CN108344144A - Air conditioner air guide module and air conditioner - Google Patents

Abstract

The invention relates to the technical field of refrigeration engineering, and provides an air guide module of an air conditioner, which comprises: the air deflector is arranged at the air outlet of the air conditioner and is driven to close or open the air outlet; the wind sweeping assembly is arranged on the air deflector; the driving device comprises a first driving mechanism and a second driving mechanism which are arranged on two sides or one side of the length direction of the air conditioner shell, and the first driving mechanism is used for driving the air deflector to rotate; the second driving mechanism is provided with a second driving mechanism output shaft, and the second driving mechanism output shaft is in transmission connection with the wind sweeping rotating shaft of the wind sweeping assembly so as to drive the wind sweeping assembly to rotate. The problem of among the prior art sweep the wind mechanism and set up inside air conditioner wind channel, dismantle difficulty, wash inconvenient is solved.

Description

Air conditioner air guide module and air conditioner

Technical Field

The invention relates to the technical field of refrigeration engineering, in particular to an air guide module of an air conditioner and the air conditioner.

Background

The air deflector is widely applied to air conditioning equipment and has the function of controlling the air outlet angle and realizing air sweeping.

In the prior art, as shown in fig. 16, an air conditioner air sweeping mechanism 1002 is disposed in an air conditioner air duct 1001, an air conditioner air deflector 1003 is disposed at an air outlet of the air conditioner air duct 1001, and cold air and hot air of an air conditioner pass through the air conditioner air sweeping mechanism 1002 and then pass through the air conditioner air deflector 103 to complete air conditioner air guiding work.

The air conditioner air sweeping mechanism and the air conditioner air deflector of the air deflector are arranged inside an air conditioner air duct and at an air outlet of the air conditioner air duct respectively, and are required to be assembled and disassembled independently, and independent driving systems are arranged respectively, the occupied space is large, in addition, the air conditioner air sweeping mechanism arranged inside the air conditioner air duct is more difficult to assemble and disassemble due to the narrow space of the air conditioner air duct, the air conditioner air sweeping mechanism and the air conditioner air deflector are difficult to clean, accumulated pollution is easily generated, and secondary pollution is caused.

The air conditioner of above-mentioned air guide component sweeps wind mechanism and air conditioner aviation baffle and puts and dismantle earlier aviation baffle air-out department and wash when air conditioner wind channel is inside and air outlet department, and just need will sweep the wind mechanism and dismantle when the space of wind mechanism inside is swept in needs washing, otherwise sweep wind mechanism and can lead to the fact to block to the space of wind channel inside, dismantle troublesome and wash inconveniently.

Disclosure of Invention

Therefore, the invention aims to solve the technical problems that the air sweeping mechanism is arranged in the air duct of the air conditioner, so that the air sweeping mechanism is difficult to disassemble and inconvenient to clean in the prior art.

In order to solve the technical defects, in a first aspect, the present invention provides an air guide module for an air conditioner, including: the air deflector is arranged at the air outlet of the air conditioner and is driven to close or open the air outlet; the wind sweeping assembly is arranged on the air deflector; the driving device comprises a first driving mechanism and a second driving mechanism which are arranged on two sides or one side of the length direction of the air conditioner shell, and the first driving mechanism is used for driving the air deflector to rotate; the second driving mechanism is provided with a second driving mechanism output shaft, and the second driving mechanism output shaft is in transmission connection with the wind sweeping rotating shaft of the wind sweeping assembly so as to drive the wind sweeping assembly to rotate.

Optionally, the second driving mechanism output shaft and the wind sweeping rotating shaft are coaxially arranged.

Optionally, the second driving mechanism output shaft is provided with an inner hole, and the wind sweeping rotating shaft is connected in the inner hole in a transmission manner.

Optionally, a claw or a claw groove is arranged in the inner hole, and a claw groove or a claw which is matched with the claw or the claw groove of the inner hole in a clamping manner is arranged at one end, facing the second driving output shaft, of the wind sweeping rotating shaft.

Optionally, the first driving mechanism is provided with a first driving mechanism output shaft in transmission connection with the air deflector, and the first driving mechanism output shaft and the second driving mechanism output shaft are respectively arranged on two sides of the wind sweeping rotating shaft.

Optionally, the wind sweeping device further comprises a supporting device, wherein the supporting device comprises a first supporting mechanism which is matched with the first driving mechanism to support the wind deflector and a second supporting mechanism which is matched with the second driving mechanism to support the wind sweeping assembly; the first supporting mechanism is rotatably connected with the air deflector, and the second supporting mechanism is rotatably connected with the wind sweeping rotating shaft of the wind sweeping assembly.

Optionally, the first supporting mechanism includes a supporting member disposed at an end of the second driving mechanism close to the air deflector, and a first supporting frame disposed on the air deflector and having a first engaging groove, and the supporting member is rotatably disposed in the first engaging groove.

Optionally, the supporting member is disposed on a side of the end portion of the second driving mechanism, which is far away from the wind sweeping rotating shaft, and correspondingly, the first supporting frame is disposed on the wind deflector on a side of the second driving mechanism, which is far away from the wind sweeping rotating shaft; or the supporting piece is arranged on one side, close to the wind sweeping rotating shaft, of the end part of the second driving mechanism, and correspondingly, the first supporting frame is arranged on the air deflector on one side, close to the wind sweeping rotating shaft, of the second driving mechanism; the supporting piece is sleeved on the outer side of the output shaft of the second driving mechanism.

Optionally, the first support mechanism includes a first support frame disposed on the air deflector and located inside the second drive mechanism, the first support frame has a first slot, and the wind sweeping rotating shaft is rotatably disposed in the first slot.

Optionally, the second support mechanism includes a second support frame disposed on the air deflector between the first drive mechanism and the wind sweeping rotating shaft, and the second support frame is connected to the first drive mechanism output shaft of the first drive mechanism through a detachable structure.

Optionally, the detachable structure comprises a jaw arranged at one end of the output shaft of the first driving mechanism and a jaw groove arranged at one end face of the output shaft of the first driving mechanism, and the jaw extends into the jaw groove and is connected with the jaw groove in a clamped mode.

Optionally, the clamping jaw is an elastic clamping jaw, and the elastic clamping jaw is inserted into the clamping jaw groove through elastic deformation to be matched with the clamping jaw groove.

Optionally, the detachable structure further includes an insertion block disposed at an end of the wind guide output shaft, and an insertion groove of the first support seat facing the end face of one end of the wind guide output shaft and matching with the insertion block.

Optionally, the insertion block is positioned between the jaws to form a cross-shaped structure; the clamping jaw groove and the inserting groove are vertically arranged to form a cross-shaped groove matched with the cross-shaped structure.

Optionally, one end of the second support frame, which faces away from the output shaft of the first driving mechanism, is rotatably connected with the wind sweeping rotating shaft.

An inner cavity is formed in one end, back to the first driving mechanism output shaft, of the second supporting frame, and the end, facing away from the first driving mechanism output shaft, of the wind sweeping rotating shaft is rotatably connected to the inner cavity.

Optionally, a transmission motor is arranged at an end part of the first driving mechanism, which is close to one end of the air deflector, and the transmission motor is provided with the first driving mechanism output shaft.

Optionally, the second supporting mechanism includes a third supporting frame provided with a third clamping groove and disposed on the air deflector, and the wind sweeping rotating shaft is rotatably connected to the third supporting frame.

Optionally, the third support frame is arranged in the middle of the wind sweeping rotating shaft or close to the end of the first driving mechanism; or the number of the third support frames is at least two, and the third support frames are respectively arranged in the middle of the wind sweeping rotating shaft and at the end part close to the first driving mechanism.

Optionally, the first driving mechanism is connected to the air deflector through a telescopic driving rod, and the second driving mechanism is connected to the wind sweeping assembly through a telescopic driving rod.

Optionally, the first driving mechanism output shaft and the second driving mechanism output shaft are respectively disposed on the corresponding driving rods.

Optionally, the telescopic driving rod comprises a driving rod body and a rack arranged on the driving rod body, a gear is mounted on an output shaft of a first driving motor of the driving box corresponding to the driving rod, and the rack is engaged with the gear.

Optionally, the rack is an arc rack.

Optionally, the first driving mechanism is located on the left side of the air deflector, and the second driving mechanism is located on the right side of the air deflector; or the first driving mechanism is positioned on the right side of the air deflector, and the second driving mechanism is positioned on the left side of the air deflector.

Optionally, the air deflector includes: the air guide plate comprises an outer air guide plate and an inner air guide plate arranged on the inner side face of the outer air guide plate, wherein the inner air guide plate is arranged on the inner side face of the outer air guide plate.

Optionally, the wind sweeping assembly comprises the wind sweeping rotating shaft and a wind sweeping blade arranged on the wind sweeping rotating shaft.

Optionally, the wind sweeping blades are multiple, and the wind sweeping blades are arranged at intervals along the axial direction of the wind sweeping rotating shaft.

Optionally, the wind sweeping blade is of a disc-shaped structure and is obliquely arranged on the wind sweeping rotating shaft.

Optionally, the wind sweeping blade is elliptical or circular.

Optionally, the wind sweeping rotating shaft is arranged at the circle center of the circular wind sweeping blade.

Optionally, the wind sweeping rotating shaft and the wind sweeping blades are of an integrated structure.

In a second aspect, the invention provides an air conditioner, which includes the air guide module for an air conditioner, where the air guide module is disposed at an air outlet of the air conditioner.

The technical scheme of the invention has the following advantages:

1. according to the air guide module of the air conditioner, the air sweeping assembly is moved out of the air outlet to the air guide plate, so that the technical problem that the inner space of the air duct is inconvenient to clean is solved. In addition, the output shaft of the second driving mechanism is in transmission connection with the wind sweeping rotating shaft of the wind sweeping assembly, so that the wind sweeping rotating shaft rotates under the driving force of the second driving mechanism to realize wind sweeping of the wind sweeping assembly.

2. According to the air guide module of the air conditioner, the output shaft of the second driving mechanism for driving the air sweeping rotating shaft to sweep air and the air sweeping rotating shaft are coaxially arranged along the axial direction of the air guide plate, so that the problem of large occupied space caused by the staggered arrangement of the output shaft and the air sweeping rotating shaft is solved, and the air guide module of the air conditioner has the advantage of optimized spatial layout.

3. The air guide module of the air conditioner is connected with the first support frame arranged on the air guide plate through the support piece which is arranged on the second driving mechanism and is far away from the air sweeping rotating shaft, the support piece is connected with the air guide plate through the first support frame, so that the air guide plate and the air conditioner shell are directly connected through the second driving mechanism to support the air guide plate, and the support piece is independently arranged on the second driving mechanism.

4. The air guide module of the air conditioner is connected with the first support frame arranged on the air guide plate through the support piece sleeved on the output shaft of the second driving mechanism, the air guide plate can be supported only by the existing second driving mechanism, and the air guide module of the air conditioner has the advantages of simple connection structure, low production cost, firm connection and fixation and strong reliability.

5. According to the air guide module of the air conditioner, the first support frame is arranged at the position which is fixed on the air guide plate and close to the first support mechanism, the first support frame is connected with the second driving mechanism through the air sweeping rotating shaft, a support piece does not need to be arranged on the second driving mechanism, and the air guide module of the air conditioner has the advantage of low production and use cost.

6. According to the air guide module of the air conditioner, the air guide plate and the first driving mechanism are connected in a mode of combining the elastic clamping jaws and the inserting blocks, and the elastic clamping jaws ensure that the transmission shaft and the shaft hole cannot fall off after being installed; the plug-in block has simple and reliable structure, and can effectively transmit the rotating force of the output shaft of the first driving mechanism, thereby firmly and reliably transmitting and connecting the air deflector and the first driving mechanism.

7. The air guide module of the air conditioner provided by the invention is characterized in that the elastic clamping jaw and the inserting block form a cross-shaped connecting end. The cross-shaped connecting end has the advantages of uniform stress and firm connection.

8. According to the air guide module of the air conditioner, the first supporting seat is arranged between the air sweeping rotating shaft and the output shaft of the first driving mechanism and is respectively connected with the air sweeping rotating shaft and the first driving mechanism, so that the air sweeping assembly and the first driving mechanism are simultaneously connected, two connecting pieces do not need to be arranged on the air deflector independently, and the spatial layout of the air conditioner is optimized.

9. The air guide module of the air conditioner is connected with the air sweeping rotating shaft through the second supporting seat, the air sweeping rotating shaft is driven to rotate through the air sweeping motor in the second supporting seat, the air sweeping motor is directly arranged on the air guide plate, when the air conditioner runs, the air sweeping motor can rotate out along with the air guide plate, the air guide module cannot occupy the air outlet channel space and block an air outlet channel because the driving mechanism is arranged in the air outlet, and the problem that the existing air outlet inner air channel is inconvenient to clean because of various parts is solved because the air sweeping assembly driving mechanism is arranged on the air guide plate.

10. According to the air guide module of the air conditioner, the telescopic driving rod is arranged on the first driving mechanism to push the air guide plate to stretch and retract so as to drive the air outlet to be opened or closed, when the air outlet is opened, the air guide plate and the air sweeping component arranged on the air guide plate are far away from the air outlet of the air conditioner, the influence of shells on two sides of the air outlet of the air conditioner on the air sweeping area of the air sweeping component is avoided, and therefore the air sweeping area of the air sweeping component of the air conditioner is increased.

11. According to the air guide module of the air conditioner, the air guide plate pushing mechanism drives the driving rod to stretch and retract through the structure that the gear and the rack which are arranged on the first driving mechanism are matched. The push-out mechanism is arranged in the first driving mechanism, so that the structural layout of the driving mechanism can be optimized, and the push-out mechanism has the advantages of simple and reliable structure.

12. According to the air guide module of the air conditioner, the disc-shaped wind sweeping blades are obliquely and alternately arranged on the wind sweeping rotating shaft, the wind sweeping blades can play a role in guiding the wind direction by virtue of rotary motion without being driven by a swing mechanism, and the air guide module of the air conditioner has the advantages of good wind sweeping effect and simple transmission structure.

13. The air guide module of the air conditioner provided by the invention has the advantages that the wind sweeping rotating shaft is arranged at the circle center of the circular wind sweeping blade. The wind sweeping blades are prevented from rotating eccentrically at the centers, so that the largest wind sweeping area can be obtained under the condition that the occupied space volume of the wind sweeping blades is the minimum, and the wind sweeping capacity of the air conditioner is improved.

14. According to the air guide module of the air conditioner, the wind sweeping rotating shaft and the wind sweeping blades are arranged into an integrated structure, so that the air guide module has the advantage of convenience in processing, and the product competitiveness is improved.

15. The air guide module of the air conditioner, provided by the invention, has the advantages that the air guide plate is formed by the outer air guide plate and the inner air guide plate, the air guide plate is firm and reliable, and the supporting effect on the wind sweeping component can be achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic position diagram of an air deflector and a wind sweeping assembly in an air guide module of an air conditioner provided by the invention;

fig. 2 is a schematic structural view of an air guide module provided in the present invention;

fig. 3 is a schematic view illustrating a connection between an air guiding module and an air guiding plate of an air conditioner according to the present invention;

fig. 4 is a schematic view illustrating a connection between an air guide module of an air conditioner and an air guide plate including an outer air guide plate and an inner air guide plate according to the present invention;

fig. 5 is a schematic connection diagram of the air guide module of the air conditioner, the air deflector and the air sweeping assembly provided by the invention;

FIG. 6 is a schematic view of the connection position of the air deflection mechanism and the air deflection plate according to the present invention;

FIG. 7 is a schematic view of the connection position of the driving mechanism of the wind sweeping assembly and the wind sweeping assembly according to the first aspect of the invention;

FIG. 8 is a schematic view of the connection position of the driving mechanism of the wind sweeping assembly and the wind sweeping assembly according to the second aspect of the present invention;

FIG. 9 is a schematic view of a connection structure of a second support member for mounting a wind sweeping rotating shaft according to the present invention;

fig. 10 is a schematic structural view of a driving box provided with a driving rod in an extended state according to the present invention;

fig. 11 is a schematic structural view of a driving box provided in the invention, when a driving rod arranged on the driving box is in a contracted state;

FIG. 12 is a schematic view of the connection between the clamping jaw and the clamping jaw slot provided on the first supporting seat;

FIG. 13 is a schematic view of the connection between the wind sweeping output shaft provided on the driving box and the second supporting member according to the present invention;

fig. 14 is a schematic perspective view of a first supporting seat according to the present invention;

FIG. 15 is a schematic perspective view of a second support member provided in the present invention;

fig. 16 is a schematic position diagram of an air conditioner air sweeping mechanism and an air conditioner air deflector in the prior art.

Description of reference numerals:

b 1-wind deflector; m 31-air outlet; b 3-wind sweeping assembly; b4 — first drive mechanism; b5 — a second drive mechanism; b 7-second drive mechanism output shaft; b 8-wind sweeping rotating shaft; b9 — a first support mechanism; b 10-a second support mechanism; b 6-support; b11 — first drive lever; b 12-first card slot; b 13-first support frame; b 28-second support; b 16-third support shelf; b 17-third card slot; b 18-external wind deflector; b 19-inner wind deflector; b 20-wind sweeping blades; b 21-drive motor; b 22-rack; b 23-driving motor; b 24-jaw; b 25-jaw slot; b 26-plug-in block; b 27-plug groove; b29 — first drive mechanism output shaft; 1001-air-conditioning duct; 1002-air conditioner air sweeping mechanism; 1003-air conditioner air deflector.

Detailed Description

Example 1

A wind guide module, as shown in fig. 1 and 5, includes: the air deflector b1 is arranged at the air outlet and is driven to close or open the air outlet m 31; and the wind sweeping component b3 is arranged on the wind deflector b 1.

Sweep the wind subassembly, the medial surface of relative aviation baffle is fixed to be set up, a wind direction for guiding out the air outlet, sweep the wind subassembly with the help of the air deflector setting in the air outlet department of air-out frame, because sweep wind subassembly and aviation baffle and set up as a whole, when tearing open the machine and wasing, can be comparatively convenient will sweep wind subassembly and aviation baffle and together demolish, the user of being convenient for washs the air-out frame, thereby solved current air conditioner and be difficult to carry out thoroughly cleaned's technical defect to the air-out frame, avoided the air to blow off through the air-out frame and caused secondary pollution to the environment, threaten the user health.

In this embodiment, as shown in the schematic structural diagram of the wind guiding module shown in fig. 2, the wind guiding module further includes: the driving device comprises a first driving mechanism b4 for driving the air deflector b1 to rotate and a second driving mechanism b5 for driving the wind sweeping assembly b 3; the air guide plate pushing mechanism comprises driving rods b11 arranged on the driving boxes on two sides of the air conditioner in the axial direction and two first driving motors b21 which are used for extending and contracting with the driving rods b11 and are respectively arranged on the two driving boxes. The output end of the first driving motor b21 is connected with a gear, and the driving rod b11 is provided with a rack b22 meshed with the gear. The telescopic actuating lever promotes the aviation baffle and stretches out and draws back, and the drive air outlet is opened or is closed, and when the air outlet was opened, the air-conditioning outlet was kept away from to aviation baffle and the subassembly of sweeping the wind that sets up on the aviation baffle, avoided the casing influence of air-conditioning outlet both sides to sweep the wind area of subassembly to the air-conditioning is swept the wind area of subassembly has been improved.

Of course, the present invention is not limited to the telescopic structure of the driving rod, and in other embodiments, the telescopic structure may be an electric push rod similar to a hydraulic push rod, and the advance and retreat of the push rod are controlled by electric power, so as to control the telescopic action of the driving rod b 11.

In this embodiment, in order to optimize the spatial layout of the driving mechanisms, as shown in fig. 5, the first driving mechanism b4 and the second driving mechanism b5 are located on opposite sides of the air conditioner in the axial direction, and the second driving mechanism output shaft b7 and the wind sweeping rotating shaft b8 are coaxially arranged along the axial direction of the air deflector b1, so that the problem of large occupied space caused by the staggered arrangement of the second driving mechanism output shaft and the wind sweeping rotating shaft is avoided, and the spatial layout optimization is advantageous.

In order to further optimize the spatial layout of the driving mechanism, the first driving mechanism output shaft b29, the second driving mechanism output shaft b7 and the wind sweeping rotating shaft b8 are coaxially arranged along the axial direction of the air deflector b 1. The problem of two drive shafts and sweep that the space occupation is big that the setting of wind pivot dislocation leads to is avoided, has the advantage of optimizing spatial layout.

Of course, the positions of the first driving mechanism b4 and the second driving mechanism b5 are not limited in the present invention, and in other embodiments, the first driving mechanism b4 and the second driving mechanism b5 are located on the same axial side of the air conditioner. Thereby more space is vacated for the other side of air conditioner to adapt to the air conditioner of different space layouts.

Of course, the invention is not limited to whether the first driving mechanism output shaft b29, the second driving mechanism output shaft b7 and the wind sweeping rotating shaft b8 are coaxial, and in other embodiments, the three shafts are not coaxial, so as to adapt to air conditioners with different space layouts.

In order to optimize the spatial layout of the driving mechanism, as shown in fig. 6 and 7, a motor installation cavity, a transmission motor b23 having a first driving mechanism output shaft b29, and a transmission motor having a second driving mechanism output shaft b7 are respectively disposed in two motor installation cavities, at one end of the driving rod b11, which is close to the air deflector b1, and which are respectively disposed on the first driving mechanism b4 and the second driving mechanism b 5. When the air conditioner runs, the transmission motor can rotate out along with the air deflector, the air outlet channel space cannot be occupied and the air outlet channel cannot be blocked due to the fact that the transmission motor is arranged inside the air outlet, and the air outlet efficiency and the cleaning efficiency are improved.

As shown in fig. 5, in order to support the wind sweeping assembly b3 and the wind deflector b1, the air conditioner further comprises a supporting device, wherein the supporting device comprises a first supporting mechanism b9 which is matched with the first driving mechanism b4 to support the wind deflector b1, and a second supporting mechanism b10 which is matched with the second driving mechanism b5 to support the wind sweeping assembly b 3.

The first supporting mechanism b9 includes a supporting member b6 disposed at a side of the end of the second driving mechanism b5 away from the wind sweeping rotating shaft b8, and a first supporting member b13 disposed on the wind deflector b1, wherein the first supporting member b13 is a hook structure and is hooked with an outer edge of the supporting member b 6. The supporting piece is arranged on the second driving mechanism and far away from the wind sweeping rotating shaft, the supporting piece is connected with the first supporting frame arranged on the air guide plate, the supporting piece is connected with the air guide plate through the first supporting frame, the air guide plate and the air conditioner shell are directly connected through the second driving mechanism, the air guide plate is supported, the supporting piece is arranged on the second driving mechanism independently, and the wind sweeping mechanism has the advantages of firm connection and high reliability.

The second supporting mechanism b10 includes a second supporting frame b28 arranged on the air deflector b1 between the first driving mechanism b4 and the wind sweeping rotating shaft b8, and the second supporting frame b28 is in transmission connection with the first driving mechanism output shaft b29 of the first driving mechanism b 4. An inner cavity is formed in one end, back to the first driving mechanism output shaft b29, of the second supporting frame b28, and the end of the wind sweeping rotating shaft b8 is rotatably connected to the inner cavity. The space layout of the supporting device is optimized through the second supporting frame b28 and the first supporting frame b13, and the second supporting frame b28 is connected with the wind sweeping rotating shaft b8 and the first driving mechanism b4 simultaneously, so that the number of components on the wind sweeping plate is reduced.

As shown in fig. 2, in order to support the wind sweeping assembly b3, in this embodiment, the supporting device of the wind sweeping assembly b3 further includes: and the third support frame b16 is arranged on the air deflector b1, and the third support frame b16 is arranged in the axial direction of the wind sweeping rotating shaft b8 and is connected with the wind sweeping rotating shaft b8 in a rotating way. The third supporting frame b16 is provided with a third clamping groove b17, and the wind sweeping rotating shaft b8 is rotatably connected in the third clamping groove b 17. The third support bracket b16 can improve the fixing effect on the wind sweeping rotating shaft b8, so that the wind sweeping rotating shaft b 3526 is connected with the wind deflector b1 more firmly.

In this embodiment, as shown in fig. 10 to 15, the first driving mechanism output shaft b29 and the second supporting frame b28, and the second driving mechanism output shaft b7 and the wind sweeping rotating shaft b8 are connected by a clamping structure. The clamping structure comprises: a claw b24 with an elastic structure arranged at one end of the first driving mechanism output shaft b29 and a claw groove b25 arranged at the end face of the second supporting frame b28 facing to one end of the first driving mechanism output shaft b29, wherein the elastic claw is inserted into the claw groove b25 for matching through elastic deformation; the air guide output shaft b34 is provided with an inserting block b26 at the shaft end, and an inserting groove b27 which is formed in the way that a first supporting seat b28 faces the end face of one end of the air guide output shaft b34 and is matched with the inserting block b 26; the insertion block b26 is positioned between the claws b24 to form a cross-shaped structure; the jaw groove b25 and the inserting groove b27 are vertically arranged to form a cross-shaped groove matched with the cross-shaped structure. The elastic buckle is arranged on the flat insertion block of the clamping jaw, so that the transmission shaft and the shaft hole are ensured not to fall off after being installed, and compared with a structure that the buckle is designed on the shaft hole, the transmission shaft provided by the invention has the advantages of simple structure and convenience in processing. And the cross-shaped connecting end has the advantages of uniform stress and firm connection.

Also, the connection form of the second driving mechanism output shaft b7 and the wind sweeping rotating shaft b8 is not limited in particular, and in other embodiments, the second driving mechanism output shaft b7 and the wind sweeping rotating shaft b8 are also connected through the clamping structure.

In the embodiment, as shown in fig. 3, the wind sweeping assembly includes the wind sweeping rotating shaft b8 and a wind sweeping blade b20 disposed on the wind sweeping rotating shaft b8, which are of an integrated structure. The number of the wind sweeping blades 10 is multiple in the wind sweeping blade b20, and the wind sweeping blades 10 are arranged at intervals along the axial direction of the wind sweeping rotating shaft b 8. The wind sweeping blade b20 is elliptical, and the wind sweeping rotating shaft b8 is arranged at the center of the elliptical wind sweeping blade b 20. When the wind sweeping rotating shaft is driven to rotate, the wind sweeping blades do not need to be driven by a swing mechanism, the wind direction guiding effect can be achieved by means of rotation, and the wind sweeping device has the advantages of being good in wind sweeping effect and simple in transmission structure. And the wind sweeping rotating shaft is arranged at the circle center of the elliptical wind sweeping blade. The wind sweeping blades are prevented from rotating eccentrically at the centers, so that the largest wind sweeping area can be obtained under the condition that the occupied space volume of the wind sweeping blades is the minimum, and the wind sweeping capacity of the air conditioner is improved.

Also, the shape of the wind sweeping blade b20 is not limited in the present invention, and in other embodiments, the wind sweeping blade b20 is circular.

Example 2

A wind guide module, as shown in fig. 1, includes: the air deflector b1 is arranged at the air outlet and is driven to close or open the air outlet m 31; and the wind sweeping component b3 is arranged on the wind deflector b 1.

Sweep the wind subassembly, the medial surface of relative aviation baffle is fixed to be set up, a wind direction for guiding out the air outlet, sweep the wind subassembly with the help of the air deflector setting in the air outlet department of air-out frame, because sweep wind subassembly and aviation baffle and set up as a whole, when tearing open the machine and wasing, can be comparatively convenient will sweep wind subassembly and aviation baffle and together demolish, the user of being convenient for washs the air-out frame, thereby solved current air conditioner and be difficult to carry out thoroughly cleaned's technical defect to the air-out frame, avoided the air to blow off through the air-out frame and caused secondary pollution to the environment, threaten the user health.

In this embodiment, as shown in the schematic structural diagram of the wind guiding module shown in fig. 2, the wind guiding module further includes: the driving device comprises a first driving mechanism b4 for driving the air deflector b1 to rotate and a second driving mechanism b5 for driving the wind sweeping assembly b 3; the air guide plate pushing mechanism comprises driving rods b11 arranged on the driving boxes on two sides of the air conditioner in the axial direction and two first driving motors b21 which are used for extending and contracting with the driving rods b11 and are respectively arranged on the two driving boxes. The output end of the first driving motor b21 is connected with a gear, and the driving rod b11 is provided with a rack b22 meshed with the gear.

In order to optimize the space layout of the driving mechanism and save the production and manufacturing costs, the second driving mechanism b5 also comprises the air deflector pushing-out mechanism.

In this embodiment, in order to optimize the spatial layout of the driving mechanisms, the first driving mechanism b4 and the second driving mechanism b5 are located on the opposite sides of the air conditioner in the axial direction.

In order to optimize the spatial layout of the driving mechanism, as shown in fig. 6 and 8, a motor installation cavity, a transmission motor b23 having a first driving mechanism output shaft b29, and a transmission motor having a second driving mechanism output shaft b7 are respectively disposed in two motor installation cavities, at one end of the driving rod b11, which is close to the air deflector b1, and which are respectively disposed on the first driving mechanism b4 and the second driving mechanism b 5. When the air conditioner runs, the transmission motor can rotate out along with the air deflector, the air outlet channel space cannot be occupied and the air outlet channel cannot be blocked due to the fact that the transmission motor is arranged inside the air outlet, and the air outlet efficiency and the cleaning efficiency are improved.

As shown in fig. 6 and 8, in order to support the wind sweeping assembly b3 and the wind deflector b1, the air conditioner further includes a supporting device, which includes a first supporting mechanism b9 cooperating with the first driving mechanism b4 to support the wind deflector b1, and a second supporting mechanism b10 cooperating with the second driving mechanism b5 to support the wind sweeping assembly b 3. The first supporting mechanism b9 includes a supporting member b6 disposed at the end of the second driving mechanism b5, the supporting member b6 is a shaft sleeve and is sleeved on the outer side of the second driving mechanism output shaft b7, and correspondingly, the first supporting frame b13 is disposed on the wind deflector b1 on the side of the second driving mechanism b5 close to the wind sweeping rotating shaft b8 and is movably connected with the supporting member b6 of the shaft sleeve structure.

In order to optimize the structure of the supporting piece and save production and maintenance costs, the supporting piece b6 and the second driving mechanism output shaft b7 are of an integrated structure, and the first supporting frame b13 is directly sleeved on the second driving mechanism output shaft b7 and is movably connected with the second driving mechanism output shaft b 7.

The second supporting mechanism b10 includes a second supporting frame b28 arranged on the air deflector b1 between the first driving mechanism b4 and the wind sweeping rotating shaft b8, and the second supporting frame b28 is in transmission connection with the first driving mechanism output shaft b29 of the first driving mechanism b 4. One end of the second supporting frame b28, which faces away from the first driving mechanism output shaft b29, is rotatably connected with the wind sweeping rotating shaft b 8. The space layout of the supporting device is optimized through the second supporting frame b28 and the first supporting frame b13, and the second supporting frame b28 is connected with the wind sweeping rotating shaft b8 and the first driving mechanism b4 simultaneously, so that the number of components on the wind sweeping plate is reduced.

As shown in fig. 2, in order to support the wind sweeping assembly b3, in this embodiment, the supporting device of the wind sweeping assembly b3 further includes: and the third support frame b16 is arranged on the air deflector b1, and the third support frame b16 is arranged in the axial direction of the wind sweeping rotating shaft b8 and is connected with the wind sweeping rotating shaft b8 in a rotating way. The third supporting frame b16 is provided with a third clamping groove b17, and the wind sweeping rotating shaft b8 is rotatably connected in the third clamping groove b 17. The third support bracket b16 can improve the fixing effect on the wind sweeping rotating shaft b8, so that the wind sweeping rotating shaft b 3526 is connected with the wind deflector b1 more firmly.

Example 3

A wind guide module, as shown in fig. 1, includes: the air deflector b1 is arranged at the air outlet and is driven to close or open the air outlet m 31; and the wind sweeping component b3 is arranged on the wind deflector b 1.

Sweep the wind subassembly, the medial surface of relative aviation baffle is fixed to be set up, a wind direction for guiding out the air outlet, sweep the wind subassembly with the help of the air deflector setting in the air outlet department of air-out frame, because sweep wind subassembly and aviation baffle and set up as a whole, when tearing open the machine and wasing, can be comparatively convenient will sweep wind subassembly and aviation baffle and together demolish, the user of being convenient for washs the air-out frame, thereby solved current air conditioner and be difficult to carry out thoroughly cleaned's technical defect to the air-out frame, avoided the air to blow off through the air-out frame and caused secondary pollution to the environment, threaten the user health.

In this embodiment, as shown in the schematic structural diagram of the wind guiding module shown in fig. 2, the wind guiding module further includes: the driving device comprises a first driving mechanism b4 for driving the air deflector b1 to rotate and a second driving mechanism b5 for driving the wind sweeping assembly b 3; the air guide plate pushing mechanism comprises driving rods b11 arranged on the driving boxes on two sides of the air conditioner in the axial direction and two first driving motors b21 which are used for extending and contracting with the driving rods b11 and are respectively arranged on the two driving boxes. The output end of the first driving motor b21 is connected with a gear, and the driving rod b11 is provided with a rack b22 meshed with the gear.

In order to optimize the space layout of the driving mechanism and save the production and manufacturing costs, the second driving mechanism b5 also comprises the air deflector pushing-out mechanism.

In this embodiment, in order to optimize the spatial layout of the driving mechanisms, the first driving mechanism b4 and the second driving mechanism b5 are located on the opposite sides of the air conditioner in the axial direction.

In order to optimize the spatial layout of the driving mechanism, as shown in fig. 6 and 9, a motor installation cavity, a transmission motor b23 having a first driving mechanism output shaft b29, and a transmission motor having a second driving mechanism output shaft b7 are respectively disposed in two motor installation cavities, at one end of the driving rod b11, which is close to the air deflector b1, and which are respectively disposed on the first driving mechanism b4 and the second driving mechanism b 5. When the air conditioner runs, the transmission motor can rotate out along with the air deflector, the air outlet channel space cannot be occupied and the air outlet channel cannot be blocked due to the fact that the transmission motor is arranged inside the air outlet, and the air outlet efficiency and the cleaning efficiency are improved.

As shown in fig. 6 and 9, in order to support the wind sweeping assembly b3 and the wind deflector b1, the air conditioner further includes a supporting device, which includes a first supporting mechanism b9 cooperating with the first driving mechanism b4 to support the wind deflector b1, and a second supporting mechanism b10 cooperating with the second driving mechanism b5 to support the wind sweeping assembly b 3. The first supporting mechanism b9 includes a first supporting frame b13 disposed on the air deflector b1 and located at a side close to the second driving mechanism b5, so as to indirectly connect the air deflector b1 with the air conditioner through a wind sweeping shaft b8 connected with the second driving mechanism b5, the first supporting frame b13 has a first slot b12, and the wind sweeping rotating shaft b8 is rotatably disposed in the first slot b 12. Thereby avoiding arranging a connecting structure on the driving rod b11 and reducing the production and maintenance cost thereof. The second supporting mechanism b10 includes a second supporting frame b28 arranged on the air deflector b1 between the first driving mechanism b4 and the wind sweeping rotating shaft b8, and the second supporting frame b28 is in transmission connection with the first driving mechanism output shaft b29 of the first driving mechanism b 4. One end of the second supporting frame b28, which faces away from the first driving mechanism output shaft b29, is rotatably connected with the wind sweeping rotating shaft b 8. The space layout of the supporting device is optimized through the second supporting frame b28 and the first supporting frame b13, and the second supporting frame b28 is connected with the wind sweeping rotating shaft b8 and the first driving mechanism b4 simultaneously, so that the number of components on the wind sweeping plate is reduced.

As shown in fig. 2, in order to support the wind sweeping assembly b3, in this embodiment, the supporting device of the wind sweeping assembly b3 further includes: and the third support frame b16 is arranged on the air deflector b1, and the third support frame b16 is arranged in the axial direction of the wind sweeping rotating shaft b8 and is connected with the wind sweeping rotating shaft b8 in a rotating way. The third supporting frame b16 is provided with a third clamping groove b17, and the wind sweeping rotating shaft b8 is rotatably connected in the third clamping groove b 17. The third support bracket b16 can improve the fixing effect on the wind sweeping rotating shaft b8, so that the wind sweeping rotating shaft b 3526 is connected with the wind deflector b1 more firmly.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (32)

1. An air conditioner wind guiding module, its characterized in that includes:

an air deflector (b1) which is arranged at the air outlet (m31) of the air conditioner and is driven to close or open the air outlet (m 31);

the wind sweeping component (b3) is arranged on the wind deflector (b 1);

the driving device comprises a first driving mechanism (b4) and a second driving mechanism (b5) which are arranged at two sides or one side of the length direction of the air-conditioning shell, wherein the first driving mechanism (b4) is used for driving the air deflector (b1) to rotate; the second driving mechanism (b5) is provided with a second driving mechanism output shaft (b7), and the second driving mechanism output shaft (b7) is in transmission connection with a wind sweeping rotating shaft (b8) of the wind sweeping component (b3) to drive the wind sweeping component (b3) to rotate.

2. The air guide module of an air conditioner as recited in claim 1, wherein: the second driving mechanism output shaft (b7) and the wind sweeping rotating shaft (b8) are coaxially arranged.

3. The air guide module of an air conditioner as recited in claim 2, wherein: the second driving mechanism output shaft (b7) is provided with an inner hole, and the wind sweeping rotating shaft (b8) is in transmission connection with the inner hole.

4. The air guide module of an air conditioner as recited in claim 3, wherein: and a claw or a claw groove is arranged in the inner hole, and a claw groove or a claw matched with the claw or the claw groove in the inner hole in a clamping manner is arranged at one end of the wind sweeping rotating shaft facing the second driving output shaft.

5. The air guide module of an air conditioner as recited in claim 1, wherein: the first driving mechanism (b4) is provided with a first driving mechanism output shaft (b29) in transmission connection with the air deflector (b1), and the first driving mechanism output shaft (b29) and the second driving mechanism output shaft (b7) are respectively arranged on two sides of the wind sweeping rotating shaft (b 8).

6. An air conditioning duct module according to any one of claims 1-5, wherein: the supporting device comprises a first supporting mechanism (b9) which is matched with the first driving mechanism (b4) to provide support for the air deflector (b1) and a second supporting mechanism (b10) which is matched with the second driving mechanism (b5) to provide support for the wind sweeping assembly (b 3); the first supporting mechanism (b9) is rotatably connected with the air deflector (b1), and the second supporting mechanism (b10) is rotatably connected with a wind sweeping rotating shaft (b8) of the wind sweeping assembly (b 3).

7. The air guide module of an air conditioner as recited in claim 6, wherein: the first supporting mechanism (b9) comprises a supporting piece (b6) arranged at the end part, close to the air deflector (b1), of the second driving mechanism (b5), and a first supporting frame (b13) arranged on the air deflector (b1) and provided with a first clamping groove (b12), and the supporting piece (b6) is rotatably arranged in the first clamping groove (b 12).

8. The air guide duct module of claim 7, characterized in that the supporting piece (b6) is arranged at the side of the end of the second driving mechanism (b5) far away from the wind sweeping rotating shaft (b8), and correspondingly, the first supporting frame (b13) is arranged on the wind deflector (b1) at the side of the second driving mechanism (b5) far away from the wind sweeping rotating shaft (b 8); or,

the supporting piece (b6) is arranged on one side of the end part of the second driving mechanism (b5) close to the wind sweeping rotating shaft (b8), and correspondingly, the first supporting frame (b13) is arranged on a wind deflector (b1) on one side of the second driving mechanism (b5) close to the wind sweeping rotating shaft (b 8); the supporting piece (b6) is sleeved on the outer side of the output shaft (b7) of the second driving mechanism.

9. The air guide module of an air conditioner as recited in claim 6, wherein: the first supporting mechanism (b9) comprises a first supporting frame (b13) arranged on the air deflector (b1) and located on the inner side of the second driving mechanism (b5), a first clamping groove (b12) is formed in the first supporting frame (b13), and the wind sweeping rotating shaft (b8) is rotatably arranged in the first clamping groove (b 12).

10. The air guide module of an air conditioner as recited in claim 6, wherein: the second supporting mechanism (b10) comprises a second supporting frame (b28) arranged on an air deflector (b1) between the first driving mechanism (b4) and the wind sweeping rotating shaft (b8), and the second supporting frame (b28) is connected with a first driving mechanism output shaft (b29) of the first driving mechanism (b4) through a detachable structure.

11. The air guide module of an air conditioner as recited in claim 10, wherein: detachable structure is including setting up jaw (b24) of first actuating mechanism output shaft (b29) one end, and locate second support frame (b28) orientation jaw groove (b25) of first actuating mechanism output shaft (b29) one end terminal surface, jaw (b24) stretch into link to each other rather than the joint in the jaw groove.

12. The air guide module of claim 11, wherein the claw (b24) is an elastic claw, and the elastic claw is inserted into the claw groove (b25) to be matched through elastic deformation.

13. The air guide module of an air conditioner as claimed in claim 11 or 12, wherein the detachable structure further comprises a plug-in block (b26) arranged at an axial end of the air guide output shaft (b34), and a plug-in groove (b27) of the first support seat (b28) facing an end face of the air guide output shaft (b34) and matched with the plug-in block (b 26).

14. The air conditioner air guide module as claimed in claim 13, wherein the insertion block (b26) is located between the claws (b24) to form a cross-shaped structure; the jaw groove (b25) and the inserting groove (b27) are vertically arranged to form a cross-shaped groove matched with the cross-shaped structure.

15. The air guide module of any one of claims 10 to 14, wherein one end of the second support frame (b28) facing away from the output shaft (b29) of the first driving mechanism is rotatably connected with the sweeping rotating shaft (b 8).

16. The air guide module of the air conditioner as recited in claim 15, wherein an inner cavity is formed at an end of the second supporting frame (b28) facing away from the output shaft (b29) of the first driving mechanism, and the end of the wind sweeping rotating shaft (b8) is rotatably connected to the inner cavity.

17. The air guide module of any one of claims 10 to 16, wherein the end of the first driving mechanism (b4) close to one end of the air deflector (b1) is provided with a transmission motor (b23), and the transmission motor (b23) is provided with the first driving mechanism output shaft (b 29).

18. The air guide module of the air conditioner as recited in claim 6, wherein the second supporting mechanism (b10) comprises a third supporting frame (b16) with a third clamping groove (b17) arranged on the air guide plate (b1), and the wind sweeping rotating shaft (b8) is rotatably connected with the third supporting frame (b 16).

19. The air conditioner air guide module as claimed in claim 18, wherein the third support frame (b16) is arranged in the middle of the wind sweeping rotating shaft (b8) or near the end of the first driving mechanism (b 4); or,

the number of the third supporting frames (b16) is at least two, and the third supporting frames are respectively arranged in the middle of the wind sweeping rotating shaft and at the end part close to the first driving mechanism (b 4).

20. The air guide module according to claim 5, wherein: the first driving mechanism (b4) is connected with the air deflector (b1) through a telescopic driving rod (b11), and the second driving mechanism (b5) is connected with the wind sweeping component (b3) through a telescopic driving rod (b 11).

21. The air guide module according to claim 20, wherein: the first drive mechanism output shaft (b29) and the second drive mechanism output shaft (b7) are respectively arranged on the drive rod (b11) corresponding to each other.

22. The air guide module according to claim 21, wherein: the telescopic driving rod comprises a driving rod body and a rack (b22) arranged on the driving rod body, a gear is mounted on an output shaft of a first driving motor (b21) of the driving box corresponding to the driving rod, and the rack (b22) is meshed with the gear.

23. The air guide module of an air conditioner as recited in claim 22, wherein: the rack (b22) is an arc rack.

24. The air guide module of an air conditioner as recited in claim 1, wherein:

the first driving mechanism (b4) is positioned at the left side of the air deflector, and the second driving mechanism (b5) is positioned at the right side of the air deflector; or the first driving mechanism (b4) is positioned at the right side of the air deflector, and the second driving mechanism (b5) is positioned at the left side of the air deflector.

25. The air guide module of claim 24, wherein: the air deflection plate (b1) comprises: the air guide plate comprises an outer air guide plate (b18) and an inner air guide plate (b19) arranged on the inner side face of the outer air guide plate (b18), wherein the inner air guide plate (b19) is arranged on the inner side face of the outer air guide plate (b 18).

26. An air conditioning duct module according to any one of claims 1-25, wherein: the wind sweeping assembly comprises the wind sweeping rotating shaft (b8) and wind sweeping blades (b20) arranged on the wind sweeping rotating shaft (b 8).

27. The air guide module of an air conditioner as recited in claim 26, wherein: the number of the wind sweeping blades (b20) is multiple, and the wind sweeping blades (b20) are arranged at intervals along the axial direction of the wind sweeping rotating shaft (b 8).

28. The air guide module of claim 27, wherein: the wind sweeping blade (b20) is of a disc-shaped structure and is obliquely arranged on the wind sweeping rotating shaft (b 8).

29. The air guide module of claim 28, wherein: the wind sweeping blades (b20) are oval or circular.

30. The air guide module of an air conditioner as recited in claim 29, wherein: the wind sweeping rotating shaft (b8) is arranged at the center of the circular wind sweeping blade (b 20).

31. An air conditioning duct module according to any one of claims 26-30, wherein: the wind sweeping rotating shaft (b8) and the wind sweeping blade (b20) are of an integrated structure.

32. An air conditioner, characterized in that: the air conditioner air guide module comprises the air conditioner air guide module as claimed in any one of claims 1 to 31, and the air guide module is arranged at an air outlet (m31) of the air conditioner.