CN209991587U - Cabinet air conditioner, air conditioner remote controller and air conditioner - Google Patents

Abstract

The utility model provides a cabinet air conditioner, air conditioner remote controller and air conditioner relates to air conditioner technical field. The cabinet air conditioner comprises a cabinet body and a charging unit, wherein the cabinet body is provided with a fixed magnet and a charging terminal electrically connected with the charging unit, the fixed magnet is magnetically connected with the air conditioner remote controller, and the charging unit is used for charging the air conditioner remote controller when the air conditioner remote controller is electrically connected with the charging terminal. The remote controller of the air conditioner comprises a remote controller body and an electric power storage unit, wherein the remote controller body is provided with a connecting magnet and an electric power storage terminal electrically connected with the electric power storage unit, the connecting magnet is magnetically connected with the cabinet air conditioner, and the electric power storage unit is used for storing electric energy when the electric power storage terminal is electrically connected with the cabinet air conditioner. The air conditioner at least comprises one of the cabinet air conditioner and the air conditioner remote controller. The utility model provides a cabinet air conditioner, remote air conditioner ware and air conditioner can make remote air conditioner ware's battery used repeatedly, reduces the cost of changing the battery, also can avoid child to swallow the risk of battery.

Description

Cabinet air conditioner, air conditioner remote controller and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to cabinet air conditioner, air conditioner remote controller and air conditioner.

Background

At present, the mainstream air conditioner remote controllers are all dry batteries which provide working power supplies, the dry batteries cannot be recycled, and the dry batteries need to be replaced after being used for a period of time. Battery replacement requires additional costs and also pollutes the environment. In addition, because the battery needs easily to be dismantled and is convenient for change the battery, also cause certain influence for child's family, there is the risk that child swallows the battery by mistake.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a cabinet air conditioner, it can charge to outside chargeable equipment, for example charge to chargeable remote controller of air conditioner through this cabinet air conditioner, can make remote controller of air conditioner's battery used repeatedly, and then reduce the cost of changing the battery. Meanwhile, the risk that a child swallows the battery can be avoided. The utility model provides a cabinet air conditioner can increase cabinet air conditioner's practicality and convenience.

The cabinet air conditioner comprises a cabinet body and a charging unit arranged on the cabinet body, wherein the cabinet body is provided with a charging area, the cabinet body is provided with a fixed magnet and a charging terminal electrically connected with the charging unit in the charging area, the fixed magnet is used for being magnetically connected with an air conditioner remote controller, the charging terminal is used for being electrically connected with the air conditioner remote controller in a pluggable mode, and the charging unit is used for charging the air conditioner remote controller when the air conditioner remote controller is electrically connected with the charging terminal.

The utility model provides a cabinet air conditioner: the charging area is used for being matched with an air conditioner remote controller. The fixed magnet is used for being connected with air conditioner remote controller magnetism to fix the air conditioner remote controller on the cabinet-type air conditioner body, can guarantee the stability of connection and the convenience of operation through magnetic connection. The charging terminal is used for being electrically connected with the air conditioner remote controller to charge the air conditioner remote controller, and the stability of the air conditioner remote controller in the charging process can be ensured through the contact type electric connection of the charging terminal and the air conditioner remote controller. This cabinet air conditioner can charge to air conditioner remote controller to make air conditioner remote controller's battery used repeatedly, and then reduce the cost of changing the battery. Meanwhile, the risk that a child swallows the battery can be avoided.

Further, above-mentioned fixed magnet is including all setting up first magnet and the second magnet in the region of charging, and the magnetic pole of first magnet is different with the magnetic pole of second magnet, and first magnet and second magnet all are used for being connected with air conditioner remote controller magnetism.

Further, the first magnet comprises a first magnetic fixing part and a second magnetic fixing part which are both arranged in the charging area, and the first magnetic fixing part and the second magnetic fixing part are both used for being magnetically connected with the air conditioner remote controller.

Furthermore, the first magnetic fixing part and the second magnetic fixing part form an included angle; and/or the first magnetic fixing part and the second magnetic fixing part are arranged at intervals.

Further, the second magnet comprises a third magnetic fixing part and a fourth magnetic fixing part which are arranged in the charging area, and the third magnetic fixing part and the fourth magnetic fixing part are both used for being magnetically connected with the air conditioner remote controller.

Furthermore, the first magnetic fixing part and the third magnetic fixing part are opposite in position and opposite in magnetic pole, and the second magnetic fixing part and the fourth magnetic fixing part are opposite in position and opposite in magnetic pole.

Further, the charging unit comprises a charging controller, a power supply, a detection circuit and a charging control circuit, wherein the detection circuit and the charging control circuit are electrically connected with the charging controller, the charging terminal comprises a first terminal and a second terminal, the detection circuit is electrically connected with the first terminal, the power supply is electrically connected with the second terminal through the charging control circuit, the first terminal and the second terminal are both used for being connected with the air conditioner remote controller in a pluggable mode, the detection circuit is used for detecting a contact signal of the first terminal and transmitting the contact signal to the charging controller, the charging controller is used for controlling the charging control circuit to be connected or disconnected according to the contact signal, and the power supply is used for charging the air conditioner remote controller when the charging control circuit is connected.

The utility model also provides an air conditioner remote controller, its battery can used repeatedly, can reduce the cost of changing the battery. Meanwhile, the risk that a child swallows the battery can be avoided.

The remote controller comprises a remote controller body and an electric power storage unit arranged on the remote controller body, wherein the remote controller body is provided with a connecting magnet and an electric power storage terminal electrically connected with the electric power storage unit, the connecting magnet is used for being magnetically connected with a cabinet air conditioner, the electric power storage terminal is used for being connected with the cabinet air conditioner in a pluggable mode, and the electric power storage unit is used for storing electric energy when the electric power storage terminal is electrically connected with the cabinet air conditioner.

The utility model provides an air conditioner remote controller: the connecting magnet is used for being magnetically connected with the cabinet air conditioner to fix the air conditioner remote controller on the cabinet air conditioner, and the stability of connection and the convenience of operation can be guaranteed through magnetic connection. The electric power storage terminal is used for being electrically connected with the cabinet air conditioner to charge the air conditioner remote controller, and the stability of the air conditioner remote controller in the charging process can be guaranteed through the electric power storage terminal and the electric connection of the cabinet air conditioner in a contact mode. This remote controller of air conditioner can charge through the cabinet air conditioner to make remote controller of air conditioner's battery used repeatedly, and then reduce the cost of changing the battery. Meanwhile, the risk that a child swallows the battery can be avoided.

Further, above-mentioned connection magnet is including all setting up in the first magnetic part and the second magnetic part of remote controller body, and the magnetic pole of first magnetic part is different with the magnetic pole of second magnetic part, and first magnetic part and second magnetic part all are used for being connected with cabinet air conditioner magnetism.

Further, above-mentioned first magnetism spare is including all setting up in the first magnetism connecting portion and the second magnetism connecting portion of remote controller body, and first magnetism connecting portion and second magnetism connecting portion all are used for being connected with cabinet air conditioner magnetism.

Furthermore, the first magnetic connecting part and the second magnetic connecting part form an included angle; and/or the first magnetic connecting part and the second magnetic connecting part are arranged at intervals.

Further, the second magnetic part comprises a third magnetic connecting part and a fourth magnetic connecting part which are arranged on the remote controller body, and the third magnetic connecting part and the fourth magnetic connecting part are both used for being magnetically connected with the cabinet air conditioner.

Furthermore, the first magnetic connecting part and the third magnetic connecting part are opposite in position and opposite in magnetic pole, and the second magnetic connecting part and the fourth magnetic connecting part are opposite in position and opposite in magnetic pole.

Further, the remote controller body is provided with a power storage region, and the connecting magnet and the power storage terminal are both provided in the power storage region.

Furthermore, the electric power storage unit comprises an electric power storage controller, a storage battery and an electric power storage control circuit, the electric power storage control circuit is electrically connected with the electric power storage controller, the storage battery is electrically connected with the electric power storage control circuit, the electric power storage terminal comprises a fourth terminal and a fifth terminal, the fourth terminal and the fifth terminal are connected with the cabinet air conditioner in a pluggable mode, the fourth terminal is grounded, and the fifth terminal is electrically connected with the electric power storage control circuit.

The utility model also provides an air conditioner, it can make the battery used repeatedly of air conditioner remote controller, and then reduces the cost of changing the battery. Meanwhile, the risk that a child swallows the battery can be avoided.

The air conditioner comprises the cabinet air conditioner; and/or the air conditioner comprises the air conditioner remote controller. Foretell cabinet air conditioner includes the cabinet-type air conditioner body and sets up in the charging unit of cabinet-type air conditioner body, and the cabinet-type air conditioner body is provided with the charging area, and the cabinet-type air conditioner body is provided with fixed magnet and the charging terminal of being connected with the charging unit electricity in the charging area, and fixed magnet is used for being connected with air conditioner remote controller magnetism, and the charging terminal is used for being connected with air conditioner remote controller plug ground electricity, and the charging unit is used for charging air conditioner remote controller when air conditioner remote controller is connected with the charging terminal. The remote controller of the air conditioner comprises a remote controller body and an electric power storage unit, wherein the remote controller body is provided with a connecting magnet and an electric power storage terminal electrically connected with the electric power storage unit, the connecting magnet is magnetically connected with the cabinet air conditioner, the electric power storage terminal is connected with the cabinet air conditioner in a pluggable mode, and the electric power storage unit is used for storing electric energy when the electric power storage terminal is electrically connected with the cabinet air conditioner.

The utility model provides an air conditioner have with above-mentioned cabinet air conditioner and above-mentioned remote controller for air conditioner's characteristics, when this air conditioner had above-mentioned cabinet air conditioner and above-mentioned remote controller for air conditioner simultaneously, fixed magnet was connected with being connected magnet magnetism to fix the remote controller body on the cabinet air conditioner body, the mode of connecting through magnetism can guarantee the stability of connecting and the convenience of operation. The electric storage terminal is electrically connected with the charging terminal while the fixed magnet and the connecting magnet are connected, the electric storage unit is charged through the charging unit, and the stability of the air conditioner remote controller in the charging process can be ensured through the contact-type electric connection of the electric storage terminal and the fixed terminal. The air conditioner can charge the air conditioner remote controller through the cabinet air conditioner so as to enable the battery of the air conditioner remote controller to be reused, and further reduce the cost of replacing the battery. Meanwhile, the risk that a child swallows the battery can be avoided.

Drawings

Fig. 1 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a cabinet air conditioner according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an air conditioner remote controller according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a first magnet and a second magnet according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a first magnet and a second magnet according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a first magnet and a second magnet according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a first magnet and a second magnet according to an embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a charging unit according to an embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a power storage unit according to an embodiment of the present invention.

Description of reference numerals:

10-an air conditioner; 100-cabinet air-conditioner; 110-cabinet body; 112-a charging area; 114-a charging terminal; 1141 — a first terminal; 1142-a second terminal; 1143-a third terminal; 116-a stationary magnet; 1161-a first magnet; 1162-a second magnet; 1163-a first magnetic fixing part; 1164-a second magnetic fixing part; 1165-a third magnetic fixing part; 1166-a fourth magnetic fixing part; 120-a charging unit; 121-a charge controller; 122-a power supply; 123-a detection circuit; 124-charge control circuit; 200-air conditioner remote controller; 210-a remote control body; 211-electric storage region; 212-storage terminals; 2121-fourth terminal; 2122-fifth terminal; 2123-sixth terminal; 214-a connecting magnet; 2141-a first magnetic element; 2142-a second magnetic element; 2143-a first magnetic connecting portion; 2144-a second magnetic connecting portion; 2145-a third magnetic connection; 2146-a fourth magnetic connection; 220-an electric storage unit; 221-a storage controller; 223-a storage battery; 225-accumulation control circuit.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1, the present embodiment provides an air conditioner 10, which includes a cabinet air conditioner 100 and a remote controller 200 for controlling the working states of an outdoor unit and an indoor unit. The air conditioner 10 may be a split type air conditioner or an integrated air conditioner 10. For a split type air conditioner, the air conditioner 10 includes an indoor unit, an outdoor unit, and a remote controller, and the cabinet air conditioner 100 may be understood as an indoor unit.

Referring to fig. 2 and 8, in the present embodiment, the cabinet air conditioner 100 includes a cabinet body 110 and a charging unit 120 disposed on the cabinet body 110, the cabinet body 110 is disposed with a charging area 112, the cabinet body 110 is disposed with a fixed magnet 116 and a charging terminal 114 electrically connected to the charging unit 120 in the charging area 112, the fixed magnet 116 is configured to be magnetically connected to the remote controller 200, the charging terminal 114 is configured to be electrically connected to the remote controller 200 in a pluggable manner, and the charging unit 120 is configured to charge the remote controller 200 when the remote controller 200 is electrically connected to the charging terminal 114.

The cabinet air conditioner 100 provided in this embodiment: the charging area 112 is used to cooperate with the remote controller 200 of the air conditioner. The fixed magnet 116 is used for being magnetically connected with the air conditioner remote controller 200 to fix the air conditioner remote controller 200 on the cabinet body 110, and the stability of connection and the convenience of operation can be guaranteed through magnetic connection. The charging terminal 114 is used for being electrically connected with the remote controller 200 to charge the remote controller 200, and the charging terminal 114 is electrically connected with the remote controller 200 in a contact manner to ensure the stability of the remote controller 200 in the charging process. The cabinet air conditioner 100 can charge the air conditioner remote controller 200, so that the battery of the air conditioner remote controller 200 can be reused, and the cost for replacing the battery is further reduced. Meanwhile, the risk that a child swallows the battery can be avoided.

It should be noted that the charging area 112 provided on the cabinet body 110 may be provided on a front panel, a rear panel of the cabinet body 110, or on a top portion of the cabinet body 110, and may be provided on an upper portion, a middle portion, or a lower portion of the front panel or the rear panel. The charging area 112 may be provided in the form of a protrusion or a groove. Further, the charging area 112 may be configured to cooperate with the remote controller 200 so as to place the remote controller 200 in the charging area 112 and charge the remote controller 200. For example, the charging area 112 is provided in the form of a recess in which the remote controller 200 of the air conditioner is accommodated; the remote controller 200 may also be provided with a power storage region 211, the power storage region 211 can be opposite to and fit with the charging region 112, the charging region 112 is provided in a convex form, and the power storage region 211 on the remote controller 200 is provided with a groove fitted with the convex.

Referring to fig. 3 and 9, in the present embodiment, the remote controller 200 includes a remote controller body 210 and an electricity storage unit 220, the remote controller body 210 is provided with a connecting magnet 214 and an electricity storage terminal 212 electrically connected to the electricity storage unit 220, the connecting magnet 214 is used for magnetically connecting to the cabinet air conditioner 100, the electricity storage terminal 212 is used for being connected to the cabinet air conditioner 100 in a pluggable manner, and the electricity storage unit 220 is used for storing electric energy when the electricity storage terminal 212 is electrically connected to the cabinet air conditioner 100.

The air conditioner remote controller 200 provided by the embodiment: the connecting magnet 214 is used for being magnetically connected with the cabinet air conditioner 100 to fix the remote controller 200 on the cabinet air conditioner 100, and the stability of connection and convenience of operation can be ensured through magnetic connection. The storage terminal 212 is used for being electrically connected with the cabinet air conditioner 100 to charge the air conditioner remote controller 200, and the stability of the air conditioner remote controller 200 in the charging process can be ensured through the contact-type electrical connection of the storage terminal 212 and the cabinet air conditioner 100. The air conditioner remote controller 200 can be charged through the cabinet air conditioner 100, so that the battery of the air conditioner remote controller 200 can be reused, and the cost for replacing the battery is further reduced. Meanwhile, the risk that a child swallows the battery can be avoided.

It is understood that the electric storage unit 220 is electrically connected to the charging terminal 114, the charging unit 120 is electrically connected to the charging terminal 114, and when the charging terminal 114 and the electric storage terminal 212 are connected by being inserted and removed, the charging terminal 114 and the electric storage terminal 212 are electrically connected, so that the charging unit 120 can charge the electric storage unit 220.

It is also understood that in the present embodiment, the air conditioner remote controller 200 and the cabinet body 110 are magnetically connected by the connecting magnet 214 and the fixed magnet 116, and the electricity storage terminal 212 and the charging terminal 114 are electrically connected when the connecting magnet 214 and the fixed magnet 116 are connected. The magnetic connection between the connecting magnet 214 and the fixing magnet 116 can conveniently fix the air conditioner remote controller 200 on the cabinet body 110, and can connect the storage terminal 212 and the charging terminal 114 while magnetically connecting the two, so that the air conditioner remote controller has the characteristics of convenience in operation, reliability in connection and stability in charging. Meanwhile, the air conditioner remote controller 200 can be fixed on the cabinet body 110 through the connection between the connecting magnet 214 and the fixing magnet 116, so that the air conditioner remote controller 200 is orderly placed and has better aesthetic degree, the problem of loss of the air conditioner remote controller 200 due to random placement is avoided, and the convenient use of the air conditioner remote controller 200 is also provided.

Referring to fig. 4, in the present embodiment, the fixed magnet 116 includes a first magnet 1161 and a second magnet 1162 both disposed in the charging area 112, a magnetic pole of the first magnet 1161 is different from a magnetic pole of the second magnet 1162, and both the first magnet 1161 and the second magnet 1162 are configured to be magnetically connected to the air conditioner remote controller 200.

That is, at least one magnetic member magnetically connected to the first magnet 1161 or the second magnet 1162 is disposed on the remote controller 200. Since the first and second magnets 1161 and 1162 have different magnetic poles, the magnetic member may be magnetically connected to only one of the first and second magnets 1161 and 1162 if the magnetic pole of the magnetic member is fixed and unique. When the magnetic pole of the magnetic member is not changed, the magnetic member is always magnetically connected with one of the first magnet 1161 and the second magnet 1162, that is, the connection position of the remote controller 200 and the cabinet body 110 is substantially fixed, so that the power storage terminal 212 and the charging terminal 114 can be connected while being magnetically connected, the charging steps are reduced, and the charging stability is ensured. For example, the first magnet 1161 has an N-pole (north pole), the second magnet 1162 has an S-pole (south pole), and when the magnetic member disposed on the remote controller 200 has an S-pole, the first magnet 1161 having an N-pole is magnetically connected (opposite attraction) to the second magnet 1162 having an S-pole, but is not magnetically connected (like repulsion); when the magnetic member is N-pole, it is magnetically connected to the second magnet 1162 having S-pole, but not to the first magnet 1161 having N-pole.

It should be noted that, in the embodiment where the charging region 112 and the power storage region 211 are concave or convex, the magnetic connection manner described above can be combined to more precisely ensure the connection position between the remote controller 200 and the cabinet air conditioner 100, so as to further ensure the stability of the connection.

Referring to fig. 3 and 4, in the present embodiment, the connecting magnet 214 includes a first magnetic member 2141 and a second magnetic member 2142 both disposed on the remote controller body 210, a magnetic pole of the first magnetic member 2141 is different from a magnetic pole of the second magnetic member 2142, and both the first magnetic member 2141 and the second magnetic member 2142 are configured to be magnetically connected to the cabinet air conditioner 100.

Optionally, the first magnetic member 2141 is magnetically connected to the first magnetic member 1161, and the second magnetic member 2142 is magnetically connected to the second magnetic member 1162, since the magnetic poles of the first magnetic member 1161 and the second magnetic member 1162 are different, the magnetic poles of the first magnetic member 2141 and the second magnetic member 2142 are also different, when the remote controller 200 is connected to the cabinet air conditioner 10, the first magnetic member 1161 is always magnetically connected to the first magnetic member 2141, and the second magnetic member 1162 is always magnetically connected to the second magnetic member 2142, so that the position of the remote controller 200 when connected to the cabinet air conditioner 100 is fixed, thereby ensuring that the power storage terminal 212 and the charging terminal 114 are connected to the power storage terminal 212 and the charging terminal 114 while the first magnetic member 1161 is magnetically connected to the first magnetic member 2141, and the second magnetic member 1162 is magnetically connected to the second magnetic member 2142. The magnetic poles of the first magnet 1161 and the second magnet 1162 are different, and the magnetic poles of the first magnetic member 2141 and the second magnetic member 2142 are different, so that the operation steps of charging the air conditioner remote controller 200 can be reduced, the stable connection between the air conditioner remote controller 200 and the cabinet air conditioner 100 can be ensured, and the charging stability can be ensured.

For example, the following steps are carried out: if the first magnetic body 1161 is N-pole, the second magnetic body 1162 is S-pole, the first magnetic member 2141 connected to the first magnetic body 1161 is S-pole, and the second magnetic member 2142 connected to the second magnetic body 1162 is N-pole, since the magnetic pole of the first magnetic member 2141 is S-pole, the first magnetic member 2141 can only be magnetically connected to the first magnetic body 1161 having N-pole, but not to the second magnetic body 1162 having S-pole. Similarly, for the second magnetic member 2142 with N-pole, it can only be magnetically connected to the second magnet 1162 with S-pole, but not to the first magnetic member 2141 with N-pole. The different magnetic poles of the first and second magnets 1161 and 1162 and the different magnetic poles of the first and second magnetic members 2141 and 2142 can define the connection position of the air conditioner remote controller 200.

Alternatively, each of the first and second magnets 1161 and 1162 may have a long bar shape (see fig. 4), an L shape (see fig. 5), a U shape, or the like. The shape of the first magnetic member 2141 magnetically coupled to the first magnet 1161 may be substantially the same as the first magnet 1161, and the shape of the second magnetic member 2142 magnetically coupled to the second magnet 1162 may be substantially the same as the second magnet 1162. The shapes of the first magnet 1161 and the first magnetic member 2141 are substantially the same, which can ensure the stability of the magnetic connection between the first magnet 1161 and the first magnetic member 2141, and can also improve the utilization rate of the magnetic material. The substantially same shape of the second magnet 1162 and the second magnetic member 2142 can also produce similar beneficial effects to those when the first magnet 1161 and the first magnetic member 2141 are configured in the same shape, that is, the connection reliability between the first magnet 1161 and the second magnetic member 2141 is ensured, and the utilization rate of the magnetic material is improved.

In addition, it should be noted that the number of the first magnets 1161 and the second magnets 1162 may be plural, and a plurality of the first magnets 1161 may be arranged in sequence, or may be arranged to be staggered with respect to the second magnets 1162. Accordingly, the first and second magnetic members 2141 and 2142 may be disposed in a corresponding manner to the first and second magnets 1161 and 1162, respectively.

Referring to fig. 2, fig. 6 and fig. 7, optionally, the first magnet 1161 includes a first magnetic fixing portion 1163 and a second magnetic fixing portion 1164 both disposed in the charging area 112, and both the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 are configured to be magnetically connected with the air conditioner remote controller 200. The magnetic poles of the first and second magnetic fixing portions 1163 and 1164 may be the same or different.

Referring to fig. 3, optionally, the first magnetic member 2141 includes a first magnetic connecting portion 2143 and a second magnetic connecting portion 2144 both disposed on the remote controller body 210, and both the first magnetic connecting portion 2143 and the second magnetic connecting portion 2144 are configured to be magnetically connected to the cabinet air conditioner 100. The magnetic poles of the first magnetic connecting portion 2143 and the second magnetic connecting portion 2144 may be the same or different.

Optionally, the first magnetic fixing portion 1163 is magnetically connected to the first magnetic connecting portion 2143, and the second magnetic fixing portion 1164 is magnetically connected to the second magnetic connecting portion 2144. When the magnetic poles of the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 are the same, the magnetic poles of the first magnetic connecting portion 2143 and the second magnetic connecting portion 2144 are the same; when the first and second magnetic fixing portions 1163 and 1164 have different magnetic poles, the first and second magnetic connecting portions 2143 and 2144 have different magnetic poles.

Optionally, the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 are disposed at an included angle. Correspondingly, an included angle may also be formed between the first magnetic connecting portion 2143 and the second magnetic connecting portion 2144, and the included angle formed between the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 is substantially the same as the included angle formed between the first magnetic connecting portion 2143 and the second magnetic connecting portion 2144.

It is understood that the first and second magnetic fixing portions 1163 and 1164 may be substantially L-shaped when they are disposed at an included angle. For the charging area 112 having a right-angled side, the first and second magnetic fixing parts 1163 and 1164 may be disposed at two adjacent sides at a right angle, respectively, and the first and second magnetic fixing parts 1163 and 1164 are perpendicular to each other.

Alternatively, the first and second magnetic fixing parts 1163 and 1164 may be disposed at and extend along an edge of the charging region 112. The charging area 112 may be a variety of shapes: the charging area 112 may be rectangular, in which case the first magnetic fixing part 1163 and the second magnetic fixing part 1164 are disposed at a right angle; the charging area 112 may have a diamond shape, in which the angle between the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 is substantially the same as the angle formed by two adjacent sides of the diamond shape; the charging area 112 may also be circular or oval, in which case, the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 may be straight and long, or may also be arc-shaped similar to the edge of the charging area 112. Of course, the charging area 112 may have other shapes, and the first and second magnetic fixing portions 1163 and 1164 are disposed at the edge of the charging area 112.

Optionally, the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 are disposed at a distance. Accordingly, the first magnetic connecting portion 2143 and the second magnetic connecting portion 2144 may be disposed at an interval, and the interval between the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 is substantially the same as the interval between the first magnetic connecting portion 2143 and the second magnetic connecting portion 2144.

Note that, the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 have the same magnetic pole and are disposed at intervals, and the first magnetic connecting portion 2143 and the second magnetic connecting portion 2144 may not be disposed at intervals; on the contrary, when the first magnetic connecting portion 2143 and the second magnetic connecting portion 2144 have the same magnetic pole and are spaced apart from each other, the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 may not have a space therebetween.

Optionally, the second magnet 1162 includes a third magnetic fixing portion 1165 and a fourth magnetic fixing portion 1166 both disposed in the charging area 112, and the third magnetic fixing portion 1165 and the fourth magnetic fixing portion 1166 are both configured to be magnetically connected with the air conditioner remote controller 200. Correspondingly, the second magnetic member 2142 includes a third magnetic connecting portion 2145 and a fourth magnetic connecting portion 2146 both disposed on the remote controller body 210, and the third magnetic connecting portion 2145 and the fourth magnetic connecting portion 2146 are both configured to be magnetically connected to the cabinet air conditioner 100.

Further, the third magnetic fixing portion 1165 is magnetically connected to the third magnetic connecting portion 2145, and the fourth magnetic fixing portion 1166 is magnetically connected to the fourth magnetic connecting portion 2146, that is, the third magnetic fixing portion 1165 and the third magnetic connecting portion 2145 have opposite magnetic poles, and the fourth magnetic fixing portion 1166 and the fourth magnetic connecting portion 2146 have opposite magnetic poles.

It is understood that the third magnetic fixing portion 1165 may be disposed with reference to the first magnetic fixing portion 1163, the fourth magnetic fixing portion 1166 may be disposed with reference to the second magnetic fixing portion 1164, and accordingly, the third magnetic connecting portion 2145 may be disposed with reference to the first magnetic connecting portion 2143, and the fourth magnetic connecting portion 2146 may be disposed with reference to the second magnetic connecting portion 2144. That is, the third magnetic fixing portion 1165 may be disposed at an angle, an interval, or an angle and an interval with the fourth magnetic fixing portion 1166, and accordingly, the third magnetic connecting portion 2145 is disposed at an angle, an interval, or an angle and an interval with the fourth magnetic connecting portion 2146. The included angle formed by the third magnetic fixing portion 1165 and the fourth magnetic fixing portion 1166 is substantially the same as the included angle formed by the third magnetic connecting portion 2145 and the fourth magnetic connecting portion 2146, and the distance between the first magnetic fixing portion and the second magnetic fixing portion is substantially the same. An included angle between the third magnetic fixing portion 1165 and the fourth magnetic fixing portion 1166 and an included angle between the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 may not be limited, for example, when the included angle between the third magnetic fixing portion 1165 and the fourth magnetic fixing portion 1166 is 45 ° (celsius), the included angle between the first magnetic fixing portion 1163 and the second magnetic fixing portion 1164 may not be limited by 45 °, for example, the included angle may be 60 °, 90 °, and the like; on the contrary, when the included angle formed by the first magnetic fixing part 1163 and the second magnetic fixing part 1164 is determined, the included angle formed by the third magnetic fixing part 1165 and the fourth magnetic fixing part 1166 is not limited by the determined included angle. Likewise, the distance between the third magnetic fixing part 1165 and the fourth magnetic fixing part 1166 and the distance between the first magnetic fixing part 1163 and the second magnetic fixing part 1164 may not be limited, for example, when the distance between the third magnetic fixing part 1165 and the fourth magnetic fixing part 1166 is 2mm (millimeter), the distance between the first magnetic fixing part 1163 and the second magnetic fixing part 1164 may not be limited to the above 2mm, for example, the distance may be 1.5mm, 2.5mm, and the like; in contrast, when the spaced distance of the first and second magnetic fixing parts 1163 and 1164 is determined, the spaced distance of the third and fourth magnetic fixing parts 1165 and 1166 is not limited by the determined spaced distance.

Alternatively, the first magnetic fixing portion 1163 and the third magnetic fixing portion 1165 are opposite in position and opposite in magnetic polarity, and the second magnetic fixing portion 1164 and the fourth magnetic fixing portion 1166 are opposite in position and opposite in magnetic polarity. Accordingly, the first magnetic connecting portion 2143 and the third magnetic connecting portion 2145 are opposite in position and opposite in magnetic polarity, and the second magnetic connecting portion 2144 and the fourth magnetic connecting portion 2146 are opposite in position and opposite in magnetic polarity.

Referring to fig. 2 and 3, further, the magnetic poles of the first magnetic fixing portion 1163 are opposite to the magnetic poles of the second magnetic fixing portion 1164 and the third magnetic fixing portion 1165, and the magnetic poles of the first magnetic connecting portion 2143 are opposite to the magnetic poles of the second magnetic connecting portion 2144 and the third magnetic connecting portion 2145, so that the remote controller 200 has a fool-proof function and can be automatically aligned, thereby further ensuring the position of the remote controller 200 is fixed when connected to the cabinet air conditioner 100 and ensuring the connection stability.

For example, the following steps are carried out: the magnetic pole of the first magnetic fixing portion 1163 is an S pole, and the magnetic pole of the first magnetic connecting portion 2143 is an N pole correspondingly; the magnetic pole of the second magnetic fixing portion 1164 is opposite to the magnetic pole of the first magnetic fixing portion 1163 and is an N pole, and the magnetic pole of the second magnetic connecting portion 2144 is an S pole; the magnetic pole of the third magnetic fixing portion 1165 is opposite to the magnetic pole of the first magnetic fixing portion 1163 and is an N pole, and the magnetic pole of the third magnetic connecting portion 2145 is an S pole correspondingly; the magnetic pole of the fourth magnetic fixing portion 1166 is opposite to the magnetic pole of the second magnetic fixing portion 1164 and is S-pole, and the magnetic pole of the fourth magnetic connecting portion 2146 is N-pole accordingly.

Referring to fig. 8, optionally, the charging unit 120 includes a charging controller 121, a power supply 122, a detection circuit 123 and a charging control circuit 124, the detection circuit 123 and the charging control circuit 124 are both electrically connected to the charging controller 121, the charging terminal 114 includes a first terminal 1141 and a second terminal 1142, the detection circuit 123 is electrically connected to the first terminal 1141, the power supply 122 is electrically connected to the second terminal 1142 through the charging control circuit 124, the first terminal 1141 and the second terminal 1142 are both configured to be pluggable to the remote controller 200, the detection circuit 123 is configured to detect a contact signal of the first terminal 1141 and transmit the contact signal to the charging controller 121, the charging controller 121 is configured to control the charging control circuit 124 to be turned on or off according to the contact signal, and the power supply 122 is configured to charge the remote controller 200 when the charging control circuit 124 is turned on.

It should be noted that the storage terminal 212 of the remote controller 200 of the air conditioner is connected to the charging terminal 114 disposed on the cabinet body 110 in a contact manner by plugging, and the contact signal is used to represent a contact state between the storage terminal 212 and the charging terminal 114, when the contact signal represents that the storage terminal 212 is in contact with the charging terminal 114, the charging controller 121 controls the charging control circuit 124 to be on, and when the contact signal represents that the storage terminal 212 is not in contact with the charging terminal 114, the charging controller 121 controls the charging control circuit 124 to be off. The charge control circuit 124 is normally open, and when the charge terminal 212 contacts the charge terminal 114, the charge controller 121 controls the charge control circuit 124 to be on.

That is, when the storage terminal 212 is in contact with the charging terminal 114, for example, when the remote controller 200 is disposed on the cabinet body 110 via the connecting magnet 214 and the fixing magnet 116, the charging control circuit 124 conducts the electrical connection between the battery and the second terminal 1142, and the battery charges the remote controller 200; when the storage terminal 212 is not in contact with the charging terminal 114, for example, when the air conditioner remote controller 200 is removed from the cabinet body 110, the charging control circuit 124 disconnects the electrical connection between the battery and the second terminal 1142, so that the second terminal 1142 is not charged, thereby ensuring the charging and storage safety.

Optionally, the charging terminal 114 may further include a third terminal 1143 for grounding.

Referring to fig. 9, in the present embodiment, the power storage unit 220 includes a power storage controller 221, a battery 223 and a power storage control circuit 225, the power storage control circuit 225 is electrically connected to the power storage control, and the battery 223 is electrically connected to the power storage control circuit 225. The storage terminal 212 includes a fourth terminal 2121, a fifth terminal 2122, and a sixth terminal 2123, where the fourth terminal 2121 is connected to the first terminal 1141, the fifth terminal 2122 is connected to the second terminal 1142, the sixth terminal 2123 is connected to the third terminal 1143, and the fifth terminal 2122 is electrically connected to the storage control circuit 225. The fourth terminal 2121 and the sixth terminal 2123 are grounded.

When the connecting magnet 214 is magnetically connected to the fixed magnet 116, the fourth terminal 2121 contacts the first terminal 1141, the fifth terminal 2122 contacts the second terminal 1142, and the sixth terminal 2123 contacts the third terminal 1143. When the detection circuit 123 detects that the levels of the first terminal 1141 and the fourth terminal 2121 change from high to low, it is determined that the remote controller contact is detected; at this time, the charge controller 121 controls the charge control circuit 124 to be turned on to charge the secondary battery 223 by the power supply 122.

The storage controller 221 may further be configured to detect whether the storage battery 223 is fully charged, and when it is detected that the charging is completed, the storage controller 221 may control the storage control circuit 225 to disconnect the electrical connection between the fifth terminal 2122 and the storage battery 223, so as to avoid a safety hazard caused by the power supply 122 continuing to charge the storage battery 223 after the storage battery 223 is fully charged. The storage control circuit 225 is normally closed, and when the charging of the battery 223 is completed, the storage controller 221 controls the storage control circuit 225 to be turned off.

That is, the charging unit 120 and the power storage unit 220 can charge the air conditioner remote controller 200 after the air conditioner remote controller 200 is adhered, and can disconnect the power supply 122 after the air conditioner remote controller 200 leaves the cabinet body 110, so that the air conditioner remote controller has the characteristics of safety and reliability. Meanwhile, after the storage battery 223 is charged, the power supply 122 is disconnected from the storage battery 223, so that the charging safety of the storage battery 223 is ensured; at this time, the air conditioner remote controller 200 and the cabinet body 110 are still kept in a suction state, and the appearance is also ensured.

Referring to fig. 1 to 9, the air conditioner 10 has similar advantages to the cabinet air conditioner 100 when the cabinet air conditioner 100 is included, and has similar advantages to the cabinet air conditioner 200 when the cabinet air conditioner 200 is included. In this embodiment, the air conditioner 10 includes the cabinet air conditioner 100 and the remote air conditioner controller 200 at the same time: the fixed magnet 116 is magnetically connected with the connecting magnet 214 to fix the remote controller body 210 on the cabinet body 110, and the stability of connection and the convenience of operation can be ensured through the magnetic connection mode. The storage terminal 212 is electrically connected to the charging terminal 114 while the fixed magnet 116 and the connecting magnet 214 are connected, the storage unit 220 has been charged by the charging unit 120, and the stability of the remote controller 200 during charging can be ensured by the electrical connection of the storage terminal to the fixed terminal in contact. The air conditioner 10 can charge the air conditioner remote controller 200 through the cabinet air conditioner 100, so that the battery of the air conditioner remote controller 200 can be reused, and the cost for replacing the battery is reduced. Meanwhile, the risk that a child swallows the battery can be avoided.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (16)

1. The utility model provides a cabinet air conditioner, its characterized in that, including cabinet body (110) with set up in charging unit (120) of cabinet body (110), cabinet body (110) is provided with charging area (112), cabinet body (110) is in charging area (112) are provided with fixed magnet (116) and with charging terminal (114) that charging unit (120) electricity is connected, fixed magnet (116) are used for being connected with air conditioner remote controller (200) magnetism, charging terminal (114) be used for with air conditioner remote controller (200) pluggable ground electricity is connected, charging unit (120) are used for air conditioner remote controller (200) with charging terminal (114) electricity is connected when to air conditioner remote controller (200) charge.

2. The cabinet air conditioner of claim 1, wherein the fixed magnet (116) includes a first magnet (1161) and a second magnet (1162) both disposed in the charging area (112), the first magnet (1161) having a different magnetic pole than the second magnet (1162), the first magnet (1161) and the second magnet (1162) both being configured to magnetically connect with the remote air conditioner controller (200).

3. The cabinet air conditioner according to claim 2, wherein the first magnet (1161) includes a first magnetic fixing portion (1163) and a second magnetic fixing portion (1164) both disposed in the charging area (112), the first magnetic fixing portion (1163) and the second magnetic fixing portion (1164) both being for magnetic connection with the air conditioner remote controller (200).

4. The cabinet air conditioner of claim 3, wherein the first magnetic fixing portion (1163) is disposed at an angle to the second magnetic fixing portion (1164); and/or the first magnetic fixing part (1163) and the second magnetic fixing part (1164) are arranged at intervals.

5. The cabinet air conditioner according to claim 3 or 4, wherein the second magnet (1162) includes a third magnetic fixing portion (1165) and a fourth magnetic fixing portion (1166) both disposed in the charging area (112), and the third magnetic fixing portion (1165) and the fourth magnetic fixing portion (1166) are both for magnetic connection with the remote air conditioner controller (200).

6. The cabinet air conditioner according to claim 5, wherein the first magnetic fixing portion (1163) is opposite in position and opposite in magnetic polarity to the third magnetic fixing portion (1165), and the second magnetic fixing portion (1164) is opposite in position and opposite in magnetic polarity to the fourth magnetic fixing portion (1166).

7. The cabinet air conditioner according to any one of claims 1-4, wherein the charging unit (120) comprises a charging controller (121), a power source (122), a detection circuit (123) and a charging control circuit (124), the detection circuit (123) and the charging control circuit (124) are both electrically connected with the charging controller (121), the charging terminal (114) comprises a first terminal (1141) and a second terminal (1142), the detection circuit (123) is electrically connected with the first terminal (1141), the power source (122) is electrically connected with the second terminal (1142) through the charging control circuit (124), the first terminal (1141) and the second terminal (1142) are both adapted to be pluggable connected with the remote air conditioner controller (200), the detection circuit (123) is adapted to detect a contact signal of the first terminal (1141) and transmit the contact signal to the charging controller (121), the charging controller (121) is used for controlling the charging control circuit (124) to be switched on or switched off according to the contact signal, and the power supply (122) is used for charging the air conditioner remote controller (200) when the charging control circuit (124) is switched on.

8. The utility model provides an air conditioner remote controller, its characterized in that, including remote controller body (210) with set up in electric power storage unit (220) on remote controller body (210), remote controller body (210) be provided with connect magnet (214) and with electric power storage terminal (212) that electric power storage unit (220) are connected, connect magnet (214) and be used for being connected with cabinet air conditioner (100) magnetism, electric power storage terminal (212) be used for with cabinet air conditioner (100) pluggable ground is connected, electric power storage unit (220) are used for when electric power storage terminal (212) with cabinet air conditioner (100) electricity is connected the storage electric energy.

9. The remote controller according to claim 8, wherein the connecting magnet (214) comprises a first magnetic member (2141) and a second magnetic member (2142) both disposed on the remote controller body (210), a magnetic pole of the first magnetic member (2141) is different from a magnetic pole of the second magnetic member (2142), and both the first magnetic member (2141) and the second magnetic member (2142) are configured to be magnetically connected to the cabinet air conditioner (100).

10. The remote controller according to claim 9, wherein the first magnetic member (2141) comprises a first magnetic connecting portion (2143) and a second magnetic connecting portion (2144) both disposed on the remote controller body (210), and the first magnetic connecting portion (2143) and the second magnetic connecting portion (2144) are both configured to be magnetically connected to the cabinet air conditioner (100).

11. The remote controller according to claim 10, wherein the first magnetic connecting portion (2143) and the second magnetic connecting portion (2144) are disposed at an angle; and/or the first magnetic connecting part (2143) and the second magnetic connecting part (2144) are arranged at intervals.

12. The remote controller according to claim 10 or 11, wherein the second magnetic member (2142) comprises a third magnetic connecting portion (2145) and a fourth magnetic connecting portion (2146) both disposed on the remote controller body (210), and the third magnetic connecting portion (2145) and the fourth magnetic connecting portion (2146) are both configured to be magnetically connected to the cabinet air conditioner (100).

13. The remote controller according to claim 12, wherein the first magnetic connecting portion (2143) is opposite in position and opposite in magnetic polarity to the third magnetic connecting portion (2145), and the second magnetic connecting portion (2144) is opposite in position and opposite in magnetic polarity to the fourth magnetic connecting portion (2146).

14. The remote controller according to any one of claims 8 to 11, wherein a power storage region (211) is provided on the remote controller body (210), and the connecting magnet (214) and the power storage terminal (212) are both provided on the power storage region (211).

15. The remote controller according to any one of claims 8 to 11, wherein the electric storage unit (220) includes an electric storage controller (221), an electric storage battery (223), and an electric storage control circuit (225), the electric storage control circuit (225) is electrically connected to the electric storage controller (221), the electric storage battery (223) is electrically connected to the electric storage control circuit (225), the electric storage terminal (212) includes a fourth terminal (2121) and a fifth terminal (2122), the fourth terminal (2121) and the fifth terminal (2122) are both pluggable to the cabinet air conditioner (100), the fourth terminal (2121) is grounded, and the fifth terminal (2122) is electrically connected to the electric storage control circuit (225).

16. An air conditioner characterized by comprising a cabinet air conditioner (100) as claimed in any one of claims 1-7, and/or comprising a remote air conditioner controller (200) as claimed in any one of claims 8-15.

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