CN109373550B - Air conditioner and air conditioner control system - Google Patents

Abstract

The invention provides an air conditioner and an air conditioner control system, and relates to the technical field of air conditioners. The air conditioner comprises an air supply volute, a rear enclosure, an air inlet grille and a universal serial bus. The air supply volute is provided with a wire clamping groove, and the outer side of the air supply volute is also provided with a wire passing structure and a mounting seat at intervals. The universal serial bus comprises a wire body and an interface part which are connected with each other, the wire body passes through the wire clamping groove and the wire passing structure, and the interface part is arranged in the mounting seat. The back enclosure is detachably connected with the air supply volute, the interface part is arranged between the back enclosure and the air supply volute, the back enclosure is provided with a mounting opening, the mounting opening is used for a functional module to penetrate through the mounting opening from the outer side of the back enclosure and be connected with the universal serial bus, and the air inlet grille is detachably connected with the back enclosure so as to selectively shield the functional module.

Description

Air conditioner and air conditioner control system

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner and an air conditioner control system.

Background

The dealer sells the WIFI function machine and needs to purchase the complete machine with the WIFI function independently, and the later period of the WIFI machine does not need to want the WIFI function and also needs to return to the factory for maintenance, so that the operation difficulty is high. On the other hand to among the prior art, the WIFI assembly of WIFI model is difficult, and structural stability is poor.

Disclosure of Invention

In view of this, the present invention aims to provide an air conditioner, which has the advantages of simple assembly, stable structure, and convenient assembly and disassembly of the functional modules such as the WIFI module.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

the invention relates to an air conditioner, which comprises an air supply volute, a rear enclosure, an air inlet grille and a universal serial bus, wherein the air supply volute is arranged on the rear enclosure;

The air supply volute is provided with a wire clamping groove, and the outer side of the air supply volute is also provided with a wire passing structure and a mounting seat at intervals; the universal serial bus comprises a wire body and an interface part which are connected with each other, the wire body passes through the wire clamping groove and the wire passing structure, and the interface part is arranged in the mounting seat;

The back enclosure shell with the connection can be dismantled to the air supply spiral case, interface portion set up in back enclosure shell with between the spiral case of supplying air, back enclosure shell is last to have seted up the installing port, the installing port is used for a functional module to follow the outside of back enclosure shell passes the installing port with universal serial bus connects, the air inlet grid with back enclosure shell can dismantle the connection, in order to shelter from selectively functional module.

Further, the air supply spiral case include down the casing with set up in last cap on the casing down, go up the inside wall and the lateral wall that the cap set up relatively including, the card wire casing includes first card wire casing and second card wire casing, first card wire casing set up in the inside wall, the second card wire casing set up in on the lateral wall, and, cross line structure with the mount pad interval set up in the outside of lateral wall.

Further, the first card slot is arranged at one end of the inner side wall, the upper shell cover further comprises a first end wall, one end of the first end wall is connected with the outer side wall, the other end of the first end wall is connected with the inner side wall to form a card inlet, and the card inlet is communicated with the first card slot.

Further, a containing cavity is formed in the side wall of the second wire clamping groove, penetrates through the outer side wall and is communicated with the second wire clamping groove.

Further, the wire passing structure comprises an upper stop part and a lower stop part, wherein the upper stop part and the lower stop part are oppositely arranged at the outer side of the air supply volute, and a wire passing cavity is formed.

Further, the wire passing structure further comprises a stop block, the stop block is arranged on the lower stop part and is opposite to the air supply volute, the stop block and the upper stop part are arranged in a staggered mode, and the air supply volute, the upper stop part, the lower stop part and the stop block enclose the wire passing cavity.

Further, the mount pad includes upper mounting portion and lower mounting portion, upper mounting portion with lower mounting portion set up relatively in the outside of air supply spiral case to form the installation cavity, upper mounting portion's one end with lower mounting portion's one end forms the card line mouth, upper mounting portion's the other end with lower mounting portion's the other end forms the access mouth.

Further, an interface mounting position is arranged on the inner side of the rear enclosure, a module mounting position is arranged on the outer side of the rear enclosure, a first mounting groove is formed by outwards sinking the interface mounting position, the universal serial bus comprises a wire body and an interface part which are connected with each other, and the interface part is arranged in the first mounting groove; the module installation position is inwards sunken to form a second installation groove, the functional module is arranged in the second installation groove, and the installation opening is formed in the shared side wall of the interface installation position and the module installation position.

Further, the inner side of the rear enclosure is provided with a reinforcing rib, a first installation position notch is formed in the reinforcing rib, and the first installation position notch is used for the line body to pass through.

Further, a second installation position notch is formed in the interface installation position and is communicated with the installation opening.

Further, a third installation position notch is formed in the module installation position and is communicated with the second installation groove.

Further, the rear enclosure is provided with an air outlet window, the mounting opening is formed in the top of the air outlet window, sliding grooves are formed in two sides of the air outlet window, and two sides of the air inlet grille are respectively in sliding fit with the two sliding grooves.

Compared with the prior art, the air conditioner has the following advantages:

The interface part of the universal serial bus of the air conditioner is arranged on the mounting seat of the air supply volute, the wire passing structure is arranged on the outer side of the air supply volute adjacent to the mounting seat, and the wire clamping groove is further formed in the air supply volute, so that a wire body of the universal serial bus can pass through the wire passing structure and the wire clamping groove, the wire body is prevented from falling or knotting, and the stability of the mounting structure of the universal serial bus is ensured. The back enclosure and the air supply volute of the air conditioner are detachably connected, and the interface of the universal serial bus is communicated with the mounting port, so that functional modules such as a WIFI module and the like can conveniently penetrate through the mounting port from the outer side of the back enclosure to be connected with the interface of the universal serial bus. The air inlet grille can be detachably connected with the rear enclosure, so that the functional module can be shielded, and the functional module can be conveniently installed and detached. That is, after the air conditioner of the invention is sold, a user can purchase the functional modules such as the WIFI module and the like by himself to conveniently install on the universal serial bus, thereby realizing the functions.

The invention further aims to provide an air conditioner control system, which adopts the air conditioner provided by the invention, can be used for conveniently disassembling and assembling the WIFI module according to requirements, and is stable in mounting structure.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

The air conditioner control system comprises a functional module and the air conditioner, wherein the functional module is detachably connected with the universal serial bus from the outer side of the rear enclosure through the mounting port.

Compared with the prior art, the air conditioner control system has the following advantages:

The air conditioner control system comprises the functional module, such as a WIFI module and the like, and the air conditioner disclosed by the embodiment of the invention, so that a user can conveniently connect the functional module with a universal serial bus interface from the outer side of the rear enclosure through the mounting port according to actual needs, the functions are realized, and the mounting structure is stable.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. In the drawings:

fig. 1 is a schematic structural diagram of a first view angle of an air conditioner control system according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a second view angle of an air conditioner control system according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a first view angle of a blower volute according to an embodiment of the invention.

Fig. 4 is a schematic structural diagram of a second view angle of the blower volute according to an embodiment of the invention.

Fig. 5 is an enlarged view at E in fig. 3.

Fig. 6 is an enlarged view at D in fig. 2.

Fig. 7 is an enlarged view at a in fig. 3.

Fig. 8 is an assembly structure diagram of a universal serial bus and a blower volute according to an embodiment of the present invention.

Fig. 9 is a schematic structural view of a rear enclosure according to a first view angle of an embodiment of the present invention.

Fig. 10 is a schematic structural view of a second view angle of the rear enclosure according to an embodiment of the invention.

Fig. 11 is an enlarged view at B in fig. 9.

Fig. 12 is an enlarged view at C in fig. 10.

Fig. 13 is an assembly structure diagram of a universal serial bus, a back shell and a functional module according to a first view angle of an embodiment of the present invention.

Fig. 14 is an assembly structure diagram of a universal serial bus, a back shell and a second view angle of a functional module according to an embodiment of the present invention.

Reference numerals illustrate:

1-an air conditioning control system; 2-an air conditioner; 3-a functional module; 4-air supply spiral case; 5-a rear enclosure; 6-an air inlet grille; 7-universal serial bus; 8-a lower housing; 9-upper shell cover; 10-a bottom wall; 11-an inner sidewall; 12-an outer sidewall; 13-a first end wall; 14-a second end wall; 15-a water receiving tank; 16-card entry; 17-guiding ribs; 18-a drain hole; 19-heat insulation ribs; 20-a heat insulation groove; 21-a first wire clamping groove; 22-a second wire clamping groove; 23-wire passing structure; 24-mounting seats; 25-wire body; 26-an interface portion; 27-a slide guiding surface; 28-a receiving cavity; 29-upper stop; 30-a lower stop; 31-a wire passing cavity; 32-stop blocks; 33-an upper mounting portion; 34-a lower mounting portion; 35-a mounting cavity; 36-a first bent terminal; 37-a second bent terminal; 38-wire clamping port; 39-a third bent terminal; 40-fourth bending terminal; 41-an access port; 42-first positioning ribs; 43-second positioning ribs; 44-positioning grooves; 45-an air outlet window; 46-mounting port; 47-interface mounting location; 48-module mounting position; 49-a first mounting groove; 50-a second mounting groove; 51-reinforcing ribs; 52-a first mounting location notch; 53-second mounting location notch; 54-third mounting location notch; 55-sliding grooves; 56-positioning holes; 57-snap holes.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

In addition, the terms "first," "second," etc. mentioned in the embodiments of the present invention are used merely to distinguish descriptions, and are not to be construed as indicating or implying relative importance.

The invention will be described in detail below with reference to the drawings in connection with embodiments.

Fig. 1 is a schematic structural diagram of a first view angle of an air conditioning control system 1 according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a second view angle of the air conditioning control system 1 according to an embodiment of the present invention. Referring to fig. 1 and 2 in combination, the present embodiment discloses an air conditioner control system 1, which includes an air conditioner 2 and a functional module 3 (not shown).

Fig. 3 is a schematic view illustrating a first view angle of the blower scroll 4 according to an embodiment of the present invention. Referring to fig. 1-3, an air conditioner 2 includes a blower housing 4, a rear enclosure 5, an air inlet grille 6, and a universal serial bus 7 (Universal Serial Bus, USB).

Fig. 1 and 3 show the outside of the rear housing 5 and the outside of the blower volute 4, respectively, it being understood that the side facing away from the drawing is the inside of the rear housing 5 and the inside of the blower volute 4, respectively. The universal serial bus 7 (not shown) is mounted on the air supply volute 4, the inner side of the rear enclosure 5 is detachably connected with the outer side of the air supply volute 4, and an interface of the universal serial bus 7 is exposed, so that the functional module 3 can be conveniently dismounted. The air inlet grille 6 is detachably connected with the outer side of the rear enclosure 5 to selectively shield the functional module 3.

It should be noted that, the air conditioner control system 1 disclosed in this embodiment may be sold in a complete set, or only the air conditioner 2 with the universal serial bus 7 installed may be sold separately, and the functions such as communication, networking, etc. may be implemented by the purchase function module 3.

It will be appreciated that the functional module 3 may be a WIFI module or other module that can be conveniently connected directly to the universal serial bus 7.

With continued reference to fig. 2, in the present embodiment, the blower scroll 4 includes a lower housing 8 and an upper housing cover 9 disposed on the lower housing 8. Wherein, the lower shell 8 is provided with an air outlet for air. It will be appreciated that the upper housing cover 9 is used to mount the usb 7 to avoid damage to the usb 7 and the functional module 3 caused by condensation of the air conditioner 2 during use.

In this embodiment, the upper housing cover 9 includes a bottom wall 10, an inner side wall 11, an outer side wall 12, a first end wall 13, and a second end wall 14.

The inner side wall 11, the outer side wall 12, the first end wall 13 and the second end wall 14 are all provided on the bottom wall 10 and form a water receiving groove 15. The inner side wall 11 and the outer side wall 12 are disposed opposite each other, and the first end wall 13 and the second end wall 14 are disposed opposite each other. One end of the first end wall 13 is connected to the outer side wall 12, and the other end is connected to the inner side wall 11, and a card inlet 16 is formed at the upper portion, the card inlet 16 being used to facilitate routing of the universal serial bus 7. One end of the second end wall 14 is connected to the outer side wall 12 and the other end is connected to the inner side wall 11.

The height of the card inlet 16 from the bottom wall 10 may be set to 3mm to 4mm to prevent water from overflowing from the water receiving tank 15.

Fig. 3 is a schematic structural diagram of a second view angle of the blower scroll 4 according to an embodiment of the present invention. Referring to fig. 2 and 3 in combination, the bottom wall 10 is further provided with a plurality of guide ribs 17 and a plurality of drain holes 18 for being matched with each other to drain water.

In order to avoid damage to the usb 7 and the functional module 3 caused by condensation as much as possible, in this embodiment, the bottom wall 10 is further provided with a heat insulation rib 19, and an air heat insulation slot 20 is formed between the heat insulation rib 19 and the outer side wall 12, so as to reduce the condensation phenomenon on the outer side wall 12 as much as possible.

Fig. 5 is an enlarged view at E in fig. 3. Referring to fig. 3 and 5 in combination, in the present embodiment, a first slot 21 is formed in the inner sidewall 11, a second slot 22 is formed in the outer sidewall 12, and a wire passing structure 23 and a mounting seat 24 are further disposed at intervals on the outer side of the outer sidewall 12.

Fig. 6 is an enlarged view at D in fig. 2. Referring to fig. 6, in the present embodiment, the usb 7 includes a wire body 25 and an interface portion 26 connected to each other. It can be understood that the first wire clamping groove 21, the second wire clamping groove 22 and the wire passing structure 23 can be used for wiring the wire body 25, play a role in positioning and limiting, ensure the stability of the mounting structure, and prevent the wire body 25 from knotting or shaking to cause unstable mounting of the universal serial bus 7. The mount 24 is for mounting an interface portion 26.

The first slot 21 is formed at one end of the inner sidewall 11 and is connected to the card inlet 16. To facilitate the limiting of the wire 25. In this embodiment, one side wall of the card inlet 16 is inclined to form a sliding guide surface 27, so as to facilitate the wire 25 to be snapped into the first card slot 21 from top to bottom and then toward the slot bottom of the first card slot 21.

Fig. 7 is an enlarged view at a in fig. 3. Referring to fig. 3 and 7 in combination, in the present embodiment, a receiving cavity 28 is formed on a side wall of the second slot 22, and the receiving cavity 28 penetrates through the outer side wall 12 and is communicated with the second slot 22. It will be appreciated that this structure facilitates the wire 25 being snapped into the slot of the second wire-clamping groove 22 and further passing through the accommodating cavity 28 to prevent falling.

It should be noted that the two accommodating chambers 28 may be symmetrically disposed on two sidewalls of the second slot 22.

In this embodiment, the height of the second wire clamping groove 22 may be set to 6mm to 8mm, and the distance from the bottom wall 10 to the bottom of the second wire clamping groove 22 may be set to 3mm to 4mm. So that water can be prevented from overflowing from the water receiving tank 15 while ensuring a good wire clamping effect.

It should be appreciated that the blower scroll 4 may also be provided with a plurality of card slots, not limited to the first card slot 21 and the second card slot 22, to facilitate installation of the universal serial bus 7.

In this embodiment, the wire passing structure 23 includes an upper stop portion 29 and a lower stop portion 30, and the upper stop portion 29 and the lower stop portion 30 are disposed opposite to each other on the outer side of the outer sidewall 12, and form a wire passing cavity 31. It will be appreciated that the wire body 25 may pass through the wire passing cavity 31 between the upper stop 29 and the lower stop 30.

In order to ensure convenient assembly and prevent the wire body 25 from falling, in this embodiment, the wire passing structure 23 further includes a stop block 32, where the stop block 32 is disposed on the lower stop portion 30 and opposite to the outer side wall 12, the stop block 32 is disposed with the upper stop portion 29 in a staggered manner, and the outer side wall 12, the upper stop portion 29, the lower stop portion 30 and the stop block 32 enclose a wire passing cavity 31.

In one embodiment, the mounting base 24 includes an upper mounting portion 33 and a lower mounting portion 34, and the upper mounting portion 33 and the lower mounting portion 34 are disposed opposite to each other on the outer side of the outer sidewall 12 and form a mounting cavity 35. The mounting cavity 35 is for mounting the interface portion 26.

In this embodiment, one end of the upper mounting portion 33 is bent toward the lower mounting portion 34 to form a first bending terminal 36, one end of the lower mounting portion 34 is bent toward the upper mounting portion 33 to form a second bending terminal 37, a wire clamping opening 38 is formed between the first bending terminal 36 and the second bending terminal 37, and the wire clamping opening 38 is used for clamping in a connecting end of the wire body 25 and the interface portion 26.

One end of the upper mounting portion 33 away from the first bending terminal 36 is bent toward the lower mounting portion 34 to form a third bending terminal 39, one end of the lower mounting portion 34 away from the second bending terminal 37 is bent toward the lower mounting portion 34 to form a fourth bending terminal 40, and an access port 41 is formed between the third bending terminal 39 and the fourth bending terminal 40. The access port 41 is used for exposing the interface of the universal serial bus 7.

In order to facilitate the installation and positioning of the interface portion 26, in this embodiment, the inner wall of the mounting seat 24 is provided with a first positioning rib 42 and a plurality of second positioning ribs 43.

Wherein, first location muscle 42 sets up to two, and one of them first location muscle 42 sets up in upper mounting portion 33, and another first location muscle 42 sets up in lower mounting portion 34, and two first location muscle 42 are relative to setting. In addition, the two first positioning ribs 42 are inclined towards one end of the mounting seat 24, so as to play a guiding role and facilitate the cooperation with the interface part 26.

The plurality of second positioning ribs 43 are provided at intervals inside the upper mounting portion 33. It will be appreciated that the curved surface formed by the free ends of the plurality of second locating ribs 43 can conform to the outer surface of the interface portion 26.

Fig. 8 is an assembly structure diagram of the universal serial bus 7 and the blower scroll 4 according to the embodiment of the present invention. Referring to fig. 8, in the present embodiment, positioning grooves 44 are formed on both the upper and lower sides of the interface portion 26, and are used to cooperate with two first positioning ribs 42.

It can be understood that, in the air conditioner control system 1 disclosed in the embodiment, when the universal serial bus 7 and the air supply volute 4 are assembled, the interface portion 26 may be first clamped into the installation cavity 35, the two positioning grooves 44 are matched with the two first positioning ribs 42, the upper surface of the interface portion 26 is attached to the plurality of second positioning ribs 43, the interface of the universal serial bus 7 is disposed at the access port 41 of the installation seat 24, and the connection end of the interface portion 26 and the wire body 25 is clamped at the wire clamping port 38. The wire body 25 is then sequentially passed through the wire passing cavity 31 of the wire passing structure 23, the second wire clamping groove 22 and the first wire clamping groove 21, and further connected to a power source.

It will be appreciated that the assembly process may also be reversed from the first card slot 21, the second card slot 22, the wire passing structure 23 to the mounting seat 24.

Fig. 9 is a schematic structural view of the rear enclosure 5 according to the first embodiment of the present invention. Fig. 10 is a schematic structural view of the rear enclosure 5 according to the embodiment of the present invention at a second view angle. Referring to fig. 9 and 10 in combination, the side shown in fig. 9 is the inner side of the back shell 5, and the side shown in fig. 10 is the outer side of the back shell 5. The rear enclosure 5 has a substantially rectangular case shape. And an air outlet window 45 is formed at the upper part for being matched with an air outlet when the rear enclosure 5 and the air supply volute 4 are assembled. The outside of the air outlet window 45 is also used for installing an air inlet grille 6.

It will be appreciated that in this embodiment, the inside of the rear enclosure 5 is adapted to fit with the blower housing 4 to locate the universal serial bus 7 between the blower housing 4 and the rear enclosure 5. And, also set up the mounting hole 46 on the back enclosure 5, in order to be used for the functional module 3 to pass the mounting hole 46 from the back enclosure 5 outside and be connected with universal serial bus 7.

In order to facilitate the disassembly and assembly of the functional module 3, and to occupy as little space as possible. In this embodiment, the inner side of the rear enclosure 5 is provided with an interface mounting position 47, the outer side is provided with a module mounting position 48, the interface mounting position 47 is recessed outward to form a first mounting groove 49, and the first mounting groove 49 is used for accommodating the interface portion 26.

The module mounting locations 48 are recessed inwardly to form second mounting slots 50, the second mounting slots 50 for receiving the functional modules 3. It should be noted that the mounting port 46 communicates with the interface mounting location 47 and the module mounting location 48.

In order to match the structure of the blower scroll 4 and facilitate installation, in this embodiment, the interface mounting position 47 and the module mounting position 48 are both disposed at the top of the air outlet window 45 and are disposed inside and outside the air outlet window 45, respectively.

Fig. 11 is an enlarged view at B in fig. 9. Referring to fig. 9 and 11 in combination, in the present embodiment, a reinforcing rib 51 is disposed on the inner side of the rear enclosure 5, a first mounting notch 52 is formed on the reinforcing rib 51, and the first mounting notch 52 is used for threading the wire body 25.

Fig. 12 is an enlarged view at C in fig. 10. Referring to fig. 10 and 12 in combination, in the present embodiment, the interface mounting position 47 is provided with a second mounting position notch 53, and the second mounting position notch 53 communicates with the mounting opening 46. It will be appreciated that the second mounting notch 53 may be used to facilitate the user in observing the front and back sides when inserting the functional module 3 into the interface of the usb 7, so as to avoid the insertion failure caused by the reverse insertion.

The module mounting location 48 is further provided with a third mounting location notch 54, and the third mounting location notch 54 is communicated with the second mounting groove 50. It will be appreciated that the third mounting location notch 54 may be used to facilitate gripping of the functional module 3 with a hand when inserting the functional module 3.

In this embodiment, the third mounting position notch 54 exposes a width of about 10mm to 15mm when the functional module 3 is connected to the usb 7, so as to facilitate the detachment of the functional module 3.

With continued reference to fig. 10, in this embodiment, sliding grooves 55 are provided on two sides of the air outlet window 45 for matching with the air inlet grille 6.

For easy assembly, in this embodiment, the bottom of the air outlet window 45 is provided with a positioning hole 56, and the top is also provided with a clamping hole 57.

In this embodiment, a positioning terminal (not shown) is disposed at the bottom end of the air inlet grille 6, and the top of the air inlet grille 6 is bent to form a mounting strip (not shown), and a clamping terminal (not shown) is disposed on the mounting strip. Both sides of the air inlet grille 6 are respectively in sliding fit with two sliding grooves 55. When the air inlet grille 6 slides to the limit state, the positioning terminal is clamped with the positioning hole 56, and the clamping terminal is clamped with the clamping hole 57.

The limit state refers to the fact that the inlet grille 6 slides to a position where it can no longer slide.

Fig. 10 is an assembly structure diagram of the universal serial bus 7, the back shell 5 and the functional module 3 according to the first view angle of the embodiment of the present invention. Fig. 14 is an assembly structure diagram of the universal serial bus 7, the back shell 5 and the functional module 3 according to the second view angle of the embodiment of the present invention. Referring to fig. 13 and 14 in combination, when the air conditioner control system 1 disclosed in this embodiment is assembled, after the universal serial bus 7 is assembled with the air supply volute 4, the rear enclosure 5 is assembled to the air supply volute 4, at this time, the interface portion 26 of the universal serial bus 7 is accommodated in the interface mounting position 47, the interface of the universal serial bus 7 is opposite to the mounting opening 46, and the wire body 25 can move in the first mounting position notch 52, so as to avoid the wire body 25 being extruded when the rear enclosure 5 and the air supply volute 4 are assembled. The functional module 3 is then placed in the module mounting location 48 and extends into the mounting port 46 for interfacing with the universal serial bus 7. Finally, the two sides of the air inlet grille 6 and the sliding grooves 55 on the two sides of the air outlet window 45 are in sliding fit with the positioning terminals and the positioning holes 56 in a clamping manner, and the clamping terminals and the clamping holes 57 are in clamping manner.

In summary, the interface portion 26 of the universal serial bus 7 of the air conditioner 2 disclosed in this embodiment is mounted on the mounting seat 24 of the air supply volute 4, and since the first positioning rib 42 and the second positioning rib 43 are disposed in the mounting seat 24, the assembly efficiency of the universal serial bus 7 can be high, the mounting structure stability is strong, the wire passing structure 23 is disposed on the outer side of the air supply volute 4 adjacent to the mounting seat 24, and the wire clamping groove is further formed in the air supply volute 4, so that the wire body 25 of the universal serial bus 7 can pass through the wire passing structure 23 and the wire clamping groove, dropping or knotting of the wire body 25 is prevented, and the stability of the mounting structure of the universal serial bus 7 is ensured. The rear enclosure 5 of the air conditioner 2 is detachably connected with the air supply volute 4, and the interface of the universal serial bus 7 is communicated with the mounting port 46, so that the functional modules 3 such as the WIFI module can conveniently pass through the mounting port 46 from the outer side of the rear enclosure 5 to be connected with the interface of the universal serial bus 7. The air inlet grille 6 is detachably connected with the rear enclosure 5, so that the functional module 3 can be shielded, and the functional module 3 can be conveniently installed and detached. That is, after the air conditioner 2 of the present invention is sold, a user can purchase the functional module 3 such as the WIFI module by himself or herself and conveniently install the functional module on the usb 7, thereby realizing the functions.

The air conditioner control system 1 disclosed in this embodiment includes a functional module 3, such as a WIFI module, and the air conditioner 2 disclosed in this embodiment of the present invention, a user can conveniently connect the functional module 3 with an interface of the universal serial bus 7 through the mounting port 46 from the outside of the rear enclosure 5 according to actual needs, so as to implement a function, and the mounting structure is stable.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (11)

1. An air conditioner is characterized by comprising an air supply volute (4), a rear enclosure (5), an air inlet grille (6) and a universal serial bus (7);

The air supply volute (4) is provided with a wire clamping groove, the outer side of the air supply volute (4) is also provided with a wire passing structure (23) and a mounting seat (24), the wire passing structure (23) comprises an upper stop part (29) and a lower stop part (30), and the upper stop part (29) and the lower stop part (30) are oppositely arranged on the outer side of the air supply volute (4) and form a wire passing cavity (31); the universal serial bus (7) comprises a wire body (25) and an interface part (26) which are connected with each other, the wire body (25) passes through the wire clamping groove and the wire passing structure (23), and the interface part (26) is arranged in the mounting seat (24);

The rear enclosure (5) is detachably connected with the air supply volute (4), the interface part (26) is arranged between the rear enclosure (5) and the air supply volute (4), a mounting opening (46) is formed in the rear enclosure (5), the mounting opening (46) is used for enabling a functional module (3) to penetrate through the mounting opening (46) from the outer side of the rear enclosure (5) and be connected with the universal serial bus (7), and the air inlet grille (6) is detachably connected with the rear enclosure (5) so as to selectively shield the functional module (3);

An interface mounting position (47) is arranged on the inner side of the rear enclosure (5), a module mounting position (48) is arranged on the outer side of the rear enclosure, a first mounting groove (49) is formed by outwards recessing the interface mounting position (47), the universal serial bus (7) comprises a wire body (25) and an interface part (26) which are connected with each other, and the interface part (26) is arranged in the first mounting groove (49); the module mounting position (48) is recessed inwards to form a second mounting groove (50), the functional module (3) is arranged in the second mounting groove (50), and the mounting opening (46) is communicated with the interface mounting position (47) and the module mounting position (48).

2. The air conditioner according to claim 1, wherein the air supply volute (4) comprises a lower casing (8) and an upper casing cover (9) arranged on the lower casing (8), the upper casing cover (9) comprises an inner side wall (11) and an outer side wall (12) which are oppositely arranged, the wire clamping groove comprises a first wire clamping groove (21) and a second wire clamping groove (22), the first wire clamping groove (21) is formed in the inner side wall (11), the second wire clamping groove (22) is formed in the outer side wall (12), and the wire passing structure (23) and the mounting seat (24) are arranged on the outer side of the outer side wall (12).

3. An air conditioner according to claim 2, wherein the first card slot (21) is opened at one end of the inner side wall (11), and the upper cover (9) further comprises a first end wall (13), one end of the first end wall (13) is connected with the outer side wall (12), the other end forms a card inlet (16) with the inner side wall (11), and the card inlet (16) is communicated with the first card slot (21).

4. The air conditioner according to claim 2, wherein a receiving chamber (28) is provided on a side wall of the second wire clamping groove (22), and the receiving chamber (28) penetrates through the outer side wall (12) and is communicated with the second wire clamping groove (22).

5. The air conditioner according to claim 1, wherein the wire passing structure (23) further comprises a stop block (32), the stop block (32) is disposed on the lower stop portion (30) and is disposed opposite to the air supply volute (4), the stop block (32) is disposed in a staggered manner with respect to the upper stop portion (29), and the air supply volute (4), the upper stop portion (29), the lower stop portion (30) and the stop block (32) enclose the wire passing cavity (31).

6. The air conditioner according to claim 1, wherein the mounting base (24) includes an upper mounting portion (33) and a lower mounting portion (34), the upper mounting portion (33) and the lower mounting portion (34) are disposed opposite to each other on the outer side of the blower scroll (4) and form a mounting cavity (35), one end of the upper mounting portion (33) and one end of the lower mounting portion (34) form a wire clamping opening (38), and the other end of the upper mounting portion (33) and the other end of the lower mounting portion (34) form an access opening (41).

7. The air conditioner according to claim 1, wherein a reinforcing rib (51) is arranged on the inner side of the rear enclosure (5), a first installation position gap (52) is formed in the reinforcing rib (51), and the first installation position gap (52) is used for the wire body (25) to pass through.

8. The air conditioner according to claim 1, wherein a second installation position gap (53) is formed on the interface installation position (47), and the second installation position gap (53) is communicated with the installation opening (46).

9. The air conditioner according to claim 1, wherein a third installation site gap (54) is formed in the module installation site (48), and the third installation site gap (54) is communicated with the second installation groove (50).

10. The air conditioner according to claim 1, wherein the rear enclosure (5) is provided with an air outlet window (45), the mounting opening (46) is formed in the top of the air outlet window (45), sliding grooves (55) are formed in two sides of the air outlet window (45), and two sides of the air inlet grille (6) are respectively in sliding fit with the two sliding grooves (55).

11. An air conditioning control system, characterized by comprising a functional module (3) and an air conditioner (2) according to any one of claims 1-10, said functional module (3) being detachably connected to said universal serial bus (7) from outside said rear enclosure (5) through said mounting opening (46).