CN219959476U - Remote control device of electrical equipment and electrical equipment - Google Patents

Abstract

The utility model provides a remote control device of electrical equipment and the electrical equipment, the remote control device includes: the remote controller is internally provided with a power supply circuit forming a loop with the battery, the power supply circuit is provided with an opening and closing component, and the opening and closing component is correspondingly arranged with a matched opening of the remote controller; the plug-in component is matched with the opening and closing component through the matching opening; when the plug-in unit is matched with the opening and closing component, the opening and closing component is in a first state to disconnect the power supply of the battery to the remote controller; when the plug-in unit is separated from the opening and closing assembly, the opening and closing assembly is in a second state so that the battery supplies power for the remote controller. The utility model solves the technical problem that when the remote controller is in an idle state, the battery arranged in the remote controller still continuously waits for power consumption, and the service life is reduced when the remote controller is used subsequently because a large amount of electric quantity is wasted, thereby influencing normal use and reducing user experience.

Description

Remote control device of electrical equipment and electrical equipment

Technical Field

The utility model relates to the technical field of remote control, in particular to a remote control device of electrical equipment and the electrical equipment.

Background

In the household electrical appliance products nowadays, a remote controller is commonly arranged, and the control of the electrical appliance products is realized by operating the remote controller, so that the use convenience of the electrical appliance products is greatly improved.

However, there is at least one of the following problems in the related art: when the remote controller is in an idle state, the battery arranged in the remote controller is still continuously in standby power consumption, and the use time is reduced when the remote controller is used subsequently due to the fact that a large amount of electric quantity is wasted, so that normal use is affected, and user experience is reduced.

Disclosure of Invention

The utility model solves the technical problem that when the remote controller is in an idle state, the battery arranged in the remote controller still continuously waits for power consumption, and the service life is reduced when the remote controller is used subsequently because a large amount of electric quantity is wasted, thereby influencing normal use and reducing user experience.

In order to solve the above problems, the present utility model provides a remote control device for an electrical apparatus, comprising: the remote controller is internally provided with a power supply circuit forming a loop with the battery, the power supply circuit is provided with an opening and closing component, and the opening and closing component is correspondingly arranged with a matched opening of the remote controller; the plug-in component is matched with the opening and closing component through the matching opening; when the plug-in unit is matched with the opening and closing component, the opening and closing component is in a first state to disconnect the power supply of the battery to the remote controller; when the plug-in unit is separated from the opening and closing assembly, the opening and closing assembly is in a second state so that the battery supplies power for the remote controller.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: specifically, the electrical equipment is an air conditioner, and the matching between the plug-in unit and the remote controller is adjusted according to the service condition of the air conditioner. Specifically, when the air conditioner is not required to be started in seasons or in an environment with low use frequency of the air conditioner, the plug-in unit can extend into the accommodating space of the remote controller for installing the power supply circuit along the matching opening, so that when the plug-in unit is matched with the opening and closing component to be in a first state, a loop formed by the battery and the power supply circuit is disconnected, namely, the battery is disconnected from the remote controller, so that the electric quantity loss of the remote controller in an idle state is reduced, the use time of the remote controller can be normally used for controlling the air conditioner is prolonged, the use efficiency is improved, and the energy-saving effect is further achieved; on the contrary, when the remote controller is needed to be put into use for controlling the air conditioner, the plug-in unit can be pulled out from the matched opening to restore the electric connection between the battery and the power supply circuit, namely, the plug-in unit is plugged, so that the remote controller can be flexibly adjusted between the first state and the second state, and the adjusting efficiency is improved.

In one example of the utility model, the power supply circuit includes a power element, and the shutter assembly is located between the power element and the battery; the power supply circuit includes: one end of the first wire is used for being connected with the corresponding end part of the power utilization element, and the other end of the first wire is used for being matched with the opening and closing assembly; one end of the second wire is used for being connected with the corresponding end part of the battery, and the other end of the second wire is used for being matched with the opening and closing assembly; when the opening and closing component is in the first state, the opening and closing component is separated from at least one of the first wire and the second wire, or when the opening and closing component is in the first state, the plug-in unit separates the opening and closing component.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: the plug-in components and the assembly that opens and shuts cooperate in order to make the assembly that opens and shuts separate with first wire, perhaps make the assembly that opens and shuts separate with the second wire, perhaps make the assembly that opens and shuts separate simultaneously with first wire and second wire to realize the outage to the battery, reduced the remote controller and be in the electric quantity loss under the idle state.

In one example of the utility model, the power supply circuit comprises a plurality of batteries arranged in series, and the opening and closing component is positioned between a first battery and a second battery which are sequentially connected in series in the plurality of batteries; the power supply circuit includes: one end of the first wire is used for being connected with the corresponding end part of the first battery, and the other end of the first wire is used for being matched with the opening and closing assembly; one end of the second wire is used for being connected with the corresponding end part of the second battery, and the other end of the second wire is used for being matched with the opening and closing assembly; when the opening and closing component is in the first state, the plug-in component is separated from the opening and closing component, or when the opening and closing component is in the first state, the opening and closing component is separated from at least one of the first wire and the second wire.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: the plug-in components cooperate with the subassembly that opens and shuts so that the inside part of the subassembly that opens and shuts separates each other in order to break off the power supply circuit that comprises battery, power supply circuit and the subassembly that opens and shuts to realized the outage to the battery, reduced the remote controller and be in the electric quantity loss under the idle state.

In one example of the present utility model, if the opening and closing assembly is in the first state, the opening and closing assembly is separated from at least one of the first wire and the second wire; an adjusting interval for the opening and closing assembly to move is formed between the first wire and the second wire; the opening and closing assembly includes: the resetting piece is connected with the first wire or the second wire to form an end part for adjusting the distance; the third conductive piece is positioned in the adjusting interval; the third conductive piece is connected to the first wire through a reset piece, and the reset piece enables the third conductive piece to be in contact fit with the second wire; when the opening and closing assembly is in a first state, the plug-in component enables the third conductive piece to be separated from the second wire, or the third conductive piece is connected to the second wire through the resetting piece, and the resetting piece enables the third conductive piece to be in contact fit with the first wire; when the opening and closing assembly is in the first state, the plug-in component separates the third conductive piece from the first wire.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: the third conductive piece is, for example, a metal electric connection piece, and the third conductive piece is close to the other one of the first conductive piece and the second conductive piece under the elastic action of the reset piece, so that a closed loop is formed by a power supply circuit and the battery, thereby realizing power supply to the battery. Therefore, the opening and closing assembly in the technical scheme is simple and reliable in structure, and can be flexibly switched between the first state and the second state through matching or separation with the plug-in.

In one example of the present utility model, if the opening and closing assembly is in the first state, the plug-in separates the opening and closing assembly; an adjusting interval for the opening and closing assembly to move is formed between the first wire and the second wire; the opening and closing assembly includes: the first conductive piece is connected to the first wire to form an end part for adjusting the distance; the second conductive piece is connected to the second wire to form an end part for adjusting the distance, and the second conductive piece is arranged opposite to the first conductive piece; the resetting piece is arranged between the first conductive piece and the first wire and/or between the second conductive piece and the second wire; when the opening and closing assembly is in a first state, the plug-in component is clamped between the first conductive piece and the second conductive piece to separate the first conductive piece and the second conductive piece.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: in one embodiment, the number of the reset members may be two, and for convenience of understanding, the reset member connected between the first wire and the first conductive member may be defined as a first reset member, and the reset member connected between the second wire and the second conductive member may be defined as a second reset member. The first reset piece applies elastic force to the first conductive piece in the direction approaching to the second conductive piece, and the second reset piece applies elastic force to the second conductive piece in the direction approaching to the first conductive piece. Therefore, under the elastic force synergistic effect of the first reset piece and the second reset piece, the first conductive piece and the second conductive piece can be tightly attached to each other, and the stability of the opening and closing assembly for keeping the second state is improved, so that the stability of the battery for supplying power to the remote controller is ensured.

In one example of the utility model, a flexible wire is connected between the first wire and/or the second wire and the opening and closing assembly; the opening and closing assembly comprises two metal pieces which are oppositely arranged, and at least one of the two metal pieces is made of a magnetic material; when the plug-in component is inserted between the two metal pieces to separate the two metal pieces, the opening and closing component is in a first state.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: specifically, the two metal pieces are made of magnetic materials, and the end parts of the two metal pieces, which are close to each other, are arranged in opposite directions, so that the corresponding end surfaces of the two metal pieces are stably attached under the action of magnetic force of opposite directions, the stability of a power supply circuit forming a loop electrically connected with a battery is ensured, and the battery can stably supply power to a remote controller; on the contrary, the flexible lead is deformed to realize that the plug-in unit is smoothly inserted between the two metal pieces to separate the two metal pieces, so that the opening and closing assembly enters the first state.

In one example of the utility model, at least one end of the first conductive element and the second conductive element, which are close to each other, is provided with a first guiding inclined plane, and the first guiding inclined plane is opposite to the matching opening; and/or the plug-in component is provided with an insertion end for being inserted into the matched opening, and one end of the insertion end, which is used for being matched with the opening and closing component, is provided with a second guide inclined surface.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: in combination with the fact that the insert extends into the mating opening so as to separate the first conductive member and the second conductive member, it will be understood that the insert has a certain thickness, which results in the insert abutting against the side surface of the first conductive member and/or the second conductive member, so that a large pushing force needs to be applied to separate the first conductive member and the second conductive member from each other, even when the insert vertically abuts against the side surface of the first conductive member and/or the second conductive member, so that the first conductive member and the second conductive member cannot be smoothly separated from each other. Therefore, the first guide inclined surface is arranged on the side part of the first conductive piece and/or the second conductive piece, which is close to the matching opening, so that the first conductive piece and the second conductive piece are separated from each other more labor-saving under the matching action of the plug-in unit and the first guide inclined surface.

In one example of the present utility model, the remote control device further includes: the remote control base is provided with a mounting position for mounting the remote controller, and the plug-in unit is arranged at the position of the mounting position corresponding to the matching opening.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: through installing the remote controller to the remote control base, play the fixed action to the remote controller, combine the cooperation relation between plug-in components and the installation position, when having ensured the fixed mounting remote controller, realize the effect of battery to the remote controller outage for whole operation process is convenient reliable.

In one example of the utility model, the remote control is slidably connected to the remote control base.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: through making be sliding fit between remote controller and the remote control base, avoided installing the in-process of remote controller to the remote control base, because the installation remote controller is not in place to take place the dislocation and lead to striking plug-in components between messenger's and the remote control base, the unexpected condition that causes the structure of grafting to receive the destruction takes place.

In another aspect, the present utility model also provides an electrical apparatus, including: an electric appliance body; the remote control device provided in any one of the above examples, wherein the remote control device is connected with the electrical appliance body in a remote control manner; when the plug-in unit is separated from the opening and closing assembly, the remote controller is adjusted to control the electric appliance body.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: the technical effects of the corresponding technical schemes in any of the above examples can be achieved, and are not repeated here.

After the technical scheme of the utility model is adopted, the following technical effects can be achieved:

(1) The plug-in units are plugged, so that the remote controller can be flexibly adjusted between the first state and the second state, the adjustment efficiency is improved, the electric quantity loss of the remote controller in an idle state is reduced, the use time of the remote controller which can be normally used for controlling the electrical equipment is prolonged, the use efficiency is improved, and the energy-saving effect is further achieved;

(2) The number of the reset members may be set to two, and for ease of understanding, the reset member connected between the first wire and the first conductive member may be defined as a first reset member, and the reset member connected between the second wire and the second conductive member may be defined as a second reset member. The first reset piece applies elastic force to the first conductive piece in the direction approaching to the second conductive piece, and the second reset piece applies elastic force to the second conductive piece in the direction approaching to the first conductive piece. Therefore, under the synergistic effect of the elastic forces of the first reset piece and the second reset piece, the first conductive piece and the second conductive piece can be tightly attached to each other, so that the stability of the opening and closing assembly for keeping the second state is improved, and the stability of the battery for supplying power to the remote controller is ensured;

(3) The first guide inclined plane is arranged on the side part of the first conductive piece and/or the second conductive piece, which is close to the matching opening, so that the first conductive piece and the second conductive piece are separated from each other more labor-saving under the matching action of the plug-in unit and the first guide inclined plane.

Drawings

Fig. 1 is a schematic diagram of a local structure of a remote control device for an electrical apparatus according to an embodiment of the present utility model.

Fig. 2a is a schematic diagram of the position relationship of the opening and closing component between the power consumption element and the battery in the power supply circuit.

Fig. 2b is a schematic diagram of the position relationship of the opening and closing assembly between two batteries connected in series in sequence in the power supply circuit.

Fig. 3a is a schematic diagram illustrating a mating relationship between the first opening and closing component and the insert in the second state in fig. 1.

Fig. 3b is a schematic diagram illustrating a mating relationship between the first opening and closing component and the insert in the first state in fig. 1.

Fig. 4 is a schematic diagram illustrating a mating relationship between the second opening and closing component and the insert in the first state in fig. 1.

Fig. 5 is a schematic diagram illustrating a mating relationship between the third opening and closing component and the insert in the first state in fig. 1.

Fig. 6 is a schematic diagram of a partial structure of the remote controller in fig. 1.

Fig. 7 is a schematic structural view of the opening and closing assembly in a second state in fig. 5.

Fig. 8 is a schematic diagram illustrating a matching relationship between the remote control base and the plug-in unit in fig. 1.

Reference numerals illustrate:

100-remote control device; 10-a remote controller; 101-mating openings; 102-an opening and closing assembly; 11-a power supply circuit; 111-an electrical component; 1111-battery; 1112-a second battery; 1113-a third cell; 112-a first reset element; 113-a second reset element; 114-a first conductive member; 115-a second conductive member; 116-a first wire; 1161-positive pole spring; 117-a second wire; 1171-negative electrode spring; 118-first guiding ramp; 119-a third conductive member; 20-insert; 30-a remote control base; 31-mounting groove.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Referring to fig. 1, a schematic diagram of a local structure of a remote control device 100 of an electrical apparatus according to an embodiment of the present utility model is shown. Referring to fig. 2 a-8, the remote control device 100 includes, for example, a remote control 10 and a plug-in unit 20, specifically, a power supply circuit 11 forming a loop with a battery 1111 is disposed in the remote control 10, the power supply circuit 11 is provided with an opening and closing component 102, and the opening and closing component 102 is disposed corresponding to a mating opening 101 of the remote control 10; the plug-in 20 is matched with the opening and closing assembly 102 through the matching opening 101; wherein, when the plug-in 20 is mated with the opening and closing component 102, the opening and closing component 102 is in the first state to disconnect the power supply of the battery 1111 to the remote controller 10; when the plug-in 20 is disengaged from the opening and closing assembly 102, the opening and closing assembly 102 is in the second state so that the battery 1111 supplies power to the remote controller 10.

In a specific example, the electrical equipment is an air conditioner, and in combination with the use condition of the air conditioner, specifically, the use frequency of the air conditioner is almost zero in spring and autumn, so that the remote controller 10 is idle aside, and usually, the remote controller 10 is powered by the battery 1111, so that the battery 1111 in the remote controller 10 continuously waits for power consumption when the air conditioner is not used for a long time, and when the air conditioner is used in winter and summer in a vigorous season, the electric quantity of the battery 1111 is seriously lost or even is completely consumed, on one hand, the normal use of a user is affected, and the use experience is reduced; on the other hand, since part of the electric energy of the battery 1111 is not effectively utilized, the service life of the battery 1111 is reduced during frequent charging, and thus the replacement frequency of the new and old batteries 1111 is increased.

Thus, in combination with the present disclosure, the cooperation between the plug-in 20 and the remote controller 10 is adjusted according to the usage of the air conditioner. Specifically, when the air conditioner is not required to be started in the season or the air conditioner is used in the environment with low frequency, the plug-in unit 20 can be stretched into the accommodating space of the remote controller 10 for installing the power supply circuit 11 along the matching opening 101, so that when the plug-in unit 20 is matched with the opening and closing component 102 to be in the first state, the circuit formed by the battery 1111 and the power supply circuit 11 can be disconnected, namely, the battery 1111 and the remote controller 10 are disconnected from electrical connection, so that the electric quantity loss of the remote controller 10 in the idle state is reduced, the use time of the remote controller 10 can be normally used for controlling the air conditioner is prolonged, the use efficiency is improved, and the energy saving effect is further achieved.

Further, in order to avoid the situation that the plug-in unit 20 is easily lost due to random placement of the plug-in unit 10 during use, the plug-in unit 20 and the casing of the remote controller 10 may be connected by a connection line. Wherein, to ensure that the opening and closing assembly 102 stably maintains the first state, the insert 20 may be made to be an insulating member.

2 a-2 b, the power supply circuit 11 preferably includes a power consuming element, and the shutter assembly 102 is located between the power consuming element and the battery 1111; the power supply circuit 11 includes, for example, a first wire 116 and a second wire 117. One end of the first wire 116 is used for connecting with the corresponding end of the power element 111, and the other end is used for matching with the opening and closing assembly 102; one end of the second wire 117 is used for connecting with the corresponding end of the battery 1111, and the other end is used for matching with the opening and closing assembly 102; wherein the opening and closing assembly 102 is separated from at least one of the first wire 116 and the second wire 117 when the opening and closing assembly 102 is in the first state, or the insert 20 separates the opening and closing assembly 102 when the opening and closing assembly 102 is in the first state.

Preferably, in another embodiment, the power supply circuit 11 includes a plurality of batteries 1111 arranged in series, and the switching assembly 102 is located between a first battery 1112 and a second battery 1113 of the plurality of batteries 1111, which are sequentially connected in series. The power supply circuit 11 includes, for example, a first wire 116 and a second wire 117. One end of the first wire 116 is used for connecting with a corresponding end of the first battery 1112, and the other end is used for matching with the opening and closing assembly 102; one end of the second wire 117 is used for connecting with the corresponding end of the second battery 1113, and the other end is used for matching with the opening and closing assembly 102; wherein the insert 20 separates the shutter assembly 102 when the shutter assembly 102 is in the first state, or the shutter assembly 102 separates from at least one of the first wire 116 and the second wire 117 when the shutter assembly 102 is in the first state.

In one embodiment, the remote controller 10 is provided with a battery compartment for installing the battery 1111, one end of the first wire 116 is a positive electrode spring 1161 installed in the battery compartment, and the other end is disposed in the accommodating space and is used for being connected with the corresponding end of the opening and closing assembly 102; correspondingly, one end of the second wire 117 is a negative electrode spring 1171 installed in the battery compartment, and the other end is disposed in the accommodating space and is used for being connected with one end of the opening and closing assembly 102 away from the first wire 116. Thus, by connecting the shutter assembly 102 between the first wire 116 and the second wire 117, it is ensured that the stable mating of the battery 1111 and the first wire 116 and the second wire 117 is less affected when the shutter assembly 102 is switched between the first state and the second state.

Preferably, if the opening and closing assembly 102 is in the first state, the opening and closing assembly 102 is separated from at least one of the first wire 116 and the second wire 117; an adjusting interval for the opening and closing assembly 102 to move is formed between the first wire 116 and the second wire 117; and the opening and closing assembly 102 includes, for example, a reset element and a third conductive element 119. The reset piece is connected to the first wire 116 or the second wire 117; the third conductive element 119 is located within the adjustment gap.

Wherein the third conductive element 119 is connected to the first conductive wire 116 through a reset element, and the reset element makes the third conductive element 119 contact and cooperate with the second conductive wire 117; when the opening and closing assembly 102 is in the first state, the plug 20 separates the third conductive element 119 from the second conductive wire 117; or, the third conductive element 119 is connected to the second wire 117 through a reset element, and the reset element makes the third conductive element 119 contact and cooperate with the first wire 116; when the opening and closing assembly 102 is in the first state, the insert 20 separates the third conductive element 119 from the first conductive wire 116.

For example, the third conductive element 119 may be made of metal, and the specific structure is a metal sheet. Or a conductive material such as graphite.

In a specific example, the third conductive element 119 may be connected to the first conductive wire 116 through a reset element, where the third conductive element 119 is, for example, a metal electrical connection sheet, and by moving the third conductive element 119 toward a direction approaching the second conductive wire 117 under the elastic action of the reset element, the third conductive element 119 completes contact cooperation with the second conductive wire 117, so that a closed loop is formed by the power supply circuit 11, the battery 1111 and the opening and closing component 102, so as to realize power supply to the battery 1111, whereas when the remote controller 10 is idle, the plug-in unit 20 may be matched with the third conductive element 119 through the matching opening 101 to compress the reset element so as to move the third conductive element 119 toward a direction approaching the first conductive wire 116, so that the third conductive element 119 is separated from the second conductive wire 117, that is, the closed loop is converted into an open circuit, so that the power supply to the battery 1111 is disconnected, and thus, the energy saving effect of the battery 1111 is achieved. It can be seen that the opening and closing assembly 102 in the present embodiment is simple and reliable in structure, and can be flexibly switched between the first state and the second state by being engaged with or disengaged from the insert 20.

Correspondingly, the third conductive element 119 may also be connected to the second conductive wire 117 through a reset element, which will not be described herein.

In one embodiment, the end of the first wire 116 distal from the shutter assembly 102 may be defined as the positive end, and the end of the second wire 117 distal from the shutter assembly 102 may be defined as the negative end, for example, the positive end may be the positive spring 1161 and the negative end may be the negative spring 1171. The restoring member is, for example, a metal spring, which may be disposed at an end of the first wire 116 away from the positive electrode spring 1161, so that when the opening and closing assembly 102 is in the second state, the metal spring is pressed to an end of the second wire 117 away from the negative electrode spring 1171 by its own elastic force, so that the power supply circuit 11 formed by combining the metal spring, the first wire 116 and the second wire 117 is electrically connected with the battery 1111. And the metal spring is disconnected from the second wire 117 during the process of pushing the metal spring out of engagement with the second wire 117 when the insert 20 is inserted into the engagement opening 101. The end surface of the insert 20 abuts against the corresponding end surface of the metal spring or the end portion inserted into the mating opening 101 abuts against the side surface of the metal spring during the process of extruding the metal spring from the mating end portion of the second wire 117, which is not limited herein.

More specifically, in order to ensure that the opening and closing assembly 102 can stably maintain the first state, the plug 20 and the remote controller 10 can be in clamping fit, and when the plug 20 and the matching opening 101 are matched in place, the clamping connection between the plug 20 and the remote controller 10 is completed at this time, so that the plug 20 is prevented from being separated from the matching opening 101 under the action of the extrusion force with the initial state recovery caused by the extrusion of the metal spring from the plug 20 due to the side surface.

Preferably, if the opening and closing assembly 102 is in the first state, the insert 20 separates the opening and closing assembly 102; an adjusting interval for the opening and closing assembly 102 to move is formed between the first wire 116 and the second wire 117; the shutter assembly 102 includes, for example, a first conductive member 114, a second conductive member 115, and a reset member. The first conductive element 114 is connected to the first conductive wire 116 to form a pitch-adjusting end; the second conductive element 115 is connected to the second conductive wire 117 to form an end portion with an adjusted distance, and the second conductive element 115 is disposed opposite to the first conductive element 114; the reset element is arranged between the first conductive element 114 and the first wire 116 and/or between the second conductive element 115 and the second wire 117; wherein the reset element applies a pressing force that causes the first conductive element 114 and the second conductive element 115 to contact each other, and when the opening and closing assembly 102 is in the first state, the insert 20 is sandwiched between the first conductive element 114 and the second conductive element 115 to separate the two.

In one embodiment, the number of the reset elements may be two, and for convenience of understanding, the reset element connected between the first conductive wire 116 and the first conductive element 114 may be defined as a first reset element 112, and the reset element connected between the second conductive wire 117 and the second conductive element 115 may be defined as a second reset element 113. The first restoring member 112 applies an elastic force to the first conductive member 114 in a direction toward the second conductive member 115, whereas the second restoring member 113 applies an elastic force to the second conductive member 115 in a direction toward the first conductive member 114. Therefore, under the synergistic action of the elastic forces of the first reset element 112 and the second reset element 113, the first conductive element 114 and the second conductive element 115 can be tightly attached to each other, so that the stability of the opening and closing assembly 102 in the second state is improved, and the stability of the battery 1111 capable of supplying power to the remote controller 10 is ensured.

For example, the first conductive element 114 and the second conductive element 115 may be made of metal, and the specific structure is a metal sheet. Of course, the first conductive member 114 and the second conductive member 115 may be made of conductive materials such as graphite, and the specific structure is a graphite sheet.

Preferably, a flexible wire is connected between the first wire 116 and/or the second wire 117 and the shutter assembly 102; the opening and closing assembly 102 comprises two metal pieces which are oppositely arranged, and at least one of the two metal pieces is made of magnetic materials; when the insert 20 is inserted between two metal pieces to separate the two metal pieces, the opening and closing assembly 102 is in the first state.

In a specific example, the first conductive member 114 and the second conductive member 115 may be made of magnetic materials, and the ends of the first conductive member 114 and the second conductive member 115 close to each other are opposite, so that under the action of magnetic force of opposite attraction, the corresponding end surfaces of the first conductive member 114 and the second conductive member 115 are stably attached, stability of the power supply circuit 11 forming a loop electrically connected with the battery 1111 is ensured, and the battery 1111 can stably supply power to the remote controller 10.

In addition, in the process of transferring the first state to the second state, that is, in the process of making the insert 20 draw away from the mating opening 101, the unexpected occurrence that the first conductive element 114 and the second conductive element 115 cannot be mutually attached under the action of magnetic force due to the overlarge first distance formed by the cooperation of the insert 20 and the opening and closing assembly 102 under the action of the elastic force of the resetting element is avoided. That is, the elastic force applied by the reset element and making the first conductive element 114 and the second conductive element 115 approach each other combines the magnetic force that makes the first conductive element 114 and the second conductive element 115 approach each other, so that the stable adhesion of the first conductive element 114 and the second conductive element 115 to each other is ensured, the stability of the opening and closing assembly 102 for maintaining the second state is improved, and the use experience of a user is further improved.

Preferably, at least one end of the first conductive element 114 and the second conductive element 115, which are close to each other, is provided with a first guiding inclined surface 118, and the first guiding inclined surface 118 is opposite to the matching opening 101; and/or, the end of the insert 20 for mating with the opening and closing assembly 102 is provided with a second guiding ramp.

In connection with the operation of the insert 20 extending into the mating opening 101 to separate the first conductive member 114 and the second conductive member 115, it will be appreciated that the insert 20 has a thickness that results in the insert 20 abutting against the side of the first conductive member 114 and/or the second conductive member 115, and that a relatively large pushing force is required to separate the first conductive member 114 and the second conductive member 115 from each other, even when the insert 20 vertically abuts against the side of the first conductive member 114 and/or the second conductive member 115 to prevent the first conductive member 114 and the second conductive member 115 from being separated from each other. Thus, by providing the first guiding inclined surface 118 at the side of the first conductive element 114 and/or the second conductive element 115 close to the mating opening 101, the first conductive element 114 and the second conductive element 115 can be separated from each other more easily under the mating action of the insert 20 and the first guiding inclined surface 118. For example, the first guiding inclined surface 118 may be a flat surface or an arc surface, and of course, the second guiding inclined surface may be a flat surface or an arc surface adapted to the first guiding inclined surface 118.

Preferably, the remote control device 100 also includes a remote control base 30, for example. The remote control base 30 is provided with a mounting position for mounting the remote control 10, and the plug-in unit 20 is arranged at a position corresponding to the matching opening 101 of the mounting position. Specifically, the mounting location may be a mounting slot 31; through installing remote controller 10 to remote control base 30, play the fixed action to remote controller 10, combine the cooperation relation between plug-in components 20 and the installation position, when having ensured fixed mounting remote controller 10, realize the effect that battery 1111 was cut off the power supply to remote controller 10 for whole operation process is convenient reliable.

Further, the remote control 10 is slidably connected to the remote control base 30. By enabling the remote controller 10 to be in sliding fit with the remote control base 30, the unexpected situation that the plug-in structure is damaged due to the fact that the plug-in 20 is impacted by misplacement of the plug-in 20 and the matching opening 101 due to the fact that the remote controller 10 is not in place in the process of installing the remote controller 10 to the remote control base 30 is avoided.

The embodiment of the utility model also provides an electrical apparatus, which for example comprises the remote control device 100 and the electrical apparatus body provided by any of the above examples. Specifically, the remote control device 100 is connected with the electric appliance body in a remote control manner; wherein when the plug-in 20 is disengaged from the opening and closing assembly 102, the remote controller 10 is adjusted to control the appliance body.

The technical effects corresponding to the technical solutions in any of the foregoing embodiments in this embodiment are not repeated herein.

Although the present utility model is disclosed above, the present utility model is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model should be assessed accordingly to that of the appended claims.

Claims (10)

1. A remote control device for an electrical appliance, comprising:

the remote controller (10), a power supply circuit (11) forming a loop with a battery (1111) is arranged in the remote controller (10), the power supply circuit (11) is provided with an opening and closing component (102), and the opening and closing component (102) is arranged corresponding to a matching opening (101) of the remote controller (10);

an insert (20), the insert (20) being mated with the opening and closing assembly (102) through the mating opening (101);

wherein, when the plug-in (20) is matched with the opening and closing component (102), the opening and closing component (102) is in a first state to disconnect the power supply of the battery (1111) to the remote controller (10); when the plug-in (20) is separated from the opening and closing assembly (102), the opening and closing assembly (102) is in a second state so that the battery (1111) supplies power to the remote controller (10).

2. The remote control device of claim 1, wherein the remote control device comprises a remote control unit,

the power supply circuit (11) comprises an electric element (111), and the opening and closing assembly (102) is positioned between the electric element (111) and the battery (1111);

the power supply circuit (11) includes:

-a first wire (116), one end of the first wire (116) being intended to be connected to a respective end of the electricity-consuming element (111), the other end being intended to cooperate with the shutter assembly (102);

-a second wire (117), one end of the second wire (117) being intended to be connected to a respective end of the battery (1111), the other end being intended to cooperate with the shutter assembly (102);

wherein the shutter assembly (102) is separated from at least one of the first wire (116) and the second wire (117) when the shutter assembly (102) is in the first state, or the insert (20) separates the shutter assembly (102) when the shutter assembly (102) is in the first state.

3. The remote control device of claim 1, wherein the remote control device comprises a remote control unit,

the power supply circuit (11) comprises a plurality of batteries (1111) which are arranged in series, and the opening and closing component (102) is positioned between a first battery (1112) and a second battery (1113) which are connected in series in sequence in the plurality of batteries (1111);

the power supply circuit (11) includes:

a first wire (116), one end of the first wire (116) being adapted to be connected to a corresponding end of the first battery (1112), the other end being adapted to cooperate with the opening and closing assembly (102);

-a second wire (117), one end of the second wire (117) being adapted to be connected to a respective end of the second battery (1113), the other end being adapted to cooperate with the shutter assembly (102);

wherein the insert (20) separates the shutter assembly (102) when the shutter assembly (102) is in the first state, or wherein the shutter assembly (102) is separated from at least one of the first wire (116) and the second wire (117) when the shutter assembly (102) is in the first state.

4. A remote control device as claimed in claim 2 or 3, characterized in that,

-if the shutter assembly (102) is in the first state, the shutter assembly (102) is separated from at least one of the first wire (116) and the second wire (117);

an adjusting interval for the opening and closing assembly (102) to move is formed between the first lead (116) and the second lead (117); the opening and closing assembly (102) comprises:

a reset member connected to the first wire (116) or the second wire (117) to form the end of the adjustment pitch;

a third conductive element (119), the third conductive element (119) being located within the adjustment gap;

wherein the third conductive element (119) is connected to the first wire (116) through the reset element, and the reset element enables the third conductive element (119) to be in contact fit with the second wire (117); when the opening and closing assembly (102) is in the first state, the insert (20) separates the third conductive element (119) from the second wire (117); or, the third conductive element (119) is connected to the second wire (117) through the resetting element, and the resetting element enables the third conductive element (119) to be in contact fit with the first wire (116); the insert (20) separates the third conductive element (119) from the first wire (116) when the shutter assembly (102) is in the first state.

5. A remote control device according to claim 2 or 3, wherein the insert (20) separates the shutter assembly (102) if the shutter assembly (102) is in the first state; an adjusting interval for the opening and closing assembly (102) to move is formed between the first lead (116) and the second lead (117); the opening and closing assembly (102) comprises:

a first conductive member (114), the first conductive member (114) being connected to the first wire (116) to form the pitch-adjusted end;

a second conductive member (115), the second conductive member (115) being connected to the second wire (117) to form the end of the adjustment pitch, and the second conductive member (115) being disposed opposite to the first conductive member (114);

a reset element provided between the first conductive element (114) and the first wire (116) and/or between the second conductive element (115) and the second wire (117);

wherein the reset member applies a pressing force to make the first conductive member (114) and the second conductive member (115) contact each other, and when the opening and closing assembly (102) is in the first state, the insert (20) is sandwiched between the first conductive member (114) and the second conductive member (115) to separate them.

6. A remote control device as claimed in claim 2 or 3, characterized in that,

a flexible wire is connected between the first wire (116) and/or the second wire (117) and the opening and closing assembly (102);

the opening and closing assembly (102) comprises two metal pieces which are oppositely arranged, and at least one of the two metal pieces is made of a magnetic material;

wherein the opening and closing assembly (102) is in the first state when the insert (20) is inserted between the two metal pieces to separate the two metal pieces.

7. The remote control device of claim 5, wherein the remote control device comprises a remote control unit,

at least one end, close to each other, of the first conductive piece (114) and the second conductive piece (115) is provided with a first guiding inclined plane (118), and the first guiding inclined plane (118) is opposite to the matching opening (101);

and/or the insert (20) is provided with an insertion end for being inserted into the matching opening (101), and the insertion end is provided with a second guiding inclined plane for being matched with the opening and closing assembly (102).

8. The remote control device of claim 1, further comprising:

the remote control base (30), remote control base (30) are equipped with the installation position that is used for installing remote control (10), just plug-in components (20) are located the installation position corresponds the position of cooperation opening (101).

9. The remote control device of claim 8, wherein the remote control device comprises a remote control unit,

the remote control (10) is slidably connected to the remote control base (30).

10. An electrical device, comprising:

an electric appliance body;

the remote control device according to any one of claims 1-9, being remotely connected to the appliance body; wherein when the plug-in (20) is disengaged from the opening and closing assembly (102), the electrical appliance body is controlled by adjusting the remote control (10).