CN110131871B - Air guide mechanism and air conditioner - Google Patents

Abstract

The invention discloses an air guide mechanism and an air conditioner, and relates to the technical field of air conditioners. The air guide mechanism comprises a shell, a diversion guide block and a motion assembly. The shell is provided with the air outlet groove, and the opening of air outlet groove inwards extends and is provided with a plurality of extension boards, and a plurality of extension boards combination forms the air outlet, and the reposition of redundant personnel guide block slides and sets up in the air outlet groove, and forms a plurality of wind channels with the lateral wall of air outlet groove, and a plurality of wind channels all communicate with the air outlet, and the motion subassembly is installed in the shell, and is connected with reposition of redundant personnel guide block. Compared with the prior art, the air guide mechanism provided by the invention has the advantages that the split guide block which is arranged in the air outlet groove and can move along the direction parallel to the plane where the air outlet is positioned is adopted, so that small-range air supply can be realized, the direction of the small-range air supply can be accurately controlled, the position of the air blown out can be adjusted, and the air guide mechanism is convenient, quick, practical and reliable.

Description

Air guide mechanism and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a wind guiding mechanism and an air conditioner.

Background

Now, with the increasing living standard of people, the requirement for air supply to the air conditioner is also higher and higher. The air outlet of the traditional air conditioner is bigger at present, the air supply range is big, the air speed is lower, when a user wants the wind to only blow a small-range space, only a part of the air outlet can be blocked, the air conditioner is inconvenient, the direction of the small-range air supply cannot be accurately controlled, and the position of the wind blowing out is uncontrollable.

Disclosure of Invention

The invention solves the problem of precisely controlling the direction of the small-range air supply so as to adjust the position of the air blown out, and is convenient, quick, practical and reliable.

In order to solve the problems, the technical scheme of the invention is realized as follows:

In a first aspect, the invention provides an air guide mechanism, which comprises a shell, a diversion guide block and a movement assembly, wherein the shell is provided with an air outlet groove, a plurality of extension plates are arranged at the opening of the air outlet groove in an inward extending manner, the extension plates are combined to form an air outlet, the diversion guide block is arranged in the air outlet groove in a sliding manner and forms a plurality of air channels with the side wall of the air outlet groove, the air channels are all communicated with the air outlet, the movement assembly is arranged in the shell and connected with the diversion guide block, and the movement assembly can drive the diversion guide block to move along the direction parallel to the plane of the air outlet so as to adjust the cross section area of each air channel. Compared with the prior art, the air guide mechanism provided by the invention has the advantages that the split guide block which is arranged in the air outlet groove and can move along the direction parallel to the plane where the air outlet is positioned is adopted, so that small-range air supply can be realized, the direction of the small-range air supply can be accurately controlled, the position of the air blown out can be adjusted, and the air guide mechanism is convenient, quick, practical and reliable.

Further, the air outlet groove is relatively provided with a first side wall and a second side wall, the diversion guide block and the first side wall form a first air channel, the diversion guide block and the second side wall form a second air channel, and the movement assembly can drive the diversion guide block to be close to the first side wall or close to the second side wall. The cross-sectional areas of the first air channel and the second air channel are adjusted, so that the air quantity of air flow blown out of the first air channel and the second air channel is controlled, and the flow direction of the air flow blown out of the first air channel and the second air channel after converging is adjusted, namely the final air supply direction is adjusted.

Further, the first sidewall and the second sidewall are both located on a vertical plane or a horizontal plane. If the first side wall and the second side wall are both positioned on the vertical plane, the diversion guide block moves along the horizontal direction, at the moment, the connecting line of the midpoint of the first air duct and the midpoint of the second air duct is a horizontal line, and the diversion guide block can control the air supply direction to be adjusted in the left-right direction; if the first side wall and the second side wall are both positioned on the horizontal plane, the diversion guide block moves along the vertical direction, at the moment, the connecting line of the midpoint of the first air channel and the midpoint of the second air channel is a vertical line, and the diversion guide block can control the air supply direction to be adjusted in the up-down direction.

Further, the number of extension plates is two, one extension plate is connected to the first side wall, and the other extension plate is connected to the second side wall. One extending plate is used for guiding the air flow blown out by the first air duct, and the other extending plate is used for guiding the air flow blown out by the second air duct, so that two air flows are converged into one air flow in the air outlet and blown out for supplying air.

Further, one extension plate is arranged at a first obtuse angle with the first side wall, the other extension plate is arranged at a second obtuse angle with the second side wall, and the first obtuse angle and the second obtuse angle are both in the range of 95 degrees to 115 degrees. The angle of reasonable first obtuse angle and second obtuse angle can reduce the resistance to the air current, improves the direction effect to can reduce the recoil force when two air currents converge, make two air currents can smoothly converge.

Further, the air outlet groove is also provided with a third side wall and a fourth side wall relatively, the first side wall, the third side wall, the second side wall and the fourth side wall are connected end to end, the third side wall is provided with a through hole, and the moving assembly penetrates through the through hole and is fixedly connected with the diversion guide block. So as to drive the diversion guide block to move along the direction from the first side wall to the second side wall, thereby adjusting the air supply direction.

Further, a guide chute is formed in the fourth side wall, the guide chute extends along the direction from the first side wall to the second side wall, and the diversion guide block is slidably arranged in the guide chute. The guide chute can limit the position and the movement direction of the split guide block, and the split guide block is prevented from sideslip or tilting.

Further, the motion assembly comprises a driving piece and a transmission piece, wherein the driving piece is installed in the shell and is connected with the diversion guide block through the transmission piece. The driving piece is used for providing power, and the driving piece can be with the power transmission of driving piece output to the reposition of redundant personnel guide block on to drive reposition of redundant personnel guide block and take place the motion.

Further, the driving piece is the motor, and the driving piece includes gear and rack, and driving piece and gear connection, rack fixed connection are on the reposition of redundant personnel guide block, and with gear engagement. The driving piece drives the gear to rotate, so that the rack is driven to displace, and the diversion guide block is driven to move along the direction from the first side wall to the second side wall.

The invention provides an air conditioner, which comprises the air guiding mechanism, wherein the air guiding mechanism comprises a shell, a diversion guide block and a moving assembly, the shell is provided with an air outlet groove, a plurality of extension plates are inwards extended from an opening of the air outlet groove, the extension plates are combined to form an air outlet, the diversion guide block is arranged in the air outlet groove in a sliding manner and forms a plurality of air channels with the side wall of the air outlet groove, the air channels are communicated with the air outlet, the moving assembly is arranged in the shell and connected with the diversion guide block, and the moving assembly can drive the diversion guide block to move along a direction parallel to a plane where the air outlet is located so as to adjust the cross section area of each air channel. The air conditioner can realize small-range air supply, and can accurately control the direction of the small-range air supply so as to adjust the position of the air to be blown out, thereby being convenient, quick, practical and reliable.

Drawings

FIG. 1 is a schematic view of a first view angle of a wind guiding mechanism according to a first embodiment of the present invention;

FIG. 2 is a schematic view of a second view of the air guiding mechanism according to the first embodiment of the present invention;

FIG. 3 is a schematic view of a third view of the air guiding mechanism according to the first embodiment of the present invention;

FIG. 4 is a schematic view of the structure of the split guide block of FIG. 3 slidably coupled to a fourth side wall;

FIG. 5 is a schematic view of the air guiding mechanism according to the first embodiment of the present invention when the split guide block is located at the center of the first side wall and the second side wall;

FIG. 6 is a schematic view of the air guiding mechanism according to the first embodiment of the present invention when the split guide block is close to the first side wall;

FIG. 7 is a schematic view of the air guiding mechanism according to the first embodiment of the present invention when the split guide block is close to the second side wall;

Fig. 8 is a schematic view of an air conditioner according to a second embodiment of the present invention.

Reference numerals illustrate:

10-an air conditioner; 100-an air guide mechanism; 110-a housing; 111-an air outlet groove; 112-an extension plate; 113-an air outlet; 114-a first sidewall; 115-a second sidewall; 116-a third sidewall; 117-fourth side wall; 118-through holes; 119-a guide chute; 120-split guide blocks; 130-a motion assembly; 131-a driver; 132-a transmission member; 133-gear; 134-rack; 140-a first air duct; 150-a second air duct; 200-fans.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

First embodiment

Referring to fig. 1, fig. 2, fig. 3 and fig. 4 in combination, an embodiment of the invention provides a wind guiding mechanism 100, where the wind guiding mechanism 100 is applied in an air conditioner and is used for guiding an air outlet direction of the air conditioner. The small-range air supply device can realize small-range air supply, can accurately control the direction of the small-range air supply, can adjust the position of the air to be blown out, and is convenient, quick, practical and reliable.

The air guiding mechanism 100 includes a housing 110, a split guide block 120, and a motion assembly 130. The split guide block 120 and the moving assembly 130 are both installed in the casing 110, the split guide block 120 is used for dividing the air flow into a plurality of air flows in the casing 110, the plurality of air flows are converged into one air flow under the action of the casing 110 and are output outwards, the converged air flow cross-sectional area is small, and small-range air supply can be realized. In this process, the moving component 130 can drive the diversion guide block 120 to move, so as to adjust the air volume of the multiple airflows, so that the air outlet direction of the multiple airflows after converging is changed, and the direction of the small-range air supply is adjusted.

It should be noted that the casing 110 is provided with an air outlet slot 111, and a plurality of extension plates 112 are disposed in an opening of the air outlet slot 111 in an inward extending manner, and the extension plates 112 are used for guiding the air flow, so that multiple air flows can be converged into one air flow. The plurality of extension plates 112 are combined to form an air outlet 113, and the converged air flow is output to the outside through the air outlet 113, so that small-range air supply is realized. The split-flow guide block 120 is slidably disposed in the air outlet slot 111, and forms a plurality of air channels with the side wall of the air outlet slot 111, and the air channels are all communicated with the air outlet 113, each air channel is used for allowing one air flow to pass through, the split-flow guide block 120 divides the air flow into a plurality of air channels, and the plurality of air flows are output through the air channels, are converged into one air channel under the action of the extending plates 112, and are output to the outside from the air outlet 113. The moving assembly 130 is installed in the housing 110 and connected to the split guide block 120, and the moving assembly 130 can drive the split guide block 120 to move along a direction parallel to a plane where the air outlet 113 is located, so as to adjust cross sectional areas of the air channels, thereby adjusting air volumes of air flows output by the air channels, and further adjusting air outlet directions after the multiple air flows are converged.

In this embodiment, the number of air channels is two, namely, the first air channel 140 and the second air channel 150, and the number of extension plates 112 is also two, wherein one extension plate 112 is used for guiding the air flow output from the first air channel 140, and the other extension plate 112 is used for guiding the air flow output from the second air channel 150. However, the number of the air channels and the extension plates 112 is not limited thereto, and in other embodiments, the number of the air channels and the extension plates 112 may be three or four, and is not particularly limited.

It should be noted that, the air outlet slot 111 is relatively provided with a first side wall 114 and a second side wall 115, the split guide block 120 and the first side wall 114 form a first air duct 140, and the split guide block 120 and the second side wall 115 form a second air duct 150. The moving assembly 130 can drive the diversion guide block 120 to approach the first side wall 114 or approach the second side wall 115 to adjust the cross-sectional areas of the first air duct 140 and the second air duct 150, so as to control the air volume of the air flow blown out from the first air duct 140 and the second air duct 150, and further adjust the flow direction of the air flow blown out from the first air duct 140 and the second air duct 150 after converging, i.e. adjust the final air supply direction.

Notably, the first sidewall 114 and the second sidewall 115 are both located in a vertical plane or horizontal plane. If the first side wall 114 and the second side wall 115 are both located on the vertical plane, the diversion guide block 120 moves along the horizontal direction, at this time, the line connecting the midpoint of the first air duct 140 and the midpoint of the second air duct 150 is a horizontal line, and the diversion guide block 120 can control the air supply direction to be adjusted in the left-right direction; if the first side wall 114 and the second side wall 115 are both located on the horizontal plane, the split guide block 120 moves along the vertical direction, and at this time, the line connecting the midpoint of the first air duct 140 and the midpoint of the second air duct 150 is a vertical line, and the split guide block 120 can control the air supply direction to be adjusted in the up-down direction. In this embodiment, the first side wall 114 and the second side wall 115 are both located on a vertical plane, and the air supply direction after converging can be adjusted in the left-right direction.

In this embodiment, one extension plate 112 is connected to a first sidewall 114, and the other extension plate 112 is connected to a second sidewall 115. One extension plate 112 is used for guiding the air flow blown out by the first air duct 140, and the other extension plate 112 is used for guiding the air flow blown out by the second air duct 150, so that two air flows are converged into one in the air outlet 113, and the two air flows are blown out for supplying air.

Specifically, one extension plate 112 is disposed at a first obtuse angle with respect to the first sidewall 114, and the other extension plate 112 is disposed at a second obtuse angle with respect to the second sidewall 115, both of which are in the range of 95 degrees to 115 degrees. The angle of reasonable first obtuse angle and second obtuse angle can reduce the resistance to the air current, improves the direction effect to can reduce the recoil force when two air currents converge, make two air currents can smoothly converge. In this embodiment, the first obtuse angle and the second obtuse angle have the same size and are both 105 degrees.

It should be noted that the air outlet slot 111 is further provided with a third side wall 116 and a fourth side wall 117 opposite to each other, and the first side wall 114, the third side wall 116, the second side wall 115 and the fourth side wall 117 are connected end to end. The third side wall 116 is provided with a through hole 118, and the moving component 130 passes through the through hole 118 and is fixedly connected with the diversion guide block 120, so as to drive the diversion guide block 120 to move along the direction from the first side wall 114 to the second side wall 115, thereby adjusting the air supply direction.

In this embodiment, the fourth side wall 117 is provided with a guide chute 119, the guide chute 119 extends along the direction from the first side wall 114 to the second side wall 115, the split guide block 120 is slidably disposed in the guide chute 119, the split guide block 120 can slide in the guide chute 119, and the guide chute 119 can limit the position and the movement direction of the split guide block 120, so as to prevent the split guide block 120 from sideslip or tilting.

It should be noted that, the motion assembly 130 includes a driving member 131 and a transmission member 132, and the driving member 131 is installed in the housing 110 and is connected to the split guide block 120 through the transmission member 132. The driving member 131 is used for providing power, and the transmission member 132 can transmit the power output by the driving member 131 to the split guide block 120 so as to drive the split guide block 120 to move.

In this embodiment, the driving member 131 is a motor, the driving member 132 includes a gear 133 and a rack 134, the driving member 131 is connected with the gear 133, and the rack 134 is fixedly connected to the split guide block 120 and meshed with the gear 133. The driving member 131 drives the gear 133 to rotate, so as to drive the rack 134 to displace, and further drive the diverting guide block 120 to move along the direction from the first sidewall 114 to the second sidewall 115.

Referring to fig. 5, fig. 6, and fig. 7 (the hollow arrow in the drawing indicates the airflow direction, the dotted line is the normal line of the plane where the air outlet 113 is located), when the split guide block 120 is located at the center of the first side wall 114 and the second side wall 115, the cross-sectional area of the first air duct 140 and the cross-sectional area of the second air duct 150 are the same, i.e. the airflow volume blown out from the first air duct 140 is the same as the airflow volume blown out from the second air duct 150, and the two airflows are converged under the guiding action of the two extension boards 112, at this time, the airflow volumes of the two airflows are the same, so that the direction of the airflow formed after the two airflows are converged is the normal line direction of the plane where the air outlet 113 is located.

When the split guide block 120 approaches the first side wall 114, the cross-sectional area of the first air duct 140 decreases, the cross-sectional area of the second air duct 150 increases, that is, the air volume of the air flow blown out through the first air duct 140 decreases, the air volume of the air flow blown out through the second air duct 150 increases, and the two air flows are converged under the guiding action of the two extension boards 112, at this time, because the air volumes of the two air flows are different, the direction of the air flow formed after the two air flows are converged is inclined towards the direction approaching the first side wall 114.

When the diversion guide block 120 approaches the second side wall 115, the cross-sectional area of the second air duct 150 decreases, the cross-sectional area of the first air duct 140 increases, that is, the air volume of the air flow blown out through the second air duct 150 decreases, the air volume of the air flow blown out through the first air duct 140 increases, and the two air flows are converged under the guiding action of the two extension boards 112, at this time, because the air volumes of the two air flows are different, the direction of the air flow formed after the two air flows are converged is inclined towards the direction approaching the second side wall 115.

Specifically, the direction of the air flow formed after the two air flows are converged forms a preset included angle with the normal direction of the plane where the air outlet 113 is located. The preset included angle will change along with the movement of the split guide block 120, if the split guide block 120 abuts against the first side wall 114, the cross-sectional area of the first air duct 140 is zero, the cross-sectional area of the second air duct 150 is the largest, at this time, the preset included angle is the largest, and the direction of converging air flows is inclined towards the direction close to the first side wall 114; if the diversion guide block 120 is located at the center of the first side wall 114 and the second side wall 115, the preset included angle is the smallest, and the direction of the converging air flow is perpendicular to the plane of the air outlet 113; if the split guide block 120 abuts against the second side wall 115, the cross-sectional area of the second air duct 150 is zero, the cross-sectional area of the first air duct 140 is the largest, and the preset included angle is the largest, and the direction of converging the air flows is inclined towards the direction close to the second side wall 115.

According to the air guide mechanism 100 of the embodiment of the invention, an air outlet groove 111 is formed in a housing 110, a plurality of extension plates 112 are arranged at the opening of the air outlet groove 111 in an inward extending manner, an air outlet 113 is formed by combining the plurality of extension plates 112, a diversion guide block 120 is slidably arranged in the air outlet groove 111 and forms a plurality of air channels with the side wall of the air outlet groove 111, the plurality of air channels are communicated with the air outlet 113, a moving assembly 130 is arranged in the housing 110 and connected with the diversion guide block 120, and the moving assembly 130 can drive the diversion guide block 120 to move along the direction parallel to the plane of the air outlet 113 so as to adjust the cross section area of each air channel. Compared with the prior art, the air guide mechanism 100 provided by the invention has the advantages that the split guide block 120 which is arranged in the air outlet groove 111 and can move along the direction parallel to the plane where the air outlet 113 is positioned is adopted, so that small-range air supply can be realized, the direction of the small-range air supply can be accurately controlled, the position of the air blown out can be adjusted, and the air guide mechanism is convenient, quick, practical and reliable.

Second embodiment

Referring to fig. 8, the present invention provides an air conditioner 10 for controlling indoor air temperature. The air conditioner 10 includes a blower 200 and a blower guide mechanism 100. The basic structure and principle of the air guiding mechanism 100 and the technical effects thereof are the same as those of the first embodiment, and for brevity, reference may be made to the corresponding contents of the first embodiment.

In this embodiment, the fan 200 is installed in the housing 110 and is in communication with the air outlet slot 111, the fan 200 is used for sucking external air to form an air flow, and the air flow is input into the air outlet slot 111, and the split guide block 120 can split the air flow into multiple streams.

The beneficial effects of the air conditioner 10 according to the embodiment of the present invention are the same as those of the first embodiment, and will not be described in detail herein.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention, and the scope of the invention should be assessed accordingly to that of the appended claims.

Claims (7)

1. The utility model provides an air ducting, its characterized in that includes shell (110), reposition of redundant personnel guide block (120) and motion subassembly (130), shell (110) are provided with air outlet groove (111), the opening of air outlet groove (111) inwards extends and is provided with a plurality of extension boards (112), a plurality of extension boards (112) make up and form air outlet (113), reposition of redundant personnel guide block (120) slide and set up in air outlet groove (111), and with the lateral wall in air outlet groove (111) forms a plurality of wind channels, a plurality of wind channels all with air outlet (113) intercommunication, extension board (112) are used for leading the air current, and make the air current of many air current can converge into one, motion subassembly (130) install in shell (110) just with reposition of redundant personnel guide block (120) are connected, motion subassembly (130) can drive reposition of redundant personnel guide block (120) along being parallel to the direction of the plane that air outlet (113) is located the cross-sectional area in order to adjust each wind channel.

The air outlet groove (111) is provided with a first side wall (114) and a second side wall (115) relatively, the diversion guide block (120) and the first side wall (114) form a first air channel (140), the diversion guide block (120) and the second side wall (115) form a second air channel (150), and the movement assembly (130) can drive the diversion guide block (120) to be close to the first side wall (114) or close to the second side wall (115);

-said first side wall (114) and said second side wall (115) are both located on a vertical plane or horizontal plane;

the number of the extension plates (112) is two, one extension plate (112) is connected to the first side wall (114), and the other extension plate (112) is connected to the second side wall (115).

2. The air guiding mechanism according to claim 1, wherein one of the extension plates (112) is arranged at a first obtuse angle to the first side wall (114) and the other extension plate (112) is arranged at a second obtuse angle to the second side wall (115), both the first obtuse angle and the second obtuse angle being in the range of 95 degrees to 115 degrees.

3. The air guiding mechanism according to claim 1, wherein the air outlet groove (111) is further provided with a third side wall (116) and a fourth side wall (117) relatively, the first side wall (114), the third side wall (116), the second side wall (115) and the fourth side wall (117) are connected end to end, the third side wall (116) is provided with a through hole (118), and the moving assembly (130) penetrates through the through hole (118) and is fixedly connected with the diversion guide block (120).

4. A wind guiding mechanism according to claim 3, wherein the fourth side wall (117) is provided with a guiding chute (119), the guiding chute (119) extends along the direction from the first side wall (114) to the second side wall (115), and the diversion guiding block (120) is slidably arranged in the guiding chute (119).

5. The air guiding mechanism according to any one of claims 1-4, wherein the movement assembly (130) comprises a driving member (131) and a transmission member (132), the driving member (131) is mounted in the housing (110) and is connected with the diversion guide block (120) through the transmission member (132).

6. The air guiding mechanism according to claim 5, wherein the driving member (131) is a motor, the transmission member (132) includes a gear (133) and a rack (134), the driving member (131) is connected to the gear (133), and the rack (134) is fixedly connected to the split guide block (120) and is meshed with the gear (133).

7. An air conditioner comprising the air guide mechanism according to any one of claims 1 to 6.