CN111885820B - Electric appliance, controller, control panel and panel unit thereof - Google Patents

Abstract

The invention relates to the field of control, in particular to an electric appliance, a controller, a control panel and a panel unit thereof. The board unit comprises a board body and a functional module arranged on the board body, wherein the board body is provided with a first connecting end and a second connecting end, the first connecting end is provided with a plurality of first terminals, the second connecting end is provided with a plurality of second terminals, and the first terminals and the second terminals are in one-to-one correspondence according to the same distribution rule; among the plurality of first terminals, part of the first terminals are first conduction terminals, and part of the first terminals are data output terminals of the functional module; among the plurality of second terminals, part of the plurality of second terminals are second conduction terminals, and part of the plurality of second terminals are data input terminals of the functional module; each first lead terminal is electrically connected with each second lead terminal in a one-to-one correspondence manner according to the same distribution rule. The design process of the control panel is simplified, the design difficulty of the control panel is reduced, the design period of the control panel is shortened, the cost of each panel unit is reduced, and the cost of the control panel is reduced.

Description

Electric appliance, controller, control panel and panel unit thereof

Technical Field

The invention relates to the field of control, in particular to an electric appliance, a controller, a control panel and a panel unit thereof.

Background

The existing household appliances are generally provided with control panels, for example, an air conditioner is used, a humidification control module, a voice control module, a WIFI control module, a dehumidification control module, a face recognition control module and a timing control module are possibly integrated on the control panel of the air conditioner, and the type of the control module integrated on the control panel is determined according to the control requirement of the air conditioner of the type.

In order to adapt to the control functions and the shapes and the sizes of air conditioners with different models, control panels meeting the corresponding functions and the sizes are often required to be specially arranged for the air conditioners with different models, so that the design and the manufacture processes of the air conditioners are complex, and the design and the manufacture costs are high.

Disclosure of Invention

It is an object of the present invention to provide a board unit which facilitates assembly of control boards having different control functions.

In order to achieve the above object, the board unit provided by the present invention comprises a board body and a functional module disposed on the board body, wherein the board body has a first connection end and a second connection end, the first connection end has a plurality of first terminals, the second connection end has a plurality of second terminals, and each first terminal corresponds to each second terminal one by one according to the same distribution rule; one of the first terminal and the second terminal which correspond to each other is a first inserting convex piece, and the other one is a first inserting groove piece matched with the first inserting convex piece; one part of the first terminals is first connecting terminals, and at least one part of the first terminals except the first connecting terminals is a data output terminal of the functional module; one part of the second terminals is a second conduction terminal, and at least one part of the second terminals except the second conduction terminal is a data input terminal of the functional module; each first lead terminal is electrically connected with each second lead terminal in a one-to-one correspondence manner according to the same distribution rule.

It is thus clear that, adopt the board unit of different functions more than two to splice mutually and form the control panel that has multiple functions, the control panel that the concatenation formed only needs to be connected through outlying each terminal and corresponding peripheral hardware and just can realize corresponding control function, can select different board unit combinations according to the functional requirement of different grade type and model electrical apparatus like this, form the modular control panel, and need not develop the special control panel of design alone for the electrical apparatus of every type and model, be favorable to simplifying the design flow of control panel, be favorable to reducing the design degree of difficulty of control panel, and like this each board unit can large batch production, be favorable to reducing the cost of each board unit, then be favorable to reducing the cost of control panel.

The invention limits the matching of the first inserting convex piece and the first inserting groove piece, does not mean that the first inserting convex piece and the corresponding second inserting convex piece of the same board unit have inserting matching relation, but means that the first inserting convex piece of one board unit and the first inserting groove piece at the corresponding position on the other board unit can be inserted and matched, namely, each first terminal of one board unit can be inserted and matched with each second terminal of the other board unit in a one-to-one corresponding mode according to the same distribution rule.

The first terminals 111 and the second terminals are correspondingly matched with each other one by one according to the same distribution rule, that is, the distribution rule of each first terminal 111 is the same as that of each second terminal, and the first terminals 111 located at the same positions correspond to the second terminals; for example, a terminal a of the plurality of first terminals corresponds to a terminal B of the plurality of second terminals, and then the distribution position of the terminal a in the plurality of first terminals corresponds to the distribution position of the terminal B in the plurality of second terminals.

According to a preferable scheme, the plurality of first terminals form at least one group of first golden fingers at the first connecting end, the plurality of second terminals form at least one group of first slots at the second connecting end, and the first golden fingers of each group are matched with the first slots of each group in a one-to-one correspondence manner; or the first terminals form at least one group of second slots at the first connecting section, the plurality of second terminals form at least one group of second golden fingers at the second connecting end, and the groups of second golden fingers are matched with the groups of second slots in a one-to-one correspondence mode.

Therefore, the purpose that the first terminals and the second terminals are matched in a one-to-one corresponding mode according to the same distribution rule is achieved through one-to-one corresponding matching of the gold fingers of each group and the slots of each group.

In another preferred embodiment, the first connecting end and the second connecting end are opposite ends of the plate body.

In another preferred embodiment, the mobile terminal further comprises a third connection end and a fourth connection end, the third connection end has a plurality of third terminals, the fourth connection end has a plurality of fourth terminals, and the third terminals and the fourth terminals are in one-to-one correspondence according to the same distribution rule; one of the third terminal and the fourth terminal which correspond to each other is a second inserting convex piece, and the other one is a second inserting groove piece matched with the second inserting convex piece; at least part of the plurality of third terminals are third conducting terminals; at least part of the plurality of fourth terminals are fourth conducting terminals; and the third lead terminals are electrically connected with the fourth lead terminals in a one-to-one correspondence manner according to the same distribution rule.

Therefore, the splicing directions of the plurality of plate units can be freely selected, control plates in different shapes can be conveniently formed, the requirements of different types and models of electric appliances on the shapes and the sizes of the control plates can be conveniently met, and the application range of the plate units can be favorably expanded.

Similarly, the second inserting convex part is matched with the corresponding second inserting groove part, which means that each third terminal of one board unit can be inserted and matched with each fourth terminal of another control board in a one-to-one corresponding manner according to the same distribution rule.

The further scheme is that two ends of the plate body distributed along the first direction are respectively a first connecting end and a second connecting end, two ends of the plate body distributed along the second direction are respectively a third connecting end and a fourth connecting end, and the first direction is intersected with the second direction.

In a further aspect, the plate body is a rectangular plate, and the first direction and the second direction are both the extending directions of the rectangular sides of the plate body.

The plate body is a square plate, each first terminal is electrically connected with each third terminal in a one-to-one correspondence mode according to the same distribution rule, and each second terminal is electrically connected with each fourth terminal in a one-to-one correspondence mode according to the same distribution rule.

Therefore, in the control panel formed by splicing, only one of the panel units is needed to input a control signal, and only one of the panel units is needed to output the control signal, so that the wiring difficulty of the control panel connected with the peripheral equipment is facilitated to be simplified, and the structure of the control panel and the peripheral equipment assembly is facilitated to be simple.

The second purpose of the present invention is to provide a control board with simple design and manufacture, low cost and wide application range.

In order to achieve the above object, the control board provided by the present invention includes at least two segment units, each segment unit is the aforementioned board unit, data output terminals of each segment unit do not correspond to each other, data input terminals of each segment unit do not correspond to each other, each segment unit is spliced to each other, and in the two segment units spliced to each other, a first terminal of one segment unit is plugged to a second terminal of another segment unit.

Therefore, the control panel formed by adopting the panel unit has simple design flow, is beneficial to shortening the design and development period of the control panel, quickening the design and development progress of new products and is beneficial to reducing the manufacturing cost of the control panel; and different board units can be selected according to the control requirements for combination, and the control board has a wide application range.

The invention also aims to provide a control panel which is simple in design and manufacture, low in cost and wide in application range.

In order to achieve the purpose, the control panel provided by the invention comprises at least two splicing units, each splicing unit adopts the plate unit, the data output terminals of each splicing unit do not correspond to each other, the data input terminals of each splicing unit do not correspond to each other, and each splicing unit is spliced with each other; in the two spliced splicing units, a first terminal of one splicing unit is spliced with a second terminal of the other splicing unit; or the third terminal of one patch cell is plugged with the fourth terminal of another patch cell.

Therefore, the control panels with various different function combinations can be conveniently spliced, and the control panels with the same function combination can have various splicing styles, so that the control requirements and the shape and size requirements of different types and models of electric appliances can be conveniently met.

Preferably, the plate bodies have the same shape and size.

Therefore, the flexibility of splicing the lifting plate units is further facilitated, and the control plates in different shapes can be conveniently spliced.

The fourth objective of the present invention is to provide a controller with simple design and manufacture and low cost.

In order to achieve the above object, the present invention provides a controller including the aforementioned control board.

The fifth purpose of the present invention is to provide an electrical appliance with simple design and manufacture and low cost.

In order to achieve the above object, the present invention provides an electric appliance including the aforementioned controller.

Therefore, the design, research and development progress of new electric appliance products is accelerated, and the manufacturing cost of the electric appliance is reduced.

Drawings

FIG. 1 is a first block diagram of a plate unit embodiment of the present invention;

FIG. 2 is a block diagram of a second embodiment of the plate unit of the present invention;

FIG. 3 is a schematic diagram of the structure of an embodiment of the control panel of the present invention;

FIG. 4 is a schematic structural diagram of a first alternative embodiment of the control panel of the present invention;

FIG. 5 is a schematic structural diagram of a second alternative embodiment of the control panel of the present invention;

FIG. 6 is a schematic structural diagram of a third alternative embodiment of the control panel of the present invention;

fig. 7 is a schematic structural diagram of a fourth alternative embodiment of the control panel of the present invention.

Detailed Description

The embodiment of the electric appliance, the controller, the control panel and the panel unit thereof comprises:

fig. 1 to 3 of the present embodiment use a unified spatial rectangular coordinate system to represent the orientation relationship, wherein the first direction is the Y-axis direction, the second direction is the X-axis direction, and the thickness direction of the plate body 1 described below is the Z-axis direction.

The electric appliance of the present embodiment is an air conditioner, the air conditioner of the present embodiment includes the controller of the present embodiment, the controller of the present embodiment includes the control panel of the present embodiment, the control panel of the present embodiment includes five splicing units, please refer to fig. 3, the five splicing units are a first unit 100, a second unit 200, a third unit 300, a fourth unit 400 and a fifth unit 500, respectively, and each splicing unit is a plate unit of the present embodiment.

Referring to fig. 1 and fig. 2, the board unit of the present embodiment includes a board body 1 and a function module disposed on the board body 1, where the function module may be, for example, a voice control module, a WIFI control module, and the like.

The plate body 1 is a rectangular plate, the long edge of the plate body 1 is along the X-axis direction, the short edge of the plate body 1 is along the Y-axis direction, the Y-axis positive end of the plate body 1 is a first connecting end, the Y-axis negative end of the plate body 1 is a second connecting end, the first connecting end is provided with three first inserting protrusions 11, each first inserting protrusion 11 is provided with a plurality of first terminals 111, the second connecting end is provided with three first slots, each first inserting protrusion 11 is matched with each first slot 12 according to the same distribution rule in a one-to-one correspondence manner, each first slot 12 is provided with a plurality of second terminals (not shown in the figure), and each first terminal 111 is matched with each second terminal according to the same distribution rule in a one-to-one correspondence manner.

The first terminals 111 and the second terminals are correspondingly matched with each other one by one according to the same distribution rule, that is, the distribution rule of each first terminal 111 is the same as that of each second terminal, and the first terminals 111 located at the same positions correspond to the second terminals; for example, a terminal a of the plurality of first terminals corresponds to a terminal B of the plurality of second terminals, and then the distribution position of the terminal a in the plurality of first terminals corresponds to the distribution position of the terminal B in the plurality of second terminals; that is, the projection of each first terminal 111 overlaps with the projection of its corresponding second terminal, projected along the Y-axis direction.

In the board units of this embodiment, each first insertion protrusion 11 is matched with each first slot 12 in a one-to-one correspondence manner according to the same distribution rule, and instead of the insertion and matching of the first insertion protrusion 11 and the first slot 12 of the same board unit, each first insertion protrusion 11 of one board unit can be inserted into each first slot 12 of another board unit in a one-to-one correspondence manner according to the same distribution rule; similarly, the first terminals 111 and the second terminals are correspondingly matched with each other according to the same distribution rule, and it does not mean that the correspondingly matched first terminals 111 are connected with the second terminals in a matching manner, but means that the first terminals 111 of one board unit can be connected with the second terminals of another board unit in a matching manner according to the same distribution rule.

The positive end of the X axis of the plate body 1 is a third connecting end, the negative end of the X axis of the plate body 1 is a fourth connecting end, the third connecting end is provided with two second inserting protrusions 13, each second inserting protrusion 13 is provided with a plurality of third terminals 131, the fourth connecting end is provided with two second slots 14, each second inserting protrusion 13 is matched with each second slot 14 in a one-to-one correspondence mode according to the same distribution rule, each second slot 14 is provided with a plurality of fourth terminals (not shown in the figure), and each third terminal 131 is matched with each fourth terminal in a one-to-one correspondence mode according to the same distribution rule.

Similarly, each second insertion protrusion 13 and each second insertion slot 14 are correspondingly matched one by one according to the same distribution rule, which means that each second insertion protrusion 13 of one board unit can be correspondingly inserted into each second insertion slot 14 of another board unit one by one according to the same distribution rule; the third terminals 131 and the fourth terminals are correspondingly matched with each other according to the same distribution rule, which means that the third terminals 131 of one board unit can be correspondingly connected with the fourth terminals of another board unit according to the same distribution rule.

Specifically, the first insertion protrusion 11 and the second insertion protrusion 13 of the present embodiment are both gold fingers.

In the present embodiment, a part of the plurality of first terminals 111 or a part of the plurality of third terminals 131 is a data output terminal of the function module, a part of the plurality of second terminals or a part of the plurality of fourth terminals is a data input terminal of the function module, except the data output terminal and the data input terminal, the rest of the first terminals 111 are electrically connected to the second terminals in a one-to-one correspondence manner according to the same distribution rule, and the third terminals 131 are electrically connected to the fourth terminals in a one-to-one correspondence manner according to the same distribution rule.

Specifically, the first terminals 111 except the data output terminals are first conduction terminals, the second terminals except the data input terminals are second conduction terminals, the third terminals except the data input terminal are third conduction terminals, the fourth terminals except the data input terminal are fourth conduction terminals, the first conduction terminals are directly and electrically connected with the second conduction terminals in a one-to-one correspondence manner according to the same distribution rule, and the third conduction terminals are directly and electrically connected with the fourth conduction terminals in a one-to-one correspondence manner according to the same distribution rule.

The board unit that adopts different functions more than two can splice mutually and form the control panel that has different function combinations, the control panel that the concatenation formed only needs to be connected through each terminal of outlying and corresponding peripheral hardware and just can realize corresponding control function, on the one hand like this, can select different board unit combinations according to the function demand of different model air conditioners, need not develop the special control panel of design alone for every air conditioner like this, be favorable to simplifying the design research and development process of control panel, be favorable to shortening the design research and development cycle of new model air conditioner, and because the board unit can produce with more large batch, therefore be favorable to promoting the economic nature, on the other hand, each board unit can splice into the control panel of different shapes, be convenient for so adapt to different model air conditioners to the shape and the dimensional requirement of control panel, be favorable to enlarging the application scope of board unit.

When more than two different board units are combined to form the control board, the signal input terminals of the board units do not correspond to each other, that is, the signal input terminal on each board unit corresponds to the conducting terminal of the other board units, so that the signal input terminal of the board unit is conveniently led to the outermost periphery terminal of the control board through the conducting terminal, and peripheral equipment is connected to the outermost periphery of the control board.

The functional modules of the plate unit in this embodiment have independent control functions, and optionally, in other embodiments of the plate unit of the present invention, two or more plate units may be combined to form a control function.

Alternatively, in other embodiments of the panel unit of the present invention, only the first terminal 111 and the second terminal may be provided, and the third terminal 131 and the fourth terminal are eliminated, so that, of course, when forming the control panel, each of the tile units can only be sequentially spliced along the Y-axis direction, and different panel units can be similarly spliced to form the control panel according to control requirements, however, the splicing style of each tile unit cannot be changed, and the shape of the control panel formed by splicing cannot be changed, so that the technical solution of the third terminal 131 and the fourth terminal in this embodiment is preferably adopted, which facilitates splicing to form control panels of different shapes according to requirements, so as to further meet the requirements of different types of air conditioners on the shape and size of the control panel.

Alternatively, in other embodiments of the board unit of the present invention, the data output terminals of the functional module do not necessarily occupy all of the first terminals 111 on the corresponding first insertion protrusion 11, and similarly, the data input terminals of the functional module do not necessarily occupy all of the second terminals in the corresponding first insertion groove 12.

Alternatively, in other embodiments of the plate unit of the present invention, the plate body 1 of the plate unit may be configured as a square plate, each first terminal 111 is electrically connected to each third terminal 131 in a one-to-one correspondence manner according to the same distribution rule, and each second terminal is electrically connected to each fourth terminal in a one-to-one correspondence manner according to the same distribution rule; therefore, when the board units are applied to the control board, the electrical connection relations of the split units of the control board under the condition of splicing along different directions are mutually equivalent, so that in the control board spliced in the embodiment, only one of the split units is needed to input a control signal, and only one of the split units is needed to output the control signal, thereby being beneficial to simplifying the wiring difficulty of the control board connected with the peripheral equipment.

In this embodiment, the first terminals 111 are combined to form the first insertion protrusion 11, the second terminals are combined to form the first insertion slot 12, the third terminals 131 are combined to form the second insertion protrusion 13, and the fourth terminals are combined to form the second insertion slot 14.

The control board of the present embodiment is explained below.

Referring to fig. 1 to 3, in the control panel of the present embodiment, the plate bodies of the respective block units have the same shape and size, and the functional modules of the respective block units are different, the functional module of the first unit 100 is a voice control module, the functional module of the second unit 200 is a WIFI control module, the functional module of the third unit 300 is a humidification control module, the control module of the fourth unit 400 is a dehumidification control module, and the functional module of the fifth unit 500 is a timing control module.

In the first unit 100, each first terminal 111 on the first insertion projection 11 located on the negative side of the X axis is a data output terminal of the voice control module, and each second terminal in the first insertion slot 12 located on the negative side of the X axis is a data input terminal of the voice control module.

In the second unit 200, each first terminal 111 on the first insertion protrusion 11 located in the middle of the X-axis direction is a data output terminal of the WIFI control module, and each second terminal in the first insertion slot 12 located in the middle of the X-axis direction is a data input terminal of the WIFI control module.

In the third unit 300, each first terminal 111 on the first insertion projection 11 located on the X-axis positive side is a data output terminal of the humidification control module, and each second terminal in the first insertion slot 12 located on the X-axis positive side is a data input terminal of the humidification control module.

In the fourth unit 400, each third terminal 131 on the second insertion projection 13 located on the Y-axis positive side is a data output terminal of the dehumidification control module, and each fourth terminal in the second insertion slot 14 located on the Y-axis positive side is a data input terminal of the dehumidification control module.

In the fifth unit 500, each third terminal 131 on each second insertion projection 13 located on the negative side of the Y axis is a data output terminal of the timing control module, and each fourth terminal in each second insertion slot 14 located on the negative side of the Y axis is a data input terminal of the timing control module.

Referring to fig. 3, two second insertion protrusions at the positive X-axis end of the fourth unit 400 are inserted into two second insertion slots at the negative X-axis end of the first unit 100 in a one-to-one correspondence manner according to the same distribution rule, and each third terminal of the fourth unit 400 is electrically connected to each fourth terminal of the first unit 100 in a one-to-one correspondence manner according to the same distribution rule.

The two second insertion protrusions at the positive X-axis end of the fifth unit 500 are inserted into the two second insertion slots at the negative X-axis end of the second unit 200 in a one-to-one correspondence manner according to the same distribution rule, and the third terminals of the fifth unit 500 are electrically and correspondingly inserted into the fourth terminals of the second unit 200 in a one-to-one correspondence manner according to the same distribution rule.

The three first insertion projections at the Y-axis positive end of the third unit 300 are inserted into the three first insertion slots at the Y-axis negative end of the second unit 200 in a one-to-one correspondence manner according to the same distribution rule, and the first terminals of the third unit 300 are electrically and correspondingly inserted into the second terminals of the second unit 200 in a one-to-one correspondence manner according to the same distribution rule.

The three first insertion projections at the Y-axis positive end of the second unit 200 are inserted into the three first insertion slots at the Y-axis negative end of the first unit 200 in a one-to-one correspondence manner according to the same distribution rule, and the first terminals of the second unit 200 are electrically and correspondingly inserted into the second terminals of the first unit 100 in a one-to-one correspondence manner according to the same distribution rule.

The three first insertion protrusions at the Y-axis positive end of the fifth unit 500 are inserted into the three first insertion slots at the Y-axis negative end of the fourth unit 400 in a one-to-one correspondence manner according to the same distribution rule, and the first terminals of the fifth unit 500 are electrically and correspondingly inserted into the second terminals of the fourth unit 400 in a one-to-one correspondence manner according to the same distribution rule.

After the control boards are spliced in this way, the respective first insertion projections of the first unit 100, the second insertion projection on the Y-axis positive side of the first unit 100, and the second insertion projection on the Y-axis negative side of the second unit 200 are used as signal input interfaces, and the respective second insertion projections of the third unit 300, the second slot on the Y-axis positive side of the fourth unit 400, and the second slot on the Y-axis negative side of the fifth unit 500 are used as signal output interfaces.

In the control board of this embodiment, the shape and size of each plate are the same, which is beneficial to improving the flexibility of splicing each tile unit, and of course, in other embodiments of the present invention, the shape and size of each tile unit may also be different, for example, the size of a part of tile units in the X-axis direction is an integer multiple of the size of the rest of tile units, or the size of a part of tile units in the Y-axis direction is an integer multiple of the size of the rest of tile units, and of course, the external terminal distribution of the tile unit with a larger size should be set according to the external terminal of the assembly formed by splicing more than two tile units with smaller size and the same shape and size as the tile unit with a larger size.

Alternatively, in other embodiments of the control board of the present invention, the tile units may be spliced in other manners, for example, the splicing manner of the first unit 100 ', the second unit 200 ', the third unit 300 ', the fourth unit 400 ' and the fifth unit 500 ' is shown in fig. 4, and the splicing manner of the first unit 100 ", the second unit 200", the third unit 300 ", the fourth unit 400" and the fifth unit 500 "is shown in fig. 5, when the requirement of the appliance for the type of the control function is reduced, the corresponding tile unit may also be omitted, for example, as shown in fig. 6, and the control board is formed by splicing three tile units.

Alternatively, in other embodiments of the control board of the present invention, the number of the tile units may also exceed five, for example, the number of the tile units is six (see fig. 7), and of course, the distribution of the terminals may be different from that of the present embodiment, and it is necessary to ensure that each functional module of the tile unit can correspond to sufficient first terminal, second terminal, third terminal and fourth terminal, and the terminals corresponding to the functional modules do not intersect with each other.

After each control panel that splices the concatenation of piece unit and form this embodiment, can detect the piece unit composition condition of piecing together in this control panel through sending scanning signal to each terminal, for example to scanning detection one by one such as WIFI control module, voice control module, dehumidification control module, humidification control module, face identification control module and timing control module.

It should be noted that, for convenience of illustration, the control board of this embodiment uses the same illustration for the functional modules of each tile unit, and in the specific control board of this embodiment, the functional modules of each tile unit are different, which inevitably results in different types and distribution rules of the functional devices of each functional module.

Finally, it should be emphasized that the above-described preferred embodiments of the present invention are merely examples of implementations, rather than limitations, and that many variations and modifications of the invention are possible to those skilled in the art, without departing from the spirit and scope of the invention.

Claims (12)

1. The board unit of control panel, its characterized in that:

the multifunctional printed circuit board comprises a board body and a functional module arranged on the board body, wherein the board body is provided with a first connecting end and a second connecting end, the first connecting end is provided with a plurality of first terminals, the second connecting end is provided with a plurality of second terminals, and the first terminals correspond to the second terminals one by one according to the same distribution rule;

one of the first terminal and the second terminal which correspond to each other is a first inserting convex piece, and the other one is a first inserting groove piece matched with the first inserting convex piece;

a part of the first terminals are first lead terminals, and at least a part of the first terminals except the first lead terminals are data output terminals of the functional module;

a part of the second terminals are second conduction terminals, and at least a part of the second terminals except the second conduction terminals are data input terminals of the functional module;

each first lead terminal is electrically connected with each second lead terminal in a one-to-one correspondence manner according to the same distribution rule;

when the two board units are spliced, the data input terminal of one board unit is connected to the first lead terminal or the second lead terminal of the other board unit, and the control board formed by splicing the plurality of board units is connected with an external device only through peripheral terminals to realize a control function.

2. The board unit according to claim 1, wherein:

the plurality of first terminals form at least one group of first golden fingers at the first connecting end, the plurality of second terminals form at least one group of first slots at the second connecting end, and each group of first golden fingers are matched with each group of first slots in a one-to-one correspondence manner; or

The plurality of first terminals form at least one group of second slots at the first connecting end, the plurality of second terminals form at least one group of second golden fingers at the second connecting end, and the groups of second golden fingers are matched with the groups of second slots in a one-to-one correspondence mode.

3. The board unit according to claim 1, wherein:

the first connecting end and the second connecting end are two opposite ends of the plate body.

4. The board unit according to any one of claims 1 to 3, wherein:

the connector also comprises a third connecting end and a fourth connecting end, wherein the third connecting end is provided with a plurality of third terminals, the fourth connecting end is provided with a plurality of fourth terminals, and the third terminals and the fourth terminals are in one-to-one correspondence according to the same distribution rule;

one of the third terminal and the fourth terminal which correspond to each other is a second inserting convex piece, and the other one is a second inserting groove piece matched with the second inserting convex piece;

at least part of the plurality of third terminals is third conductive terminals;

at least part of the fourth terminals are fourth conducting terminals;

and each third lead terminal is electrically connected with each fourth lead terminal in a one-to-one correspondence manner according to the same distribution rule.

5. The board unit according to claim 4, wherein:

the two ends of the plate body distributed along the first direction are respectively the first connecting end and the second connecting end, the two ends of the plate body distributed along the second direction are respectively the third connecting end and the fourth connecting end, and the first direction is intersected with the second direction.

6. The board unit according to claim 5, wherein:

the plate body is a rectangular plate, and the first direction and the second direction are both the extending directions of the rectangular edges of the plate body.

7. The board unit according to claim 4, wherein:

the plate body is a square plate, each first terminal is electrically connected with each third terminal in a one-to-one correspondence mode according to the same distribution rule, and each second terminal is electrically connected with each fourth terminal in a one-to-one correspondence mode according to the same distribution rule.

8. Control panel, its characterized in that:

the control panel comprises at least two splicing units, each splicing unit adopts the panel unit as claimed in any one of claims 1 to 3, data output terminals of the splicing units are not corresponding to each other, data input terminals of the splicing units are not corresponding to each other, the splicing units are spliced with each other, in the two splicing units spliced with each other, a first terminal of one splicing unit is spliced with a second terminal of the other splicing unit, and the control panel is connected with an external device through peripheral terminals only to realize a control function.

9. Control panel, its characterized in that:

the panel unit comprises at least two patch units, each patch unit adopts the panel unit of any one of claims 4 to 7, data output terminals of the patch units are not corresponding to each other, data input terminals of the patch units are not corresponding to each other, and the patch units are spliced with each other;

in the two spliced splicing units, a first terminal of one splicing unit is spliced with a second terminal of the other splicing unit; or the third terminal of one splicing block unit is spliced with the fourth terminal of the other splicing block unit, and the control board is connected with the external equipment only through the peripheral terminal to realize the control function.

10. The control panel of claim 9, wherein:

the plate bodies are the same in shape and size.

11. A controller, characterized by:

comprising a control panel according to any of claims 8 to 10.

12. An electrical appliance, characterized by:

comprising a controller according to claim 11.

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