US20260126213A1
HEATING STRUCTURE, SWITCHABLE HEATING/COOLING AIR BLOWER, AND METHOD FOR SWITCHING BETWEEN HEATING MODE AND COOLING MODE
Publication
Application
Classifications
IPC Classifications
CPC Classifications
Applicants
SHENZHEN HESUNG INNOVATION TECHNOLOGY CO., LTD
Inventors
WEIWEN LIU, XIANGLU DAI, YUNHE ZHANG
Abstract
A heating structure, a switchable heating/cooling air blower, and a method for switching between a heating mode and a cooling mode are provided. The heating structure includes a switching motor, a heating assembly, a connecting base, and a swing blade. A rotating component is disposed at one end of the heating assembly and is connected to the switching motor. The connecting base defines a guide groove. The swing blade includes a first connecting shaft and a second connecting shaft, the first connecting shaft is hinged to the rotating portion, and the second connecting shaft is inserted into the guide groove. The heating assembly is driven to rotate by the switching motor, so that the heating assembly is capable of swinging by a certain angle to enter or exit an air outlet, so as to switch the switchable heating/cooling air blower between the heating mode and the cooling mode.
Figures
Description
TECHNICAL FIELD
[0001]The present disclosure relates to a technical field of air blowers, and in particular to a heating structure, a switchable heating/cooling air blower, and a method for switching between a heating mode and a cooling mode.
BACKGROUND
[0002]Currently, household air blowers available on the market feature dual heating and cooling modes. However, when the household air blowers operate in cooling mode during summer, airflow volume and speed are significantly reduced as internal heating components physically obstruct air outlets, which leads to inadequate cooling performance. The household air blowers currently available on the market fail to meet year-round user demands. Thereupon, Chinese patent having a publication number of CN216244675U (hereinafter referred to as Document 1) disclosed a heating assembly and a heating/cooling air blower using the same, in which a rotating bracket is rotated to drive a heating body to physically obstruct an air outlet or disengage from the air outlet, when the heating body physically obstructs the air outlet, the heating/cooling air blower is in a heating mode, and when the heating body is disengaged from the air outlet, the heating/cooling air blower is in a cooling mode, in this way, when the heating/cooling air blower is in the cooling mode, the heating body does not physically obstruct the air outlet, thereby improving cooling performance of the heating/cooling air blower.
[0003]However, solutions disclosed in the Document 1 have following defects. An air passage guide plate needs to switch between swing and reset to respectively adapt to the cooling mode and the heating mode of the heating/cooling air blower (as described in paragraph [0036] of the Document 1), and the air passage guide plate replies on a reset torsion spring to switch between swing and reset. However, the reset torsion spring may gradually become fatigued and finally losing elasticity during frequency use, which weakens reset performance of the air passage guide plate and causes that the air passage guide plate fails to effectively align with an inner wall of the air outlet or remain in a designated position thereof. As a result, airflow performance of the heating/cooling air blower is affected. Moreover, the heating/cooling air blower is high in mounting difficulty and manufacturing costs, easy to be damaged, and poor in maintainability.
SUMMARY
[0004]An objective pf the present disclosure is to provide a heating structure, a switchable heating/cooling air blower, and a method for switching between a heating mode and a cooling mode to address defects in the prior art, with an aim of resolving adverse effects caused by a reset torsion spring.
[0005]The present disclosure provides following technical solutions to achieve above objective, specifically, the present disclosure a heating structure.
[0006]The heating structure includes a switching motor, a heating assembly, a connecting base, and a swing blade. A rotating component is disposed at one end of the heating assembly and is connected to the switching motor. The connecting base defines a guide groove. The swing blade includes a first connecting shaft and a second connecting shaft, the first connecting shaft is hinged to the rotating portion, and the second connecting shaft is inserted into the guide groove. The guide groove is an arc-shaped rail guide groove having a first limiting point and a second limiting point for limiting the second connecting shaft, the heating structure satisfies a relationship (1) as follows:
[0007]In the relationship (1), a represents a distance between the first connecting shaft and the second connecting shaft, c represents a distance between the first connecting shaft and a rotating shaft of the heating assembly, b1 represents a first distance between the second connecting shaft and the rotating shaft of the heating assembly when the second connecting shaft is located at the first limiting point, a represents a first included angle between the a and the c when the second connecting shaft is located at the first limiting point, b2 represents a second distance between the second connecting shaft and the rotating shaft of the heating assembly when the second connecting shaft is located at the second limiting point, and β represents a second included angle between the a and the c when the second connecting shaft is located at the second limiting point.
[0008]Furthermore, the rotating portion includes a first shaft connecting end and a second shaft connecting end, the first shaft connecting end is connected to a rotating shaft of the switching motor, and the second shaft connecting end is hinged to the first connecting shaft. Specifically, switching of two states of the swing blade is achieved without providing the reset torsion spring, which is stable in switching effect and not easy to damage, mounting difficulty and cost are low, maintenance is easy, and an adverse effect caused by the reset torsion spring in the prior art is effectively solved.
[0009]Furthermore, the swing blade further includes at least one limiting portion, the at least one limiting portion is configured to limit the swing blade to rotate to a predetermined angle. Specifically, the swing blade is rotated to the predetermined angle in a cooling mode of the heating structure, so as to prevent the swing blade from rotating at an excessive angle to affect an air guide effect of cold air output. In this way, the switching of the two states of the swing blade is achieved without providing the reset torsion spring, which is stable in switching effect is stable and not easy to damage, the mounting difficulty and cost are low, the maintenance is easy, and the adverse effect caused by the reset torsion spring in the prior art is effectively solved.
[0010]Furthermore, the heating assembly includes a rotating bracket and a heating body, the heating body is disposed on the rotating bracket, and the rotating portion is disposed at one end of the rotating bracket.
[0011]Furthermore, the at least one limiting portion is disposed on the first connecting shaft, the rotating bracket includes at least one abutting portion abutting against the at least one limiting portion. Specifically, the at least one limiting portion abuts against the at least one abutting portion on the rotating bracket, so as to limit a maximum angle or the predetermined angle of the swing blade and achieve an optimal air guide effect of the swing blade at an air outlet. Furthermore, the switching of the two states of the swing blade is achieved without providing the reset torsion spring, which is stable in switching effect and not easy to damage, the mounting difficulty and cost are low, the maintenance is easy, and the adverse effect caused by the reset torsion spring in the prior art is effectively solved.
[0012]Furthermore, the guide groove is an oblong slot. When the heating assembly swings or rotates, the second connecting shaft of the swing blade moves along the guide groove of the connecting base, and when the second connecting shaft moves to either end of two ends of the guide groove, if the heating assembly continues to move, the swing blade rotates with respect to the heating assembly by taking the first connecting shaft as a rotating shaft thereof, in this way, the swing blade is capable of switching between swing and reset, so as to respectively adapt to two working modes of heating and cooling. Furthermore, the switching of the two states of the swing blade is achieved without providing the reset torsion spring, which is stable in switching effect and not easy to damage, the mounting difficulty and cost are low, the maintenance is easy, and the adverse effect caused by the reset torsion spring in the prior art is effectively solved.
[0013]Furthermore, the connecting base defines a motor accommodating cavity, the switching motor is disposed in the motor accommodating cavity.
[0014]Furthermore, a cable arrangement plate is disposed at a bottom portion of the heating assembly, and the cable arrangement plate defines at least one cable management groove.
[0015]As another technical solution of the present disclosure, a switchable heating/cooling air blower is provided, including a housing body, a blower wheel, a blower motor, and the heating structure as foregoing. The housing body defines the air outlet. The blower wheel is disposed in the housing body. The blower motor is configured to drive the blower wheel to rotate. The heating structure is disposed on the housing body, and the switching motor is configured to drive the heating assembly to enter or exit the air outlet.
[0016]Furthermore, the air outlet includes a short guide wall and a long guide wall respectively at two external sides thereof, the housing body further includes an accommodating portion located adjacent to one side of the short guide wall, the switching motor is configured to drive the heating assembly to move between the air outlet and the accommodating portion.
[0017]Furthermore, the swing blade is disposed at one side of the heating assembly close to the long guide wall, the swing blade has an abutting surface and a guide surface.
[0018]The present disclosure further provides a method for switching between a heating mode and a cooling mode, including following steps.
[0019]Switching step: driving the rotating portion of the heating assembly to rotate by the switching motor to drive the heating assembly to enter or exit the air outlet of the switchable heating/cooling air blower.
[0020]Swing blade adjusting step: when the heating assembly rotates, rotating the swing blade around the first connecting shaft and with respect to the rotating portion, and moving the second connecting shaft along the arc-shaped rail guide groove having the first limiting point and the second limiting point to switch the swing blade between the two states.
[0021]Heating mode step: when the heating assembly enters the air outlet, driving the blower wheel to rotate by the blower motor to generate airflow, passing the airflow through the heating assembly to blow out warm air, abutting the swing blade against the long guide wall of the air outlet to avoid air leakage.
[0022]Cooling mode step: when the heating assembly exits the air outlet and enters the accommodating portion, moving the swing blade along the arc-shaped rail guide groove by the second connecting shaft and rotating the swing blade to the predetermined angle to form a cooling air guide port with the long guide wall to enable cold air generated by the blower wheel to be directed farther and with greater force.
[0023]Limiting step: using the relationship (1) to make an activity track of the second connecting shaft accurate, so as to avoid jamming and abnormal sound of the heating assembly during a switching process.
[0024]The relationship (1):
[0025]In the relationship (1), the a represents the distance between the first connecting shaft and the second connecting shaft, the c represents the distance between the first connecting shaft and the rotating shaft of the heating assembly, the b1 represents the first distance between the second connecting shaft and the rotating shaft of the heating assembly when the second connecting shaft is located at the first limiting point, the a represents the first included angle between the a and the c when the second connecting shaft is located at the first limiting point, the b2 represents the second distance between the second connecting shaft and the rotating shaft of the heating assembly when the second connecting shaft is located at the second limiting point, and the β represents the second included angle between the a and the c when the second connecting shaft is located at the second limiting point.
[0026]Beneficial effects of the present disclosure are as follows.
[0027]According to the present disclosure, the heating assembly is driven to rotate by the switching motor, so that the heating assembly is capable of swinging by a certain angle to enter or exit the air outlet, so as to switch the switchable heating/cooling air blower between the heating mode and the cooling mode, and a situation that airflow performance of the cold air is affected due to a fact that the heating assembly physically obstructs the air outlet is avoided. When the heating assembly swings or rotates, the second connecting shaft of the swing blade moves along the guide groove of the connecting base, and when the second connecting shaft moves to either end of the two ends of the guide groove, if the heating assembly continues to move, the swing blade rotates with respect to the heating assembly by taking the first connecting shaft as the rotating shaft thereof, in this way, the swing blade is capable of switching between swing and reset, so as to respectively adapt to the two working modes of heating and cooling. Furthermore, the switching of the two states of the swing blade is achieved without providing the reset torsion spring, which is stable in switching effect and not easy to damage, the mounting difficulty and cost are low, the maintenance is easy, and the adverse effect caused by the reset torsion spring in the prior art is effectively solved.
[0028]In the heating mode, the heating assembly enters and seals the air outlet, so that air generated by the blower wheel passes through the heating assembly to blow out the warm air, and in order to prevent air leakage at the air outlet without passing through the heating assembly, which could affect warm air guiding performance, two sides of the swing blade need to abut against the long guide wall of the air outlet and a side wall of the heating assembly, so as to avoid cold air leakage due to gaps generated at the two sides of the swing blade, and at this time, the second connecting shaft is located at a first end of the guide groove.
[0029]In the cooling mode, the heating assembly rotates away from the air outlet until the heating assembly enters the accommodating portion of the housing body, in this process, the second connecting shaft of the swing blade moves from the first end of the guide groove to a second end of the guide groove, and the heating assembly continues to rotate, since the second connecting shaft is limited by the second end of the guide groove, the swing blade takes the first connecting shaft as the rotating shaft thereof to rotate, the swing blade and the heating assembly rotate with respect to each other until the at least one limiting portion of the swing blade abuts against the at least one abutting portion of the heating assembly, so that the swing blade forms the air guide port with the long guide wall of the air outlet, and when the heating assembly does not block cold air, the cold air is blown farther and with greater force, in this way, a cooling effect is further improved, and meanwhile, an overall structure of the switchable heating/cooling air blower is more compact, and an occupied space of the switchable heating/cooling air blower is saved.
[0030]In addition, when the switching motor drives the heating assembly to rotate around the rotating shaft of the heating assembly until the second connecting shaft moves from the first limiting point to the second limiting point or moves from the second limiting point to the first limiting point, due to a fact that, throughout the activity track of the second connecting shaft, circular arc tracks respectively formed by the first connecting shaft and the second connecting shaft are not completely overlapped or central points of the circular arc tracks are no longer at the same point, there is a limit point on the activity track of the second connecting shaft, and the jamming and the abnormal sound may appear at the limit point. In order to solve this problem, in the embodiments, the guide groove is the arc-shaped rail guide groove, and the activity track or a central position of the second connecting shaft are limited and guided by applying a geometric limitation as shown in the relationship (1), so as to effectively avoid problems of the jamming and the abnormal sound when the heating assembly is active.
BRIEF DESCRIPTION OF DRAWINGS
[0031]
[0032]
[0033]
[0034]
[0035]
[0036]
[0037]
[0038]
[0039]
[0040]
[0041]
[0042]
[0043]Reference numerals in the drawings: 1. switching motor; 2. heating assembly; 20. rotating shaft of the heating assembly; 21. rotating bracket; 22. heating body; 23. cable arrangement plate; 211. rotating portion; 212. abutting portion; 2111. first shaft connecting end; 2112. second connecting end; 231. cable arrangement groove; 3. connecting base; 31. guide groove; 32. motor accommodating cavity; 4. swing blade; 41. first connecting shaft; 42. second connecting shaft; 43. limiting portion; 44. abutting surface; 45. guide surface; 42a. first limiting point; 42b. second limiting point; 5. housing body; 51. air outlet; 52. accommodating portion; 511. short guide wall; 512. long guide wall; 6. blower wheel; 7. blower motor.
DETAILED DESCRIPTION OF EMBODIMENTS
[0044]Technical solutions in embodiments of the present disclosure are clearly and completely described below with reference to accompanying drawings in the embodiments of the present disclosure, and obviously, the described embodiments are only a part but not all of the embodiments of the present disclosure. All other embodiments obtained by those who skilled in the art based on the embodiments of the present disclosure without creative efforts shall fall within a protection scope of the present disclosure. It should be understood that the drawings are only provided with reference and description, and are not intended to limit the present disclosure. Connection relationships shown in the accompanying drawings are merely for ease of clear description, and does not limit a connection manner.
[0045]In the description of the present disclosure, it should be noted that orientation or position relationships indicated by terms “center”, “upper”, “lower”, “left”, “right”, “vertical”, “horizontal”, “inner”, “outer”, etc. are based on orientation or position relationships shown in the accompanying drawings, rather than indicating or implying that a device or element referred to must have a specific orientation or is constructed and operated in a specific orientation, and therefore cannot be understood as a limitation to the present disclosure. Terms “first”, “second”, and “third” are used for descriptive purposes only and cannot be understood as indicating or implying relative importance. In addition, unless expressly specified and limited otherwise, terms “disposed”, “connected with” and “connected to” should be understood in a broad sense, for example, may be a fixed connection, a detachable connection, or an integral connection; may be a mechanical connection, or may be an electrical connection; and may be direct connection, or may be indirect connection with an intermediate medium, and may be a communication inside two elements. For those who skilled in the art, specific meanings of above terms in the present disclosure may be understood according to specific situations. Terms used in the specification of the present disclosure are merely for a purpose of describing specific embodiments, and are not intended to limit the present disclosure.
[0046]As shown in
[0047]Specifically, as shown in
[0048]In the relationship (1), a represents a distance between the first connecting shaft 41 and the second connecting shaft 42, c represents a distance between the first connecting shaft 41 and a rotating shaft 20 of the heating assembly 2, b1 represents a first distance between the second connecting shaft 42 and the rotating shaft 20 of the heating assembly 2 when the second connecting shaft 42 is located at the first limiting point 42a, α represents a first included angle between the a and the c when the second connecting shaft 42 is located at the first limiting point 42a, b2 represents a second distance between the second connecting shaft 42 and the rotating shaft 20 of the heating assembly 2 when the second connecting shaft 42 is located at the second limiting point 42b, and β represents a second included angle between the a and the c when the second connecting shaft 42 is located at the second limiting point 42b.
[0049]According to the present disclosure, the heating assembly 2 is driven to rotate by the switching motor 1, so that the heating assembly 2 is capable of swinging by a certain angle to enter or exit the air outlet 51, so as to switch a switchable heating/cooling air blower between a heating mode and a cooling mode, and a situation that an airflow performance of the cold air is affected due to a fact that the heating assembly 2 physically obstructs the air outlet 51 is avoided. When the heating assembly 2 swings or rotates, the second connecting shaft 42 of the swing blade 4 moves along the guide groove 31 of the connecting base 3, and when the second connecting shaft 42 moves to either end of two ends of the guide groove 31, if the heating assembly 2 continues to move, the swing blade 4 rotates with respect to the heating assembly 2 by taking the first connecting shaft 41 as a rotating shaft thereof, in this way, the swing blade 4 is capable of switching between swing and reset, so as to respectively adapt to two working modes of heating and cooling. Furthermore, switching of two states of the swing blade 4 is achieved without providing a reset torsion spring, which is stable in switching effect and not easy to damage, mounting difficulty and cost are low, the maintenance is easy, and an adverse effect caused by the reset torsion spring in the prior art is effectively solved.
[0050]In the heating mode, the heating assembly 2 enters and seals the air outlet 51, so that air generated by a blower wheel 6 passes through the heating assembly 2 to blow out warm air, and in order to prevent air leakage at the air outlet 51 without passing through the heating assembly 2, which could affect warm air guiding performance, two sides of the swing blade 4 need to abut against the long guide wall 512 of the air outlet 51 and a side wall of the heating assembly 2, so as to avoid cold air leakage due to gaps generated at the two sides of the swing blade 4, and at this time, the second connecting shaft 42 is located at a first end of the guide groove 31.
[0051]In the cooling mode, the heating assembly 2 rotates away from the air outlet 51 until the heating assembly 2 enters the accommodating portion 52 of the housing body 5, in this process, the second connecting shaft 42 of the swing blade 4 moves from the first end of the guide groove 31 to a second end of the guide groove 31, and the heating assembly 2 continues to rotate, since the second connecting shaft 42 is limited by the second end of the guide groove 31, the swing blade 4 takes the first connecting shaft 41 as the rotating shaft thereof to rotate, the swing blade 4 and the heating assembly 2 rotate with respect to each other until the at least one limiting portion 43 of the swing blade 4 abuts against the at least one abutting portion 212 of the heating assembly 2, so that the swing blade 4 forms the air guide port with the long guide wall 512 of the air outlet 51, and when the heating assembly 2 does not block cold air, the cold air is blown farther and with greater force, in this way, a cooling effect is further improved, and meanwhile, an overall structure of the switchable heating/cooling air blower is more compact, and an occupied space of the switchable heating/cooling air blower is saved.
[0052]In addition, when the switching motor 1 drives the heating assembly 2 to rotate around the rotating shaft 20 of the heating assembly 2 until the second connecting shaft 42 moves from the first limiting point 42a to the second limiting point 42b or moves from the second limiting point 42b to the first limiting point 42a, due to a fact that, throughout an activity track of the second connecting shaft 42, circular arc tracks respectively formed by the first connecting shaft 41 and the second connecting shaft 42 are not completely overlapped or central points of the circular arc tracks are no longer at the same point, there is a limit point on the activity track of the second connecting shaft 42, and the jamming and the abnormal sound may appear at the limit point. In order to solve this problem, in the embodiments, the guide groove 31 is the arc-shaped rail guide groove 31, and the activity track or a central position of the second connecting shaft 42 are limited and guided by applying a geometric limitation as shown in the relationship (1), so as to effectively avoid problems of the jamming and the abnormal sound when the heating assembly 2 is active.
[0053]In one embodiment, as shown in
[0054]In another embodiment, as shown in
[0055]In another embodiment, as shown in
[0056]Furthermore, the at least one limiting portion 43 is disposed on the first connecting shaft 41, the rotating bracket 21 includes at least one abutting portion 212 abutting against the at least one limiting portion 43. Specifically, the at least one limiting portion 43 abuts against the at least one abutting portion 212 on the rotating bracket 21, so as to limit a maximum angle or the predetermined angle of the swing blade 4 and achieve an optimal air guide effect of the swing blade 4 at the air outlet 51. Furthermore, the switching of the two states of the swing blade 4 is achieved without providing the reset torsion spring, which is stable in switching effect and not easy to damage, the mounting difficulty and cost are low, the maintenance is easy, and the adverse effect caused by the reset torsion spring in the prior art is effectively solved.
[0057]In another embodiment, as shown in
[0058]In another embodiment, as shown in
[0059]In another embodiment, as shown in
[0060]The present disclosure further provides the switchable heating/cooling air blower, as shown in
[0061]In another embodiment, as shown in
[0062]In another embodiment, as shown in
[0063]Specifically, since the heating structure needs to completely cover the air outlet 51 in the heating mode of the switchable heating/cooling air blower, in order to avoid affecting airflow performance of warm air due to the cold air leakage of the swing blade 4, the swing blade 4 needs to be abut against the long guide wall 512 and a side wall of the rotating bracket 21 in the heating mode of the switchable heating/cooling air blower. The solutions of the Document 1 as mentioned in the background adopt the reset torsion spring, after the reset torsion spring is used for a long time, the torsion spring may become fatigued and finally losing elasticity, and after the torsion spring is damaged, the swing blade 4 cannot effectively abut against the long guide wall 512 and the side wall of the rotating bracket 21 in the heating mode of the switchable heating/cooling air blower, and in the cooling mode of the switchable heating/cooling air blower, the swing blade 4 cannot swing and stay at the predetermined angle, resulting in that the swing blade 4 cannot form an optimal air guide port for the cold air with the long guide wall 512, which inevitably affect the airflow performance of the cold air, so that the cold air cannot be blown farther. However, technical solutions of the present disclosure well avoid adverse effects caused by damage of the reset torsion spring.
[0064]In the heating mode of the switchable heating/cooling air blower, the heating assembly 2 enters and physically obstructs the air outlet 51, and the two sides of the swing blade 4 respectively abut against the long guide wall 512 and the side wall of the rotating bracket 21 close to the long guide wall 512, so as to prevent the air outlet 51 from leaking and affecting the airflow performance of the warm air.
[0065]In the cooling mode of the switchable heating/cooling air blower, the heating assembly 2 exits the air outlet 51 and enters the accommodating portion 52 on the housing body 5, and in the process, the swing blade 4 rotates by a certain angle until the at least one limiting portion 43 of the swing blade 4 abuts against the at least one abutting portion 212 on the rotating bracket 21, at this time, one side of the swing blade 4 close to the long guide wall 512 becomes nearly aligned with the long guide wall 512, so that the swing blade 4 and the long guide wall 512 more effectively function as air guides at the air outlet 51, the cold air is blown farther, and optimal airflow performance of the cold air is achieved. Specifically, in the cooling mode of the switchable heating/cooling air blower, one side of the abutting surface 44 of the swing blade 4 is disposed closely adjacent to or abut against the short guide wall 511, the guide surface 45 of the swing blade 4 is nearly aligned with the long guide wall 512, in this way, the swing blade 4 and the long guide wall 512 more effectively function as the air guides at the air outlet 51.
[0066]The present disclosure further provides a method for switching between the heating mode and the cooling mode, including following steps.
[0067]Switching step: driving the rotating portion 211 of the heating assembly 2 to rotate by the switching motor 1 to drive the heating assembly 2 to enter or exit the air outlet 51 of the switchable heating/cooling air blower.
[0068]Swing blade 4 adjusting step: when the heating assembly 2 rotates, rotating the swing blade 4 around the first connecting shaft 41 and with respect to the rotating portion 211, and moving the second connecting shaft 42 along the arc-shaped rail guide groove 31 having the first limiting point 42a and the second limiting point 42b to switch the swing blade 4 between the two states.
[0069]Heating mode step: when the heating assembly 2 enters the air outlet 51, driving the blower wheel 6 to rotate by the blower motor 7 to generate airflow, passing the airflow through the heating assembly 2 to blow out the warm air, abutting the swing blade 4 against the long guide wall 512 of the air outlet 51 to avoid air leakage.
[0070]Cooling mode step: when the heating assembly 2 exits the air outlet 51 and enters the accommodating portion 52, moving the swing blade 4 along the arc-shaped rail guide groove 31 by the second connecting shaft 42 and rotating the swing blade 4 to the predetermined angle to form a cooling air guide port with the long guide wall 512 to enable cold air generated by the blower wheel 6 to be directed farther and with greater force.
[0071]Limiting step: using the relationship (1) to make the activity track of the second connecting shaft 42 accurate, so as to avoid the jamming and the abnormal sound of the heating assembly 2 during a switching process.
[0072]The relationship (1):
[0073]In the relationship (1), the a represents the distance between the first connecting shaft 41 and the second connecting shaft 42, the c represents the distance between the first connecting shaft 41 and the rotating shaft 20 of the heating assembly 2, the b1 represents the first distance between the second connecting shaft 42 and the rotating shaft 20 of the heating assembly 2 when the second connecting shaft 42 is located at the first limiting point 42a, the a represents the first included angle between the a and the c when the second connecting shaft 42 is located at the first limiting point 42a, the b2 represents the second distance between the second connecting shaft 42 and the rotating shaft 20 of the heating assembly 2 when the second connecting shaft 42 is located at the second limiting point 42b, and the β represents the second included angle between the a and the c when the second connecting shaft 42 is located at the second limiting point 42b.
[0074]In the specification and claims of the present disclosure, words “include/comprise” and “have/with” and variations thereof are used to specify presence of stated features, values, steps or components, but do not exclude presence or addition of one or more other features, values, steps, components, or a combination thereof.
[0075]Some features of the present disclosure are set forth in different embodiments for clarity of illustration, however, these features may also be described in connection with a single embodiment. Rather, some features of the present disclosure, for brevity, are only described in a single embodiment, however, these features may also be described separately or in any suitable combination in different embodiments.
[0076]Finally, it should be noted that, the foregoing are only preferred embodiments of the present disclosure and are not intended to limit the present disclosure. Although the present disclosure has been described in detail with reference to the foregoing embodiments, for those who skilled in the art, the technical solutions described in the foregoing embodiments may still be modified, or some of the technical features may be equivalently replaced, and any modification, equivalent replacement, improvement, etc. made within a spirit and principle of the present disclosure shall fall within the protection scope of the present disclosure.
Claims
What is claimed is:
1. A heating structure, comprising:
a switching motor;
a heating assembly;
a connecting base; and
a swing blade;
wherein a rotating component is disposed at one end of the heating assembly and is connected to the switching motor;
wherein the connecting base defines a guide groove;
wherein the swing blade comprises a first connecting shaft and a second connecting shaft, the first connecting shaft is hinged to the rotating portion, and the second connecting shaft is inserted into the guide groove;
wherein the guide groove is an arc-shaped rail guide groove having a first limiting point and a second limiting point for limiting the second connecting shaft, the heating structure satisfies a relationship (1) as follows:
wherein in the relationship (1), a represents a distance between the first connecting shaft and the second connecting shaft, c represents a distance between the first connecting shaft and a rotating shaft of the heating assembly, b1 represents a first distance between the second connecting shaft and the rotating shaft of the heating assembly when the second connecting shaft is located at the first limiting point, a represents a first included angle between the a and the c when the second connecting shaft is located at the first limiting point, b2 represents a second distance between the second connecting shaft and the rotating shaft of the heating assembly when the second connecting shaft is located at the second limiting point, and β represents a second included angle between the a and the c when the second connecting shaft is located at the second limiting point;
wherein the rotating portion comprises a first shaft connecting end and a second shaft connecting end, the first shaft connecting end is connected to a rotating shaft of the switching motor, and the second shaft connecting end is hinged to the first connecting shaft;
wherein the swing blade further comprises at least one limiting portion, the at least one limiting portion is configured to limit the swing blade to rotate to a predetermined angle;
wherein the heating assembly comprises a rotating bracket and a heating body, the heating body is disposed on the rotating bracket, and the rotating portion is disposed at one end of the rotating bracket;
wherein the at least one limiting portion is disposed on the first connecting shaft, the rotating bracket comprises at least one abutting portion abutting against the at least one limiting portion;
wherein the guide groove is an oblong slot;
wherein the connecting base defines a motor accommodating cavity, the switching motor is disposed in the motor accommodating cavity.
2. The heating structure according to
3. A switchable heating/cooling air blower, comprising:
a housing body;
a blower wheel;
a blower motor; and
the heating structure according to
wherein the housing body defines an air outlet;
wherein the blower wheel is disposed in the housing body;
wherein the blower motor is configured to drive the blower wheel to rotate;
wherein the heating structure is disposed on the housing body, and the switching motor is configured to drive the heating assembly to enter or exit the air outlet.
4. The switchable heating/cooling air blower according to
5. The switchable heating/cooling air blower according to
6. A method for switching between a heating mode and a cooling mode, applied to the switchable heating/cooling air blower according to
driving the rotating portion of the heating assembly to rotate by the switching motor to drive the heating assembly to enter or exit the air outlet of the switchable heating/cooling air blower;
when the heating assembly rotates, rotating the swing blade around the first connecting shaft and with respect to the rotating portion, and moving the second connecting shaft along the arc-shaped rail guide groove having the first limiting point and the second limiting point to switch the swing blade between two states;
when the heating assembly enters the air outlet, driving the blower wheel to rotate by the blower motor to generate airflow, passing the airflow through the heating assembly to blow out warm air, abutting the swing blade against the long guide wall of the air outlet; and
when the heating assembly exits the air outlet and enters the accommodating portion, moving the swing blade along the arc-shaped rail guide groove by the second connecting shaft and rotating the swing blade to the predetermined angle to form a cooling air guide port with the long guide wall.