CN210463451U - Drive-by-wire ware subassembly and air conditioner - Google Patents

Abstract

The utility model provides a drive-by-wire ware subassembly and air conditioner belongs to air conditioner technical field. The air conditioner comprises a receiving assembly and a control assembly, wherein the receiving assembly is connected with a wall body and is electrically connected with an indoor unit through a signal cable; the control assembly is detachably connected with the receiving assembly, can send a control signal to the receiving assembly, and controls the adjustment of working parameters of the air conditioner through the receiving assembly. The receiving assembly can be used for detachably mounting the control assembly, so that a user can detach the control assembly, and then remotely send a signal to the receiving assembly to realize the operation of the air conditioner; namely, the use operation of a user is facilitated by adopting the wire controller component. In addition, the receiving assembly is arranged outside the shell of the indoor unit, so that the shell is prevented from blocking signals, and the sensitivity of the signals is improved.

Description

Drive-by-wire ware subassembly and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a drive-by-wire ware subassembly and air conditioner.

Background

An Air Conditioner (Air Conditioner) is a device that manually adjusts and controls parameters such as temperature, humidity, cleanliness, and flow rate of ambient Air in a building or structure. When the working temperature or other working states of the air conditioner need to be adjusted, the air conditioner needs to go to the front of the wire controller for operation. Therefore, the operation thereof is not convenient enough; especially, when the area of a house is large, it is more inconvenient to operate the air conditioner.

SUMMERY OF THE UTILITY MODEL

The utility model provides a drive-by-wire ware component, the control component of the drive-by-wire ware component can be detachably connected with the receiving component, and the control component can remotely send signals to the receiving component so as to control the working state of the air conditioner; thereby facilitating the operation of the air conditioner.

In order to solve the problems, the utility model provides a drive-by-wire device component, which comprises a receiving component and a control component; the control assembly and the receiving assembly can be detachably connected, and the receiving assembly is used for receiving the control signal sent by the control assembly and communicating with the electric appliance.

When the air conditioner is used, the receiving assembly is installed on a wall body outside the indoor unit, and the control assembly sends a corresponding control signal to the receiving assembly so as to control the air conditioner. The control assembly and the receiving assembly are detachably connected, so that a user can detach the control assembly, and the receiving assembly is remotely sent with a signal to operate the air conditioner. In addition, the receiving assembly can directly receive the signal sent by the control assembly in the mode, and the shielding of the shell on the signal is avoided, so that the signal receiving is facilitated.

Further, the receiving assembly comprises a receiving groove, and the control assembly is inserted in the receiving groove.

Installing the control assembly on the receiving assembly, and directly inserting the control assembly into the accommodating groove; when the control component is detached from the receiving component, the control component can be directly pulled out of the accommodating groove. The structure makes the assembly, disassembly and assembly very convenient.

Further, a first conductive part is arranged at the bottom of the accommodating groove, and the control assembly comprises a second conductive part; when the control assembly is inserted into the accommodating groove, the first conductive part is connected with the second conductive part so as to charge the control assembly.

The first conductive part at the bottom of the accommodating groove is connected with the cable in the receiving assembly, and the second conductive part is connected with the rechargeable battery of the control assembly; when the control assembly is installed in the accommodating groove, the first conductive part and the second conductive part are just connected, so that the control assembly can be charged.

Further, the first conductive portion includes a charging post, and the second conductive portion includes a charging hole.

When the control assembly is inserted in the accommodating groove, the charging column can be inserted in the charging hole.

The vertical setting of post that charges is in the bottom of holding tank, and when control assembly pegged graft in the holding tank, the post that charges just pegs graft in the hole that charges, and at this moment, first conductive part can closely cooperate with the second conductive part. Therefore, the arrangement of the charging post and the charging hole enables the connection between the first conductive part and the second conductive part to be more reliable, and charging failure caused by poor contact is prevented.

Furthermore, a first positioning part is arranged on the groove wall of the accommodating groove, and a second positioning part is arranged on the control assembly; when the control assembly is inserted into the accommodating groove, the first positioning part is matched with the second positioning part.

The first positioning portion may be a groove (or a protrusion), and correspondingly, the second positioning portion may be a protrusion (or a groove); when the control assembly is plugged with the accommodating groove, the convex part and the groove can be just matched. The design can further prevent poor contact between the first conductive part and the second conductive part caused by looseness of the control assembly in the accommodating groove.

Further, the receiving assembly comprises a front cover, a rear cover, a display panel and a display main board, wherein the front cover is connected with the rear cover; the display main board is arranged between the front cover and the rear cover, the display panel is connected with the front cover and electrically connected with the display main board, and the display main board can acquire working parameters of the electric appliance and display the working parameters through the display panel.

The holding tank sets up on the front surface of protecgulum, is provided with the mounting hole beside the holding tank. The display panel is arranged on the front side of the mounting hole, the display main board is arranged on the rear side of the mounting hole, and the display panel is electrically connected with the display main board. The display main board is electrically connected with the air conditioner indoor unit and the receiving module of the receiving assembly, so that the display main board can acquire working parameters of the air conditioner and control parameters of the control assembly and display the working parameters and the control parameters through the display panel. The design can display the working parameters of the air conditioner and the control parameters of the control assembly in real time, so that the operation is facilitated.

Further, the control assembly comprises a control lower cover and a control main board, the control main board is connected with the control lower cover, and the control main board can send a control signal to the receiving assembly.

The control main board is arranged between the control upper cover and the control lower cover; the control mainboard is provided with a control key, the control upper cover is provided with a key through hole, and the control key protrudes out of the key through hole.

The structure of the control assembly enables the control main board to be fixed in the shell formed by the upper cover and the lower cover, so that the control main board is protected. When the control assembly falls on the ground, the control main board is not easy to damage.

Further, the control mainboard comprises a touch screen.

The touch screen is adopted to facilitate the operation of the control panel.

An air conditioner comprising the drive-by-wire assembly; the drive-by-wire ware subassembly with the air conditioner electricity is connected.

The utility model provides a technical scheme's beneficial effect includes at least:

when the wired controller assembly and the air conditioner are used, the receiving assembly is installed and fixed on a wall body, and a user can hold the control assembly by hand to send a control signal to the receiving assembly; or the control assembly is arranged on the receiving assembly and directly operated, and the control assembly sends a control signal to the receiving assembly. The receiving assembly can be used for detachably mounting the control assembly, so that a user can detach the control assembly, and then remotely send a signal to the receiving assembly to realize the operation of the air conditioner; namely, the use operation of a user is facilitated by adopting the wire controller component. In addition, the receiving assembly is arranged outside the shell of the indoor unit, so that the shell is prevented from blocking signals, and the sensitivity of the signals is improved.

Drawings

Fig. 1 is an exploded view of the drive-by-wire assembly provided in this embodiment;

fig. 2 is a schematic structural diagram of the receiving component and the control component provided in this embodiment after assembly;

fig. 3 is a schematic structural diagram of the receiving component and the control component provided in this embodiment after being separated;

FIG. 4 is a cross-sectional view of the receiving assembly provided in this embodiment;

fig. 5 is a schematic structural diagram of a front cover of the receiving assembly provided in this embodiment;

fig. 6 is an exploded schematic view of the control module according to this embodiment.

Icon: 010-a line controller assembly; 100-a receiving component; 110-a front cover; 111-a receiving tank; 112-mounting holes; 113-installing a sinking platform; 114-a flange; 115-a first positioning portion; 116-a charging post; 120-rear cover; 130-a display panel; 140-display main board; 200-a control component; 210-control upper cover; 212-key through hole; 220-control of the lower cover; 221-limiting reinforcing ribs; 222-a second locator portion; 230-control the mainboard; 300-tool junction box.

Detailed Description

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

Referring to fig. 1, 2 and 3, fig. 1 is an exploded view of the cable controller assembly 010; fig. 2 is a schematic structural view of the assembly of the receiving assembly 100 and the control assembly 200 in the drive-by-wire assembly 010; fig. 3 is a schematic structural diagram of the drive-by-wire device 010 after the receiving component 100 and the control component 200 are separated.

The present embodiment provides a drive-by-wire assembly 010 for controlling the operation of an air conditioner. The air conditioner comprises a receiving assembly 100 and a control assembly 200, wherein the receiving assembly 100 is connected with a wall body and is electrically connected with an indoor unit through a signal cable; the control assembly 200 is detachably connected to the receiving assembly 100, and is capable of sending a control signal to the receiving assembly 100 and controlling the adjustment of the operating parameters of the air conditioner through the receiving assembly 100.

Referring to fig. 4 and 5, fig. 4 is a sectional view of the receiving assembly 100, and fig. 5 is a structural schematic view of the front cover 110 of the receiving assembly 100. The receiving assembly 100 includes a front cover 110, a rear cover 120, a display panel 130 and a display main board 140, wherein the front cover 110 and the rear cover 120 are both square structures and can be connected in a snap-fit manner. The display main board 140 is disposed between the front cover 110 and the rear cover 120, and the display panel 130 is disposed on the front cover 110 and electrically connected to the display panel 130. Specifically, the front cover 110 is a square plate-shaped structure, and a rectangular receiving groove 111 is formed on a front surface thereof; the receiving groove 111 extends to an upper surface of the front cover 110 and is formed with an opening at the upper surface so that the control assembly 200 can be inserted into the receiving groove 111 from the opening at the upper side. The edge of the receiving groove 111 is further provided with a rib 114, and the rib 114 is provided on the front surface of the front cover 110; the rib 114 prevents the control member 200 from falling out of the receiving groove 111. That is, after the rib 114 is provided, the control assembly 200 can be inserted into or withdrawn from the receiving groove 111 only from the opening of the upper surface. In other embodiments, the receiving groove 111 is not limited to the above-described structure, and for example, it may be possible to load the control assembly 200 into the receiving groove 111 directly from the front surface without providing the rib 114 and the opening of the upper surface; alternatively, an opening is provided at one side, and the control member 200 is fitted into the accommodation groove 111 from the opening at the side.

With continued reference to fig. 4 and 5, the front cover 110 is further provided with a rectangular mounting hole 112, and the mounting hole 112 is disposed at one side of the receiving groove 111; the mounting hole 112 is provided with a mounting sink 113, and the display panel 130 is mounted and fixed on the mounting sink 113. When mounted, the front surface of the display panel 130 is flush with the front surface of the front cover 110. The display main board 140 is located on the rear surface of the front cover 110 and is connected to the front cover 110 by screws. After mounting, a main body portion of the display main board 140 is disposed in the mounting hole 112 of the front cover 110. The display main board 140 and the display panel 130 are connected by a cable, and the display main board 140 outputs a display signal to the display panel 130 for display. Since both the display panel 130 and the display main board 140 may adopt an existing structure, a detailed description thereof will not be given.

The rear cover 120 has a semi-closed housing shape, and is substantially rectangular in shape as a whole. An opening is provided on the front surface of the rear cover 120, and the inside thereof is used to accommodate electric wires and the like. The rear cover 120 is further provided with a clamping portion for clamping with the front cover 110. In addition, the rear cover 120 is further provided with two connecting columns, the connecting columns are provided with connecting holes, and the connecting holes are overlapped with the axes of the connecting columns. When the rear cover 120 is connected with the wall body, the screw penetrates through the connecting hole, so that the screw is driven into the tool junction box in the wall body; thereby fixing the rear cover 120 to the wall.

Referring to fig. 6, fig. 6 is an exploded view of the control device 200. The control assembly 200 comprises a control upper cover 210, a control lower cover 220 and a control main board, wherein the control upper cover 210 and the control lower cover 220 are bonded to form a whole shell; the control main board 230 is disposed between the control upper cover 210 and the control lower cover 220. Specifically, the control upper cover 210 has a rectangular plate-shaped structure, and a plurality of key through holes 212 are formed in the control upper cover 210 for receiving the keys on the control main board 230. The lower portion of the control upper cover 210 is also provided with a counter surface for cooperating with the front cover 110 of the receiving assembly 100. The control lower cover 220 is substantially the same as the control upper cover 210 in shape, and the inner surface of the control lower cover 220 is provided with a limiting reinforcing rib 221, which is used for improving the strength of the control lower cover 220 and facilitating the positioning of the control main board. The control main board is provided with a plurality of keys, and after the control assembly 200 is assembled, the keys on the control main board protrude out of the key through holes 212, so that the operation from the outside is facilitated. Since the control main board can directly adopt the circuit structure in the prior art, detailed description thereof is omitted for avoiding redundancy.

Further, with reference to fig. 4, in order to charge the control component 200, a second conductive part is disposed at a corresponding position of the first conductive part control component 200 disposed at the bottom of the receiving groove 111. When the control assembly 200 is plugged into the receiving groove 111, the first conductive part and the second conductive part are just connected and electrified. Specifically, the bottom of the receiving cavity 111 is vertically provided with a charging post 116, the bottom of the control assembly 200 is provided with a charging hole, when the control assembly 200 and the receiving assembly 100 are assembled into a whole, the charging post 116 is matched with the charging hole, and the first conductive part is connected with the second conductive part.

Referring to fig. 3 and 4, in order to reliably mount the control assembly 200 in the receiving groove 111, a first positioning portion 115 is further disposed on a groove wall of the receiving groove 111, and correspondingly, a second positioning portion 222 is disposed on a side portion of the control assembly 200. When the control assembly 200 is inserted into the bottom of the receiving groove 111, the first positioning portion 115 just matches with the second positioning portion 222. In this embodiment, the first positioning portion 115 is a strip-shaped protrusion disposed on the sidewall of the accommodating groove 111, and the second positioning portion is a strip-shaped groove disposed on one side of the control assembly 200. When the assembly of the control member 200 and the receiving member 100 is completed, the protrusion is engaged with the groove, so that the position of the control member 200 can be fixed.

The use method and the beneficial effects of the line controller assembly 010 provided by the embodiment are as follows:

before use, the tool junction box 300 on the wall body is electrically connected with an indoor unit of the air conditioner through a cable; the receiving assembly 100 is fixedly mounted on the tooling terminal box. The control assembly 200 is installed on the receiving assembly 100, when the air conditioner needs to be operated, the control assembly 200 can be directly operated, and the control assembly 200 sends a signal to the receiving assembly 100; at this time, the display panel 130 on the receiving assembly 100 can display the operating parameters of the air conditioner and the control parameters of the line controller assembly 010 in real time. Alternatively, the control unit 200 may be detached for use, and the air conditioner may be remotely operated by the control unit 200. After the drive-by-wire device assembly 010 is adopted, the signal receiving performance of the air conditioner is improved.

In other embodiments, the first conductive portion may be a metal spring disposed at the bottom or the side of the receiving slot 111, and the second conductive portion may be a metal spring disposed at the bottom or the side of the control component 200, and the first conductive portion and the second conductive portion are electrically connected after the control component 200 is assembled with the receiving component 100. Alternatively, in other embodiments, control component 200 may be self-contained with a battery, and the first and second conductive portions may be omitted. In addition, the line controller assembly 010 is not limited to an air conditioner, and may be used in other electric appliances.

Although the present invention is disclosed above, the present invention is not limited thereto. Various modifications may be made by those skilled in the art without departing from the spirit and scope of the invention, and such modifications are intended to be within the scope of the invention.

Claims (11)

1. A drive-by-wire assembly for controlling an electrical appliance, characterized in that it comprises a receiving assembly (100) and a control assembly (200); the control assembly (200) and the receiving assembly (100) can be detachably connected, and the receiving assembly (100) is used for receiving the control signal sent by the control assembly (200) and can be communicated with the electric appliance.

2. A drive-by-wire assembly according to claim 1, characterized in that the receiving assembly (100) is provided with a receiving slot (111), the control assembly (200) being insertable in the receiving slot (111).

3. The drive-by-wire assembly according to claim 2, wherein the bottom of the receiving slot (111) is provided with a first conductive portion, and the control assembly (200) comprises a second conductive portion; when the control assembly (200) is inserted into the accommodating groove (111), the first conductive part is connected with the second conductive part, so that the control assembly (200) is charged.

4. The drive-by-wire assembly of claim 3, wherein the first conductive portion comprises a charging post (116), and the second conductive portion comprises a charging aperture;

when the control assembly (200) is plugged in the accommodating groove (111), the charging post (116) can be plugged in the charging hole.

5. The drive-by-wire assembly according to claim 2, wherein a first positioning portion (115) is provided on a wall of the receiving groove (111), and a second positioning portion is provided on the control assembly (200); when the control assembly (200) is inserted into the accommodating groove (111), the first positioning part (115) is matched with the second positioning part.

6. The spool assembly according to claim 5, wherein the first positioning portion (115) is one of a protrusion and a groove, and the second positioning portion is the other of the protrusion and the groove.

7. The drive-by-wire assembly according to claim 1, wherein the receiving assembly (100) comprises a front cover (110), a rear cover (120), a display panel (130) and a display main board (140), the front cover (110) being connected with the rear cover (120);

the display main board (140) is arranged between the front cover (110) and the rear cover (120), the display panel (130) is connected with the front cover (110) and electrically connected with the display main board (140), and the display main board (140) can acquire working parameters of the electric appliance and display the working parameters through the display panel (130).

8. The drive-by-wire assembly according to claim 1, characterized in that the control assembly (200) comprises a control lower cover (220) and a control main board (230), the control main board (230) is connected with the control lower cover (220), and the control main board (230) is capable of sending a control signal to the receiving assembly (100).

9. The drive-by-wire assembly according to claim 8, further comprising a control upper cover (210), wherein the control upper cover (210) is connected with the control lower cover (220), and wherein the control main board (230) is disposed between the control upper cover (210) and the control lower cover (220); the control main board (230) is provided with a control key, the control upper cover (210) is provided with a key through hole (212), and the control key protrudes out of the key through hole (212).

10. The drive-by-wire assembly of claim 8, wherein the control motherboard (230) comprises a touch screen.

11. An air conditioner characterized in that it comprises a drive-by-wire assembly according to any one of claims 1 to 10; the drive-by-wire ware subassembly with the air conditioner electricity is connected.

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