged independently, the heating component and the blowing component are not interfered with each other, the blowing effect of the blowing component is not affected, when the heating component is opened in winter, a user can open the blowing component, the blowing component rotates at a lower speed, the air blown by the blowing component can diffuse the heat of the heating component, local high temperature is avoided, and the heating effect of a room can be improved.

Description

Dual-purpose tower fan

Technical Field

The application relates to the field of tower fans, in particular to a dual-purpose tower fan.

Background

Because the purchase and use costs of fans are relatively low with respect to air conditioners, most people still choose fans as summer items. The types of fans are very many, and one type of fans is a tower fan. However, in winter, the warmer is also frequently used, so that a user needs to store the unused tower fan or warmer when the seasons are switched, the occupied area is large, the use ratio of the two electric appliances is not high, and the user needs to store and take out the electric appliances for use according to the seasons, so that the electric appliance is inconvenient for the user to use.

In order to solve the technical problems, a cooling and heating tower fan is currently provided, and comprises a machine body, wherein air inlets are arranged at the left side and the right side of the machine body, and an air outlet is arranged at the front end of the machine body; a wind wheel is arranged in the machine body, the wind wheel is of a hollow cylindrical structure, a plurality of blades are uniformly distributed on the circumferential surface, and two end surfaces of the wind wheel are opposite to the air inlet; the wind wheel is provided with a wind cover outside, the lower part of the wind cover is wrapped outside the circumference of the wind wheel, and the upper end of the wind cover extends to an air outlet of the machine body; the opening at the upper end of the fan cover is provided with a heating body, and the heating body is opposite to the air outlet of the machine body. The cooling and heating tower fan integrates the functions of cooling and heating, and can be used all the year round. However, when the cooling and heating tower fan plays a heating function, the wind wheel and the heating body are required to be started to work at the same time, so that the temperature of air is increased after passing through the heating body, and hot air is blown out through the air outlet, thereby realizing the heating function; and when this wind wheel blows the wind alone, the air-out effect of fan can be influenced to the exothermic that the fan housing upper end opening part set up.

Disclosure of Invention

An object of the present application is to provide a dual-purpose tower fan, the heating effect and the air-out effect of this dual-purpose tower fan do not influence each other.

To this end, in a first aspect, embodiments of the present application provide a dual-purpose tower fan, including a main body, the main body including: one side of the shell is provided with a heating groove and a blowing groove, and the opening direction of the heating groove is the same as that of the blowing groove; the heating component is arranged in the heating groove; and the air blowing assembly is arranged in the air blowing groove.

In one possible implementation, the heat generating component includes: the reflecting piece is connected with the inner wall of the heating groove and covers the inner wall of the heating groove; and the heating tube is positioned in the inner cavity of the heating groove and extends along the height direction of the shell.

In one possible implementation, the heat generating component further includes an isolation net, and the heat generating component is disposed at a notch of the heat generating tank.

In one possible implementation, the blower assembly includes: the air drum is positioned in the air blowing groove; and the output end of the driving piece is connected with the wind drum and is used for driving the wind drum to blow.

In one possible implementation manner, the air blowing assembly further comprises an air guiding piece located at a notch of the air blowing groove, the air guiding piece is rotationally connected with the shell, and the air guiding piece extends along the height direction of the shell.

In one possible implementation, the notch of the blowing slot is located at a side of the housing away from the heating slot.

In one possible implementation manner, the device further comprises a supporting seat connected with the main body, wherein the supporting seat is provided with a button assembly, and the button assembly is electrically connected with the heating assembly and the blowing assembly.

In one possible implementation, the support base includes: the button assembly is arranged on the base; the rotating assembly is connected with the shell and comprises a first rotating shaft, and the first rotating shaft is parallel to the base; and one end of the supporting rod is detachably connected with the base, the other end of the supporting rod is rotatably connected with the shell through a first rotating shaft, and the shell rotates around the first rotating shaft.

In one possible implementation, the rotation assembly includes a second rotation axis perpendicular to the first rotation axis and parallel to the base, and the housing rotates in a vertical plane about the second rotation axis.

In one possible implementation, the first rotation shaft is a damping member and the second rotation shaft is a damping member.

According to the dual-purpose tower fan provided by the embodiment of the application, the dual-purpose tower fan comprises a main body, wherein the main body comprises a shell, a heating component and a blowing component, a heating groove and a blowing groove are formed in one side of the shell, and the opening directions of the heating groove and the blowing groove are the same; the heating component is arranged in the heating groove; the blowing component is arranged in the blowing groove. Compared with two independent heaters and fans, the volume occupied by two articles is reduced, storage is not needed according to season switching, and convenience of users is improved. The heating tank and the blowing tank are all set up alone, and heating element and the subassembly of blowing mutually noninterfere can not influence the effect of blowing of subassembly, and the opening direction of heating tank and blowing tank is the same, and the heating surface of this application is the same with the face of blowing promptly, also need not adjust the orientation of main part when changing in season, further improves user's convenience. When the heating component is started in winter, the user can start the blowing component, so that the blowing component rotates at a lower speed, the air blown by the blowing component can diffuse the heat at the heating component, local high temperature is avoided, the heating effect of a room can be improved, meanwhile, the air can be driven to flow, the drying at the heating component is reduced, and the use effect of the user is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the utility model and together with the description, serve to explain the principles of the utility model.

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to a person skilled in the art that other drawings can be obtained from these drawings without inventive effort.

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures of the drawings are not to be taken in a limiting sense, unless otherwise indicated.

Fig. 1 shows a schematic structural diagram of a dual-purpose tower fan according to an embodiment of the present application;

FIG. 2 shows a partial exploded view of a dual-purpose tower fan provided in an embodiment of the present application;

fig. 3 shows a cross-sectional view of a dual-purpose tower fan provided in an embodiment of the present application.

Reference numerals illustrate:

1. a main body; 11. a housing; 111. a heating tank; 112. a blowing groove; 12. a heating component; 121. a reflecting member; 122. a heating tube; 123. an isolation net; 13. a blowing assembly; 131. a wind drum; 132. an air guide member; 2. a support base; 21. a base; 211. a button assembly; 22. a rotating assembly; 221. a first rotation shaft; 222. a second rotation shaft; 23. and (5) supporting the rod.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present application based on the embodiments herein.

The following disclosure provides many different embodiments, or examples, for implementing different structures of the utility model. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the utility model. Furthermore, the present utility model may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

For ease of description, spatially relative terms, such as "inner," "outer," "lower," "upper," "above," "front," "rear," and the like, may be used herein to describe one element's or feature's relative positional relationship or movement to another element's or feature as illustrated in the figures. Such spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figure experiences a position flip or a change in attitude or a change in state of motion, then the indications of these directivities correspondingly change, for example: an element described as "under" or "beneath" another element or feature would then be oriented "over" or "above" the other element or feature. Thus, the example term "below … …" may include both upper and lower orientations. The device may be otherwise oriented (rotated 90 degrees or in other directions) and the spatial relative relationship descriptors used herein interpreted accordingly.

Fig. 1 shows a schematic structural diagram of a dual-purpose tower fan provided in an embodiment of the present application, and fig. 2 shows a partial explosion diagram of a dual-purpose tower fan provided in an embodiment of the present application.

As shown in fig. 1 to 2, the embodiment of the present application provides a dual-purpose tower fan, which comprises a main body 1, wherein the main body 1 comprises a housing 11, a heating component 12 and a blowing component 13, a heating groove 111 and a blowing groove 112 are arranged on one side of the housing 11, and the opening directions of the heating groove 111 and the blowing groove 112 are the same; the heat generating component 12 is disposed in the heat generating groove 111; the blower assembly 13 is disposed in the blower groove 112.

It should be understood that the main body 1 includes a housing 11, and the material of the housing 11 is not limited in this application, and the material of the housing 11 may be plastic for cost and weight. The housing 11 is provided with a heat generating groove 111 and a blowing groove 112, both the heat generating groove 111 and the blowing groove 112 are located on the same side of the housing 11, and the opening directions of the heat generating groove 111 and the blowing groove 112 are the same.

The heating component 12 is located in the heating tank 111, and in winter, the heating component 12 can be turned on to heat the user, the air blowing component 13 is located in the air blowing tank 112, and in summer, the air blowing component 13 can be turned on to cool the user.

Because this application has heating element 12 and blast air subassembly 13, for two solitary heaters and fan, reduced the volume that two articles for use occupy, and need not accomodate according to the switching of season, improved user's convenience. Since the heating grooves 111 and 112 of the heating component 12 and the blowing component 13 are separately provided, the heating component 12 and the blowing component 13 do not interfere with each other, and the blowing effect of the blowing component 13 is not affected.

Further, the opening directions of the heating groove 111 and the blowing groove 112 are the same, that is, the heating surface and the blowing surface of the present application are the same, and the direction of the main body 1 does not need to be adjusted during season replacement, so that the convenience of the user is further improved.

And when the heating component 12 is started in winter, the temperature is easy to gather around the heating component 12 and is not easy to diffuse, at this moment, the user can start the blowing component 13, so that the blowing component 13 rotates at a lower speed, the wind blown out by the blowing component 13 can diffuse the heat at the heating component 12, local high temperature is avoided, the heating effect of a room can be improved, meanwhile, the air can be driven to flow, the drying at the heating component 12 is reduced, and the use effect of the user is improved.

In some alternative embodiments, heat generating component 12 includes a reflector 121 and a heat generating tube 122, reflector 121 being connected to the inner wall of heat generating tank 111 and covering the inner wall of heat generating tank 111; the heating tube 122 is located in the inner cavity of the heating tank 111 and extends in the height direction of the housing 11.

The heating component 12 includes a reflecting member 121, the reflecting member 121 may be an aluminum powder reflecting film, the reflecting member 121 is located in the heating groove 111 and covers the inner wall of the heating groove 111, and when the heating component is installed, the reflecting member 121 and the inner wall of the heating groove 111 may be connected by bonding or other manners. The heating tube 122 is located in the inner cavity of the heating tank 111 provided with the reflecting member 121, and when in operation, the heating tube 122 heats up, thereby increasing the temperature. Further, the heating tube 122 extends along the height direction of the housing 11, and two ends of the heating tube 122 along the length direction are connected with the housing 11, so that the local high temperature of the heating slot 111 is avoided, the utilization rate of the heating slot 111 is improved, and the heating area is increased, so that the heating is more uniform.

When the heating device is used, the heating tube 122 is started to generate heat, and the reflecting piece 121 reflects heat transmitted to the inner wall of the heating groove 111 by the heating tube 122 to the opening of the heating groove 111, so that the efficiency of raising the fake temperature is improved, the waste of heat is reduced, meanwhile, the heat is prevented from being transmitted to other parts of the main body 1, the influence of the temperature of the heating tube 122 on other parts is avoided, and the service life of other parts is prolonged.

In some alternative embodiments, the heat generating component 12 further includes an isolation net 123, and the heat generating component 12 is disposed in the notch of the heat generating tank 111. The isolation net 123 adopts the high temperature resistant material of stereoplasm, for example materials such as stainless steel, and the setting of isolation net 123 does not stop heat to transfer out from the notch of heat generating tank 111, and the setting of isolation net 123 can avoid the user to touch heating tube 122 directly, improves the security that the user used.

In some alternative embodiments, the blower assembly 13 includes a blower drum 131 and a driver, the blower drum 131 being located in the blower slot 112; the output end of the driving member is connected with the wind drum 131 for driving the wind drum 131 to blow. The wind drum 131 and the driving member are both located in the wind blowing groove 112, and an outlet of the wind drum 131 is communicated with an outlet of the wind blowing groove 112, and when the wind blowing device is used, the driving member is started to enable the wind drum 131 to blow towards a notch of the wind blowing groove 112, so that wind is blown out from the notch of the wind blowing groove 112 to be used for cooling a user.

In some alternative embodiments, the blower assembly 13 further includes a wind guide 132 positioned at a notch of the blower slot 112, the wind guide 132 being rotatably connected to the housing 11, the wind guide 132 extending in a height direction of the housing 11.

The air guide 132 may include one air guide plate or a plurality of air guide plates, and the number of the air guide plates is not limited in the present application. The wind guide 132 extends along the height direction of the casing 11, and both ends of the wind guide 132 along the length direction are both rotationally connected with the casing 11, so that a user can adjust the trend of wind by rotating the wind guide 132, thereby facilitating the better experience of the user on the effect of blowing.

And in winter, when the heating tube 122 is opened, the user can deflect the air guide 132 towards the heating tube 122, so that the air in the air blowing groove 112 can blow towards the heating component 12, and the heat is brought to other places under the action of the air, thereby avoiding local high temperature, ensuring that the indoor temperature is more uniform and improving the use effect of the user.

In some alternative embodiments, the slot opening of the air blast slot 112 is located on the side of the housing 11 remote from the heat generating slot 111. Compared with the side of the notch of the air blowing groove 112, which is close to the heating groove 111, the notch of the air blowing groove 112 is positioned on the side of the shell 11, which is far away from the heating groove 111, so that the effect that the air of the air guide 132 blows to the heating pipe 122 is better, and the indoor heating effect is improved in winter.

Referring to fig. 1-3, fig. 3 shows a cross-sectional view of a dual-purpose tower fan provided in an embodiment of the present application. In some alternative embodiments, the air blower device further comprises a supporting seat 2 connected with the main body 1, wherein the supporting seat 2 is provided with a button assembly 211, and the button assembly 211 is electrically connected with the heating assembly 12 and the air blower assembly 13.

The support base 2 is connected with the main body 1 to provide a supporting force for the main body 1. The button assembly 211 includes a plurality of buttons, and a portion of the buttons are electrically connected to the heating assembly 12, so that the heating tube 122 can be turned on or off, and the temperature of the heating tube 122 can be adjusted. The other part of the buttons is electrically connected with the blowing component 13, so that the blowing drum 131 can be opened or closed, and the blowing strength of the blowing drum 131 can be adjusted.

In some alternative embodiments, the support base 2 includes a base 21, a rotating assembly 22, and a supporting rod 23, and the button assembly 211 is disposed on the base 21; the rotating assembly 22 is connected with the shell 11, and the rotating assembly 22 comprises a first rotating shaft 221, wherein the first rotating shaft 221 is parallel to the base 21; one end of the support rod 23 is detachably connected to the base 21, and the other end is rotatably connected to the housing 11 through a first rotation shaft 221, and the housing 11 rotates around the first rotation shaft 221.

The button assembly 211 is disposed on the base 21, and compared with other places, such as a side of the housing 11 away from the notch, the button assembly 211 is disposed on the base 21, which is more convenient for the user to adjust, and improves the convenience of the user. The rotating assembly 22 is connected with the shell 11, the rotating assembly 22 comprises a first rotating shaft 221 and a rotating shell, the rotating shell is fixedly connected or rotationally connected with the shell 11, the first rotating shaft 221 is connected with the rotating shell, and one end of the supporting rod 23, which is far away from the base 21, is rotationally connected with the first rotating shaft 221; or the first rotation shaft 221 is rotatably connected with the rotation housing, and one end of the support rod 23 away from the base 21 is connected with the first rotation shaft 221, that is, the support rod 23 is rotatably connected with the main body 1.

The end of the support bar 23 remote from the first rotation shaft 221 is detachably connected to the base 21, thereby facilitating assembly and transportation.

The first rotation axis 221 is parallel to the base 21, and when in use, a user can adjust the main body 1 according to needs, so that the main body 1 rotates around the first rotation axis 221, that is, the openings of the heating slot 111 and the blowing slot 112 can be located on a vertical plane, rotated to an inclined arrangement, or rotated to an upper plane. The first rotation shaft 221 is set, so that the user can adjust the heating direction and the blowing direction, and the experience effect of the user is improved.

In some alternative embodiments, the rotation assembly 22 includes a second rotation shaft 222, the second rotation shaft 222 being perpendicular to the first rotation shaft 221 and disposed parallel to the base 21, and the housing 11 rotates in a vertical plane about the second rotation shaft 222.

The rotating shell is rotationally connected with the shell 11, the second rotating shaft 222 is connected with the rotating shell, and the second rotating shaft 222 is rotationally connected with the shell 11; or the second rotation shaft 222 is connected to the housing 11, and the second rotation shaft 222 is rotatably connected to the rotation housing.

The second rotation axis 222 is located at the same horizontal plane as the first rotation axis 221, the second rotation axis 222 is perpendicular to the first rotation axis 221, and when the main body 1 moves around the second rotation axis 222, the openings of the heat generating slot 111 and the air blowing slot 112 are still located at the vertical plane and are unchanged in orientation, but the positions of the heat generating slot 111 and the air blowing slot 112 are changed. The second rotation axis 222 is set so that the user can adjust the position of heating and blowing, and the user experience effect is further improved.

The user can adjust first axis of rotation 221 and second axis of rotation 222 simultaneously, can realize the omnidirectional rotation of main part 1 for user's accommodation range is wider, further increases user's experience effect.

In some alternative embodiments, the first rotation shaft 221 is a damping member and the second rotation shaft 222 is a damping member. The first rotation shaft 221 and the second rotation shaft 222 are damping members, so that the main body 1 can be rotated to any angle to stop, thereby facilitating the use of the user and improving the use effect of the user.

It is to be understood that the terminology used herein is for the purpose of describing particular example embodiments only, and is not intended to be limiting. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. The terms "comprises," "comprising," "includes," "including," and "having" are inclusive and therefore specify the presence of stated features, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, steps, operations, elements, components, and/or groups thereof. The method steps, processes, and operations described herein are not to be construed as necessarily requiring their performance in the particular order described or illustrated, unless an order of performance is explicitly stated. It should also be appreciated that additional or alternative steps may be used.

Although the terms first, second, third, etc. may be used herein to describe various elements, components, regions, layers and/or sections, these elements, components, regions, layers and/or sections should not be limited by these terms. These terms may be only used to distinguish one element, component, region, layer or section from another region, layer or section. Terms such as "first," "second," and other numerical terms when used herein do not imply a sequence or order unless clearly indicated by the context. Thus, a first element, component, region, layer or section discussed below could be termed a second element, component, region, layer or section without departing from the teachings of the example embodiments.

The foregoing is only a specific embodiment of the utility model to enable those skilled in the art to understand or practice the utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A dual-purpose tower fan, characterized by comprising a main body, said main body comprising:

one side of the shell is provided with a heating groove and a blowing groove, and the opening direction of the heating groove is the same as that of the blowing groove;

the heating component is arranged in the heating groove; and

and the blowing component is arranged in the blowing groove.

2. The dual-purpose tower fan of claim 1, wherein the heat generating assembly comprises:

the reflecting piece is connected with the inner wall of the heating groove and covers the inner wall of the heating groove; and

the heating tube is positioned in the inner cavity of the heating groove and extends along the height direction of the shell.

3. The utility tower fan of claim 2, wherein the heat generating component further comprises an isolation net, the heat generating component being disposed in a notch of the heat generating trough.

4. The dual-purpose tower fan of claim 1, wherein the blower assembly comprises:

the air drum is positioned in the air blowing groove; and

the output end of the driving piece is connected with the wind drum and is used for driving the wind drum to blow.

5. The dual-purpose tower fan of claim 4, wherein the blower assembly further comprises a wind guide positioned at a slot opening of the blower slot, the wind guide being rotatably coupled to the housing, the wind guide extending along a height of the housing.

6. The dual-purpose tower fan according to claim 1, wherein the slot opening of the air blowing slot is positioned at a side of the housing away from the heat generating slot.

7. The dual-purpose tower fan according to claim 1, further comprising a support base coupled to the main body, the support base being provided with a button assembly electrically coupled to the heat generating assembly and the blower assembly.

8. The dual-purpose tower fan of claim 7, wherein the support base comprises:

the button assembly is arranged on the base;

the rotating assembly is connected with the shell and comprises a first rotating shaft, and the first rotating shaft is parallel to the base; and

one end of the supporting rod is detachably connected with the base, the other end of the supporting rod is rotatably connected with the shell through a first rotating shaft, and the shell rotates around the first rotating shaft.

9. The dual-purpose tower fan of claim 8, wherein the rotating assembly includes a second axis of rotation that is perpendicular to the first axis of rotation and parallel to the base, and the housing rotates in a vertical plane about the second axis of rotation.

10. The dual-purpose tower fan according to claim 9, wherein the first rotating shaft is a damping member and the second rotating shaft is a damping member.