阅读说明：本技术 吹风机 (Hair drier ) 是由 周鹏 山冈敏成 于 2020-03-18 设计创作，主要内容包括：本发明公开了一种吹风机,其包括：机壳；风扇；电机；调速组件包括：开关,用于控制电机的运转；控制件与启动件均能控制开关,启动件能够在关闭状态和启动状态之间运动,启动件能够运动到一个预设的极限位置,启动件处于关闭状态时,电机停止运转,启动件处于启动状态时,电机能够转动；控制件至少具有第一控制状态和第二控制状态,控制件处于第一控制状态时,电机以最大转速运转,控制件处于第二控制状态时,电机以低于最大转速的中间转速运转,控制件在触发第二控制状态的运动过程中能够带动启动件从关闭状态运动至启动状态,控制件从第二控制状态向第一控制状态切换的过程中,启动件不能越过极限位置。所述吹风机操作方便且安全。(The invention discloses a hair drier, which comprises: a housing; a fan; a motor; the speed governing subassembly includes: a switch for controlling the operation of the motor; the control piece and the starting piece can control the switch, the starting piece can move between a closed state and a starting state, the starting piece can move to a preset limit position, the motor stops running when the starting piece is in the closed state, and the motor can rotate when the starting piece is in the starting state; the control piece at least has a first control state and a second control state, when the control piece is in the first control state, the motor runs at the maximum rotating speed, when the control piece is in the second control state, the motor runs at the intermediate rotating speed lower than the maximum rotating speed, the control piece can drive the starting piece to move from the closing state to the starting state in the motion process of triggering the second control state, and when the control piece is switched from the second control state to the first control state, the starting piece cannot cross the limit position. The hair drier is convenient and safe to operate.)

1. A hair dryer, comprising:

a housing;

the fan is arranged in the shell;

a motor disposed in the housing and connected to the fan;

the speed governing subassembly is used for controlling motor speed, the speed governing subassembly includes:

the switch is coupled with the motor and used for controlling the operation of the motor;

the control piece is rotationally connected with the shell and used for controlling the switch; and

an actuator rotatably coupled to the housing for controlling the switch, the actuator being movable between an off condition and an on condition, the actuator being movable to a predetermined limit position in the on condition, the motor being stopped when the actuator is in the off condition, and the motor being rotatable when the actuator is in the on condition;

the control member comprises at least a first control state and a second control state, and when the control member is in the first control state, the motor can run at the maximum rotating speed; when the control member is in the second control state, the motor is operable at an intermediate rotational speed that is lower than a maximum rotational speed; the control part can drive the starting part to move from the closing state to the starting state in the process of moving into the second control state, and the starting part cannot cross the limit position in the process of switching the control part from the second control state to the first control state.

2. The hair dryer of claim 1, wherein:

the actuating member is at least partially arranged in the shell, the actuating member can rotate around a first rotation axis, and the actuating member can rotate relative to the control member;

when the starting piece rotates around the first rotating axis to trigger the switch, the starting piece enters the starting state from the closed state.

3. The hair dryer of claim 2, wherein:

the control piece is at least partially arranged in the machine shell, the control piece is in rotating connection with the machine shell by taking a second rotating axis as an axis, and when the control piece rotates around the second rotating axis to the first control state, the control piece can be in rotating contact with the switch.

4. The hair dryer of claim 3, wherein:

the starting piece can move to a limit position under the driving of the first control piece, and when the starting piece is located at the limit position, the rotating speed of the motor is lower than the maximum rotating speed;

the hair dryer further comprises a stop member for preventing the trigger member from passing beyond the limit position.

5. The hair dryer of claim 4, wherein:

the blower also comprises a handle part which is fixedly connected with the shell or integrally formed, and the handle part comprises a first shell and a second shell; a handle space is formed between the first housing and the second housing, the actuating member is mounted to the handle portion, and the actuating member is at least partially accommodated in the handle space;

the stop piece is arranged in the handle space and is fixedly connected with the handle part or integrally formed.

6. The hair dryer of claim 5, wherein:

the switch comprises a push rod which can be triggered;

the starting piece comprises a driving part matched with the push rod;

when the starting piece rotates around the first rotating axis to enable the starting piece to enter the starting state, the push rod can be driven by the driving portion to move in a first linear direction.

7. The hair dryer of claim 6, wherein:

the control piece comprises a first bulge;

the starting piece also comprises a sliding part;

when the control piece rotates around the second rotation axis to enable the control piece to enter the second control state, the first protruding portion can drive the sliding portion of the starting piece, and therefore the starting piece is driven to rotate.

8. The hair dryer of claim 7, wherein:

the control piece also comprises a second bulge;

the starting piece also comprises a contact part provided with a through hole;

wherein when the control member is rotated, the second boss portion can pass through the through hole, thereby continuing the movement of the push rod in the first linear direction.

9. The hair dryer of claim 8, wherein:

the control piece also comprises a third bulge which is fixedly connected with the control piece or integrally formed;

the speed regulating assembly comprises an elastic member arranged on the shell, the elastic member is used for applying a force to the control member to enable the control member to return to the second control member state from the first control state, and the elastic member is provided with at least one free end;

the shell is provided with a supporting part which is contacted with the free end;

when the control member is in the first control state, the free end is in contact with the third boss.

10. The hair dryer of claim 1, wherein:

the control member has a plurality of retainable speed regulating positions in the second control state, and each speed regulating position corresponds to the rotating speed of the motor with different sizes.

11. A hair dryer, comprising:

a housing;

the fan is arranged in the shell;

a motor disposed in the housing and connected to the fan;

the speed governing subassembly is used for controlling motor speed, the speed governing subassembly includes:

the switch is coupled with the motor and used for controlling the operation of the motor;

the starting piece is rotationally connected with the shell and used for controlling the switch; and

a control member rotatably coupled to said housing for controlling said switch, said control member being movable between an off condition and an on condition, said on condition of said control member being movable to a predetermined limit position, said motor being stopped when said control member is in said off condition, and said motor being rotatable when said control member is in said on condition;

the actuating member comprises at least a first control state and a second control state, and when the actuating member is in the first control state, the motor can run at the maximum rotating speed; when the actuator is in the second control state, the motor is capable of operating at an intermediate speed less than the maximum speed; the actuating member is capable of moving the control member from the closed state to the activated state during movement of the actuating member into the second control state, and the control member is incapable of crossing an extreme position during switching of the actuating member from the second control state to the first control state.

Technical Field

The invention relates to a garden tool, in particular to a blower.

Background

The blower is a common garden tool and can help a user to clean the broken branches, fallen leaves and dust in the garden. Generally, in order to adapt to different working conditions, a hair dryer is provided with operating parts such as speed regulation and acceleration (the motor runs at the maximum rotating speed) for operation of a user, and meanwhile, the hair dryer is also provided with a starting switch for starting the motor. The starting switch of current hair-dryer, speed governing piece and acceleration piece set up respectively, the user needs operate starting switch earlier, then drive speed governing piece or acceleration piece just can satisfy user's demand, the coherence that the above-mentioned operation is unfavorable for user operation, and so set up the operating procedure who increases the user, user operation is got up very inconveniently, and present hair-dryer when starting switch triggers carelessly, easily directly make the motor operate with the maximum rotation speed, the air output that leads to the hair-dryer reaches the biggest, very easily make blow up the stone, other people or article are hindered by mistake such as branch, cause the potential safety hazard.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide the hair drier which is convenient to operate and safe to use.

In order to achieve the above object, the present invention adopts the following technical solutions: a hair dryer, comprising: a housing; the fan is arranged in the shell; the motor is arranged in the shell and connected to the fan; the speed governing subassembly for control motor speed, the speed governing subassembly includes: the switch is coupled with the motor and used for controlling the operation of the motor; the control piece is rotationally connected with the shell and used for controlling the switch; the starting piece is rotationally connected with the shell and used for controlling the switch, the starting piece can move between a closed state and a starting state, the starting piece can move to a preset limit position in the starting state, the motor stops running when the starting piece is in the closed state, and the motor can rotate when the starting piece is in the starting state; the control piece at least comprises a first control state and a second control state, and when the control piece is in the first control state, the motor can run at the maximum rotating speed; when the control member is in the second control state, the motor can be operated at an intermediate rotation speed lower than the maximum rotation speed; the control piece can drive the starting piece to move from the closed state to the starting state in the moving process of entering the second control state, and when the control piece is switched from the second control state to the first control state, the starting piece cannot cross the limit position.

Optionally, the actuating member is at least partially disposed in the housing, the actuating member is rotatable about a first axis of rotation, and the actuating member is rotatable relative to the control member; when the starting piece rotates around the first rotating axis to the trigger switch, the starting piece enters the starting state from the closed state.

Optionally, the control member is at least partially disposed in the casing, and the control member forms a rotational connection capable of rotating around the second rotation axis as an axis with respect to the casing, and when the control member rotates around the second rotation axis to the first control state, the control member can rotate to abut against the switch.

Optionally, the starting member can be driven by the first control member to move to a limit position, and when the starting member is in the limit position, the rotating speed of the motor is lower than the maximum rotating speed;

the hair dryer further comprises a stop member for preventing the trigger member from exceeding an extreme position.

Optionally, the blower further comprises a handle part fixedly connected with the casing or integrally formed with the casing, wherein the handle part comprises a first shell and a second shell; a handle space is formed between the first shell and the second shell, the starting piece is mounted on the handle part, and the starting piece is at least partially accommodated in the handle space;

the stop piece is arranged in the handle space and is fixedly connected with the handle part or integrally formed.

Optionally, the switch comprises a push rod that can be triggered; the starting piece comprises a driving part matched with the push rod; when the starting piece rotates around the first rotating axis to enable the starting piece to enter the starting state, the push rod can be driven by the driving portion to move in the first linear direction.

Optionally, the control member comprises a first protrusion; the starting piece also comprises a sliding part; when the control piece rotates around the second rotation axis to enable the control piece to enter the second control state, the first protruding portion can drive the sliding portion of the starting piece, and therefore the starting piece is driven to rotate.

Optionally, the control member further comprises a second protrusion; the starting piece also comprises a contact part provided with a through hole;

when the control piece rotates, the second lug boss part can penetrate through the through hole, so that the push rod continues to move in the first linear direction.

Optionally, the control member further comprises a third protruding part fixedly connected with the control member or integrally formed with the control member;

the speed regulating assembly comprises an elastic member mounted on the casing, the elastic member is used for applying an acting force to the control member to enable the control member to return to the second control member state from the first control state, and the elastic member is provided with at least one free end;

the shell is provided with a supporting part which is contacted with the free end;

when the control member is in the first control state, the free end is in contact with the third boss.

Optionally, the control element has a plurality of adjustable positions in the second control state, each adjustable position corresponding to a different rotational speed of the electric machine.

A hair dryer, comprising: a housing; the fan is arranged in the shell; the motor is arranged in the shell and connected to the fan; the speed governing subassembly for control motor speed, the speed governing subassembly includes: the switch is coupled with the motor and used for controlling the operation of the motor; the starting piece is rotationally connected with the shell and used for controlling the switch; the control piece is rotationally connected with the shell and used for controlling the switch, the control piece can move between a closed state and an open state, the open state of the open piece can move to a preset limit position, when the control piece is in the closed state, the motor stops running, and when the control piece is in the open state, the motor can rotate; the starting piece at least comprises a first control state and a second control state, and when the starting piece is in the first control state, the motor can run at the maximum rotating speed; when the actuator is in the second control state, the motor is capable of operating at an intermediate speed less than the maximum speed; the starting piece can drive the control piece to move from the closed state to the starting state in the moving process of entering the second control state, and when the starting piece is switched from the second control state to the first control state, the control piece cannot cross the limit position.

The invention provides a blower convenient to use. The speed regulating assembly is arranged, so that the speed regulating assembly can control the running speed of the motor, control the air output of the blower and facilitate the operation of a user; and make the starting member in the speed governing subassembly set up to move between closed condition and extreme position only to prevent that the user from carelessly triggering the starting member and make the hair-dryer air output reach the biggest, lead to the stone, branch or other things that blow up, injure other people, article etc. by mistake, guarantee life safety and property safety.

Drawings

Figure 1 is a schematic plan view of a hair dryer according to a first embodiment of the present invention;

figure 2 is a schematic perspective view of the blower of figure 1;

FIG. 3 is a schematic partial structural view of the actuator of the blower of FIG. 1 in a closed position;

figure 4 is an enlarged view of a portion of the blower of figure 3;

figure 5 is a perspective view of a portion of the blower of figure 1;

FIG. 6 is a schematic view of a portion of the blower of FIG. 1 with the actuator in an actuated state;

figure 7 is an enlarged view of a portion of the blower of figure 6;

figure 8 is a schematic view of a portion of the blower of figure 1 showing the control member in a first control state;

figure 9 is an enlarged view of a portion of the blower of figure 8;

figure 10 is a plan view of a portion of the blower of figure 1;

figure 11 is a cross-sectional view of the blower of figure 10;

figure 12 is an enlarged view of a portion of the blower of figure 11;

figure 13 is a schematic, fragmentary, alternate view of the blower control member of figure 1 in a first control state;

figure 14 is an enlarged view of a portion of the blower of figure 13;

figure 15 is a schematic view of a portion of the blower of figure 1;

figure 16 is an exploded view of a governor assembly in the blower of figure 1;

FIG. 17 is a schematic view from another perspective of the exploded schematic view of the governor assembly shown in FIG. 16;

FIG. 18 is a perspective view of a control member in the governor assembly of FIG. 1.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Figure 1 shows a blower 100 according to an embodiment of the present invention. The blower 100 in this embodiment is embodied as a hand-held axial flow blower, it being understood that the blower 100 may be other types of blowers, such as a backpack blower.

Referring to fig. 1 to 4, a blower 100 includes a housing 10, an air duct 70 connected to one end of the housing 20, a hand 80 formed by or fixedly connected to the air duct 70, a fan 20 disposed in the housing, a motor 30 for driving the fan, a speed adjusting assembly 50 at least partially disposed in the handle 80, and an energy source 40 for supplying power to the motor. An accommodating space is formed in the housing 10; a fan 20 disposed in the accommodating space; an air duct 70 formed with an air duct through which air flows, and the air duct 70 is connected to the cabinet 10; and the motor 30 is arranged in the accommodating space, the motor 30 is connected to the fan 20, and the fan 20 can be driven to rotate, so that air flow is generated and finally blown out from the air duct 70, and the air duct is used for blowing leaves, garbage and the like on the ground or on an eave. In this embodiment, the motor 30 is capable of rotating around the first axis 104, the motor 30 includes a motor shaft 31, the motor shaft 31 is connected to the fan 20, and the fan 20 and the motor shaft 31 are configured to rotate synchronously, so as to drive the fan 20 to rotate, i.e. the driving between the fan 20 and the motor 30 can be direct-driven. It is understood that the fan 20 and the motor 30 may be connected by a transmission. In the present embodiment, the energy source 40 is a battery pack that is fitted to the casing 10, but it is understood that the hair dryer 100 may not include an energy source when not in use, and the energy source 40 is not limited to a battery pack, and may be an external ac power source or a dc power source.

The governor assembly 50 includes a switch 51, a control member 52, and an actuating member 53. The switch 51 is coupled with the motor 30 and used for controlling the operation of the motor 30; a control member 52 rotatably connected to the housing 10 for controlling the switch assembly 51; an actuating member 53 rotatably coupled to the housing 10 and capable of controlling the switch assembly 51; wherein the actuating member 53 is movable between a closed condition and an actuated condition, the actuating member 53 being movable to a predetermined limit position in the actuated condition, the motor 30 being stopped when the actuating member 53 is in the closed condition; when the actuator 53 is in the actuated state, the motor 30 can rotate at a certain speed. The control member 52 has, during its movement, at least a first control condition in which the motor 30 is able to operate at a maximum rotation speed and a second control condition in which the control member 52 is in the first control condition and the motor 30 is able to operate at an intermediate rotation speed lower than the maximum rotation speed; the control member 52 is capable of driving the actuating member 53 to move from the closed state to the actuated state during the movement for triggering the second control state, and the actuating member 53 is not capable of crossing the limit position during the switching of the control member 52 from the second control state to the first control state. That is, the user controls the rotation speed of the motor 30 by operating the starting member 53, or controls the rotation speed of the motor 30 by operating the control member 52, and if the blowing-free place, such as a branch, a small stone, etc., is encountered, the control member 52 can be driven to the first control state. When the hair dryer 100 is powered by the battery pack, because the motor 30 of the hair dryer 100 runs at the maximum rotating speed for a long time, the power supply time of the battery pack is easy to be greatly shortened, and the working time of the hair dryer 100 is influenced, therefore, the motor 30 of the hair dryer 100 runs at the maximum rotating speed for a long time, the use mode is generally only maintained for a short time, the starting piece 53 can be always in the state of the common blowing function, and even if a user drives the starting piece 53 to the limit position, the user is also in the state of the common blowing function without controlling the force for driving the starting piece 53, so that the setting is convenient for the user to control the rotating speed of the motor 30 of the hair dryer 100 according to different conditions, and the operation of the user is convenient.

It should be noted that the control member 52 further includes an initial state, which refers to the original position of the control member 52 (as shown in fig. 4), and in practice, it can be easily found that the original position of the control member 52 is not fixed due to installation or operation, and it is only necessary to satisfy that the motor 30 is not operated when the control member is in the original position when the actuating member 53 is in the closed state, i.e. the control member 52 is in the initial state, and it should be noted that the operation state of the motor 30 is not limited when the control member 52 is in the initial state when the hair dryer 100 is in the working state. In this application, the control member 52 is in the first control state when the motor 30 is operating at the maximum speed or power (as shown in fig. 9), but it should be noted that the first control state is not limited to a certain position, and the first control state can be referred to as the first control state as long as the speed or power of the motor 30 reaches the maximum position. Control member 52 is in a second control state, which refers to the position of control member 52 when motor 30 is operating at less than maximum speed or maximum power. The off state of the actuator 53 is the position of the actuator 53 (shown in fig. 4) when the energy source 40 stops providing energy to the motor 30, and the motor 30 stops; the activated state of the activating member 53 refers to the position of the activating member 53 when the motor 30 is running when the activating member 53 is forced to move so that the energy source 40 supplies energy to the motor 30, and it should be understood that the position is not limited to one, as long as the above condition is satisfied. Through the aforesaid setting, make the starter 53 of hair-dryer 100 when being triggered by the mistake, also can only be in the state of the function of ordinary blowing, avoid hair-dryer 100 mistake to touch back direct messenger motor 30 and reach the maximum rotational speed, the air output of hair-dryer 100 reaches the biggest condition, with this can effectively avoid hair-dryer 100 when being triggered motor 30 by the mistake carelessly and reaching the maximum rotational speed, the stone that leads to blowing up injures other people, article, or blow up the emergence that the branch incised safety accidents such as other people, the life has been guaranteed, the safety of property. The motor 30 of the blower 100 is in the maximum rotation speed operation and is not the normal working state of the blower 100, the working requirement can be met only by the ordinary blowing function in the ordinary operation, the air output of the blower 100 can be adjusted according to different working conditions, only when stones or large branches are encountered, the motor of the blower 100 is required to be in the maximum rotation speed operation, by adopting the structure, even if the user drives the starting piece 53 to the limit position, the motor is only in the state of the ordinary blowing function, so that the user does not need to control the force for holding the starting piece 52 by himself, the operation of the user is facilitated, and the practicability is stronger.

Referring to fig. 5 to 9, the handle portion 80 includes a first housing 81 and a second housing 82, a handle space is formed between the first housing 81 and the second housing 82, the actuating member 53 is mounted to the handle portion 80, the actuating member 53 is movable in the handle space, the actuating member 53 is rotatably connected to the handle portion 80 about a first rotation axis 101, the switch 51 is a signal switch, the actuating member 53 abuts against the switch 51 and can apply a driving force to the switch 51 to trigger the switch 51, and the actuating member 53 can rotate relative to the control member 52. Specifically, the user operates the trigger 54 to rotate the trigger 54 in the first direction a about the first rotation axis 101, and the control member 52 is maintained at the initial position without being driven by an external force when rotating between the off state and the on state. The speed regulation assembly 50 further comprises a return spring 55 for returning the trigger 54, specifically, the return spring 55 is disposed in the handle space, one end of the return spring 55 abuts against the first housing 81 or the second housing 82, the other end of the return spring 55 is mounted on the trigger 54, that is, when the trigger 54 is driven by external force to rotate, the trigger 54 compresses the return spring 55 to make it elastically deformed, when the trigger 54 loses driving force, the trigger 54 can immediately rotate around the first rotation axis 101 in the second direction B under the action of elastic force, so that the trigger 54 returns to the closed state, the larger the rotation angle of the trigger 54 around the first rotation axis 101 is, and the larger the rotation speed of the motor 30 is. When the trigger 54 is in the start state, there are a plurality of start speed adjusting positions, each start speed adjusting position corresponds to a different rotation speed of the motor 30, for convenience of description, the start speed adjusting position corresponding to the maximum rotation speed of the motor 30 in the plurality of start speed adjusting positions is defined as the maximum start speed adjusting position, and the maximum start position is the limit position, and it should be noted that, in this embodiment, the rotation speed of the motor 30 corresponding to the maximum start speed adjusting position is smaller than the rotation speed of the motor 30 when the control member 52 is in the first control state. The trigger 54 moves from the closed state to the maximum starting speed regulating position corresponding to the stepless speed change of the motor 30 with uniform speed increasing, and the arrangement is convenient for a user to blow the leaves, garbage and the like scattered in a short time. In another embodiment, the housing 10 includes a handle portion and a body portion, and the governor assembly 50 is at least partially disposed within the handle portion. The handle part is detachably and fixedly connected to the main body part, namely the handle part and the main body part can be directly connected in a screw connection mode, a buckling connection mode and the like, and the handle part can also be fixedly installed on an intermediate piece which is fixedly installed on the main body part in an indirect fixing mode. The handle part comprises a first handle shell and a second handle shell, the first handle shell and the second handle shell can be connected through screw connection, buckle connection and the like, one of the first handle shell and the second handle shell can be detached independently, and therefore a user can detach the first handle shell or the second handle shell by himself to facilitate inspection, maintenance or maintenance of the user.

The control member 52 is at least partially disposed in the handle space, the control member 52 is rotatably connected to the handle portion 80 with the second rotation axis 102 as an axis, the control member 52 is adjacent to the switch 51, the control member 52 can be abutted against the switch 51 in the rotation process, and a driving force for driving the switch 51 can be applied to the switch 51. In this embodiment, the actuating member 53 is disposed adjacent to the control member 52 to facilitate the user's ability to operate the governor assembly 50 while holding the handle portion 80. Specifically, the control member 52 is driven by an external force to rotate around the second rotation axis 102 in the third direction C, so as to contact the switch 51, and when the external force is removed, the control member 52 is forced to rebound, that is, the control member 52 rotates around the second rotation axis 102 in the fourth direction D, and finally returns to the second control state. The second control state is between the initial state and the first control state. In the present embodiment, when the control member 52 is in the second control state, there are a plurality of speed adjusting positions that can be maintained, each speed adjusting position corresponds to a different rotation speed of the motor 30, for convenience of description, the speed adjusting position corresponding to the maximum rotation speed of the motor 30 in the plurality of speed adjusting positions is defined as the maximum speed adjusting position, and the rotation of the control member 52 from the initial state to the maximum speed adjusting position corresponds to the stepless speed change that can be maintained by the motor 30 and that increases at a constant speed.

Referring to fig. 16-17, the governor assembly 50 further includes a locking member 57, and when the control member 52 is in the governor position, the locking member 57 is used to apply a force to the control member 52 to prevent the control member from moving to the governor position, i.e., it can be understood that the locking member 57 can lock the position of the control member 52 after the control member 52 is moved to the governor position, i.e., the user can apply no force to the control member 52, the position of the control member 52 will not move, and the motor 30 will always operate at the speed corresponding to the governor position. By the arrangement, when the user uses the hair drier 100 to work for a long time, the user can free part of the work, so that the hair drier 100 is more convenient and labor-saving to operate. When the control member 52 is at any speed-regulating position, the control member 52 is applied with a friction force in a tangential direction opposite to the rotation direction thereof by the trigger 54, the control member 52 returns to the initial position under the action of the friction force without any other external drive of the control member 52, and the locking member 57 applies a static friction force opposite to the friction force to the control member 52, so that the control member 52 is not displaced. Specifically, the locking member 57 is a wave-shaped elastic piece mounted between the casing 10 and the control member 52, the control member 52 is in contact with the wave-shaped elastic piece, the control member 52 presses the wave-shaped elastic piece to generate elastic deformation during the speed regulation process, and the wave-shaped elastic piece applies an opposite acting force to the control member 52, wherein the acting force is perpendicular to the movement plane of the control member 52, so that a friction force parallel to the movement direction of the control member 52 is generated.

Referring to fig. 10 to 14, the speed adjusting assembly 50 further includes an elastic member 56, and the elastic member 56 is mounted on the casing 10; the control member 52 includes a third boss 523. The elastic member 56 has at least one free end 561, the housing is provided with a supporting portion 11 at least partially contacting the free end 561 of the elastic member 56, when the control member 52 is forced to move to the first control state, the elastic member 56 is used to apply an acting force to the control member 52 to return the control member 52 to the maximum speed adjusting position, specifically, the user drives the control member 52 to the first control state, at this time, the third protruding portion 523 of the control member 52 contacts the free end 561 and compresses the free end 561, so that the elastic member 56 deforms, the user cancels the external force, and the control member 52 is driven by the elastic force of the elastic member 56 to rotate the control member 52 around the second rotation axis 102 along the fourth direction D to enter the second control state or the initial state without being driven by other external forces. In this embodiment, the control member 52 rebounds to the maximum speed adjusting position, and the inertia of the control member 52 when rebounding is smaller than the friction force of the locking member 57, so that the control member 52 just rebounds to the corresponding maximum speed adjusting position when rebounding, which certainly avoids the situation that the control member 52 may rebound to the initial position, and we can also set a limiting component to overcome the inertia generated when the control member 52 rebounds. As an embodiment, the elastic member 56 is a torsion spring having at least one free end 561, and the free end 561 is at least partially in contact with the supporting portion 11. The third protrusion 523 is fixedly connected to the control member 52 or integrally formed therewith.

In the process of moving the control member 52 from the initial state to the first control state, the actuating member 53 can be driven to move from the off state to the on state, and when the user operates the control member 52, the actuating member 53 can be driven to rotate around the second rotation axis 102 to the maximum start speed regulation position, at this time, the control member 52 is in contact with the switch 51, and the actuating member 53 is not in contact with the switch 51. When the user operates the actuating member 53, the control member 52 is kept stationary without being driven by an external force, and at this time, the actuating member 53 is in contact with the switch 51 and the control member 52 is not in contact with the switch 51. I.e. the control member 52 moves, with the actuator member 53. Above-mentioned setting, convenience of customers controls the air output of hair-dryer 100 according to the condition of difference, can satisfy the different operating habits of user through setting up the speed governing mode of two kinds of differences of starter 53 and control 52 simultaneously, and is more humanized, more accords with human-machine engineering.

Referring to fig. 6 to 7, the blower 100 further includes a stopper 60, and the stopper 60 is disposed on a path of rotation of the actuating member 53. In particular, during the rotation of the actuator member 53 about the first rotation axis 101, the actuator member 53 can rotate to an extreme position, wherein when the actuator member 53 is in the extreme position, the motor 30 can operate at an intermediate rotation speed lower than the maximum rotation speed, the stop member 60 is disposed in the rotation path of the actuator member 53, the stop member 60 is used for preventing the actuator member 53 from exceeding the extreme position when being pressed, and the greater the angle of rotation of the actuator member 53, the greater the rotation speed of the motor 30 when the actuator member 53 is driven to rotate from the closed position to the extreme position. The stopper 60 is fixedly connected to or integrally formed with the housing 10, and specifically, the stopper 60 is fixedly connected to or integrally formed with the first housing 81 or the second housing 82, however, a plurality of stoppers 60 may be disposed on the first housing 81 and the second housing 82 for increasing the structural strength. The stop member 60 includes a stop surface 61, the actuating member 53 has a contact surface 535, and when the user operates the actuating member 53, the actuating member 53 is forced to rotate so that the contact surface 535 contacts the stop surface 61. I.e., when the contact surface 535 contacts the stop surface 61, the actuator 53 stops rotating. With the arrangement, the air output of the hair dryer 100 can be regulated and controlled only by operating the starting part 53 with one hand, so that the use of the hair dryer is more comfortable.

Referring to fig. 15, the switch 51 further includes a push rod 511 capable of being triggered, and the push rod 511 extends substantially along the first linear direction 103. The actuating member 53 includes a driving portion 531, wherein the driving portion 531 of the actuating member 53 abuts against the push rod 511 of the switch 51, and when a user applies an external force to the actuating member 53, the driving portion 531 drives the push rod 511 to move in the first linear direction 103 to actuate the motor 30. As an alternative embodiment, the actuating member 53 may have a plurality of speed adjusting positions during the rotation process, each speed adjusting position corresponds to a different rotation speed of the motor 30, and it can be understood that when the user applies a force to the trigger 54, and the trigger 54 rotates around the first rotation axis 101 along the first direction a, the driving portion 531 of the trigger 54 drives the push rod 511 to move along the first linear direction 103, and the rotation speed of the motor 30 increases with the increase of the rotation angle of the actuating member 53. Conversely, when the user releases the trigger 54, the trigger 54 is rebounded by the elastic force of the return spring 55, the push rod 511 is restored after being driven by the external force, and the motor 30 is stopped.

Referring to fig. 16 to 18, the control member 52 includes a first protrusion 521, a second protrusion 522 and an operation portion 524, and the trigger 54 includes a sliding portion 532. When the user rotates the operating portion 524 of the actuating member 52, the first protrusion 521 of the actuating member 52 contacts the sliding portion 532 of the trigger 54 and drives the sliding portion 532, so that the trigger 54 rotates about the first rotation axis 101, and the driving portion 531 of the trigger 54 drives the push rod 511 to move along the first linear direction 103, so that the motor 30 is started. The first protruding portion 521 and the control element 52 are fixedly connected or integrally formed, where the fixed connection includes direct fixing or indirect fixing, specifically, the first protruding portion 521 and the control element 52 may be directly fixed by interference connection, welding, or the like, or the first protruding portion 521 and the control element 52 may be connected by a transmission member, of course, the first protruding portion 521 and the control element 52 may be integrally formed, and the specific connection manner between the first protruding portion 521 and the control element 52 is not limited.

The second protrusion 522 and the first protrusion 521 are fixedly connected or integrally formed. The trigger 54 further includes a contact portion 533, the contact portion 533 defines a through hole 534, wherein when the control member 52 rotates around the second rotation axis 102, at least a portion of the second protrusion 522 can pass through the through hole 534, at this time, the second protrusion 522 contacts the push rod 511, and drives the push rod 511 to move continuously along the first linear direction 103 until the control member 52 reaches the magnifying position. Specifically, after a user applies a driving force to the control member 52, the control member 52 rotates in the third direction C, the first protrusion 521 drives the sliding portion 532 of the actuating member 53, the actuating member 53 is forced to rotate in the first direction a, the actuating member 53 compresses the return spring 55, the driving portion 531 of the actuating member 53 drives the push rod 511, the motor 30 starts, as the angle of rotation of the actuating member 53 increases, the rotation speed of the motor 30 increases, the actuating member 53 rotates until the contact surface 535 contacts the stop surface 61, at this time, the actuating member 53 is limited by the stop member 60 to stop moving, the control member 52 is forced to continue to rotate in the third direction C, the first protrusion 521 continues to apply a force to the sliding portion 532, and the second protrusion passes through the through hole 534 to continue to push the push rod 511 to move in the first linear direction 103, so that the motor 30 can operate at the maximum rotation speed 522. After the user releases the control member 52, the elastic member 56 rebounds to cause the control member 52 to rebound to the maximum speed regulating position and to change the rotation speed of the motor 30 from the maximum rotation speed operation to the rotation speed of the motor 30 corresponding to the maximum speed regulating position of the control member 52. In different working conditions, the user can select different air output amounts according to actual conditions, for example, when the blower 100 is used to blow off leaves and dust, if the blower encounters a blowing-free place such as branches and small stones, the control member 52 can be driven to the first control state, and when the branches and small stones are blown off into a preset area, the control member 52 is released to enable the control member 52 to return to the second control state to continue working. In this embodiment, the first protrusion 521 is disposed between the second protrusion 522 and the third protrusion 523, the third protrusion 523 is disposed on a side away from the push rod 511, and the first protrusion 521, the second protrusion 522 and the third protrusion 523 are integrally formed, wherein the first protrusion 521 has a first protrusion surface, the first protrusion surface is substantially in a circular arc shape, and the third protrusion 533 extends substantially along the direction of the second rotation axis 102.

As another embodiment, the control member and the actuating member are not limited to the above control relationship or connection relationship. The control piece can be connected with the shell in a rotating mode and used for controlling the switch, the control piece can move between a closed state and an opened state, the opened state of the opened piece can move to a preset limit position, when the control piece is in the closed state, the motor stops running, and when the control piece is in the opened state, the motor can rotate;

the starting piece at least comprises a first control state and a second control state, and when the starting piece is in the first control state, the motor can run at the maximum rotating speed; when the actuator is in the second control state, the motor is capable of operating at an intermediate speed less than the maximum speed; the starting piece can drive the control piece to move from the closed state to the starting state in the moving process of entering the second control state, and when the starting piece is switched from the second control state to the first control state, the control piece cannot cross the limit position. Similar to the principle in the first embodiment, the description is omitted.

The foregoing shows and describes the basic principles, essential features and advantages of the application. It should be understood by those skilled in the art that the above-described embodiments are not intended to limit the present application in any way, and all technical solutions obtained by means of equivalents or equivalent changes fall within the protection scope of the present application.