CN211345501U - Motor gland and air conditioner - Google Patents

Abstract

The utility model provides a motor gland and air conditioner, this motor gland include the motor gland body, the motor gland body is equipped with the guide rivers and connects the drainage plate that the basin flows towards the wind-guiding frame, the motor gland body still is equipped with the angle groove structure, the angle groove structure is in be formed with the drip point on the motor gland body, the drip point be used for with the rivers drainage of drainage plate extremely the wind-guiding frame connects the basin. The utility model discloses in, set up the angle groove structure on the motor gland, the angle groove structure can assemble the rivers on the drainage plate, and the tension grow of rivers to fall into wind-guiding frame from the drip point and connect the basin, it not only can effectively prevent rivers on the drainage plate and follow the negative pressure departure, thereby makes rivers fall into wind-guiding frame and connect the basin, and its simple structure, and is with low costs, the processing production of being convenient for.

Description

Motor gland and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a motor gland and air conditioner.

Background

At present, most indoor hanging machines still adopt a split type base mode, namely, the base is split into two parts, one part is a base main body, and the other part is an air guide frame. Like this, just need the diversion structure between motor gland and the wind-guiding frame water receiving tank, however, current diversion structural style is unreasonable, and the air conditioner during operation, one side negative pressure that the diversion structure is close to the wind channel is great, and the water droplet on the diversion structure exists along with the negative pressure departure, the unable problem that normally drips to the wind-guiding frame water receiving tank.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be that current diversion structural style is unreasonable, and air conditioner during operation, the one side negative pressure that the diversion structure is close to the wind channel is great, and the structural water droplet of diversion exists along with the negative pressure departure, and unable normal drippage connects the basin to the wind-guiding frame.

In order to solve the problem, the utility model provides a motor gland, including the motor gland body, the motor gland body is equipped with the guide rivers and connects the drainage plate that the basin flows towards the air guide frame, the motor gland body still is equipped with the angle groove structure, the angle groove structure is in be formed with the drip point on the motor gland body, the drip point be used for with the rivers drainage of drainage plate extremely the air guide frame connects the basin.

Like this, set up the angle groove structure on the motor gland, the angle groove structure can assemble the rivers on the drainage plate, and the tension grow of rivers to from the drip point fall into wind-guiding frame and connect the basin, it not only can effectively prevent rivers on the drainage plate along with the negative pressure departure, thereby make rivers fall into wind-guiding frame and connect the basin, and its simple structure, with low costs, the processing production of being convenient for.

Optionally, the dropping point is a sharp corner apex formed by extending the angular groove structure towards the water receiving groove of the air guide frame.

Therefore, the vertex of the sharp corner extends towards the direction of the wind guide frame water receiving groove, and the flow path of water flow on the corner groove structure is prolonged, so that the influence of negative pressure is further reduced, and the water flow is promoted to fall into the wind guide frame water receiving groove below.

Optionally, the horizontal distance from the dripping point to the side, away from the air duct, of the drainage plate is smaller than the horizontal distance from the dripping point to the side, close to the air duct, of the drainage plate.

Like this, the position of the drip point of so design, the wind channel is kept away from to the drip point of being convenient for to further reduce the influence of negative pressure, make rivers fall into the wind-guiding frame of below and connect the basin

Optionally, the corner groove structure is formed on the drainage plate, and the dripping point is located on one side of the drainage plate, which faces the wind guide frame water receiving groove, of the corner groove structure.

Like this, directly design the angular groove structure on the drainage plate for rivers have assembled time on the drainage plate, thereby avoid rivers along with the negative pressure departure, reduced the influence of negative pressure.

Optionally, the front surface of the drainage plate is recessed towards the rear surface to form the corner groove structure.

Therefore, the corner groove structure is a part of the drainage plate, additional parts are not needed to be added, and the structure is simple and low in cost.

Optionally, the corner groove structure comprises a first edge, a second edge and a third edge which are all located on the front surface of the drainage plate, and the intersection of the first edge, the second edge and the third edge is at the dripping point.

Like this, three edges form two water conservancy diversion faces, and the three intersects in the drippage point, so design for the time of assembling of rivers on the drainage plate, thereby avoid rivers along with the negative pressure departure, reduced the influence of negative pressure.

Optionally, the first edge and the second edge are both located at one end, facing the wind guide frame, of the drainage plate.

From this, with first edge and second edge design in the one end that the drainage plate connects the basin towards the wind-guiding frame, the rivers of drainage plate through first edge and second edge all can flow the drip point.

Optionally, the first edge and the side plate of the drainage plate close to the air duct intersect at a point.

Like this, because the angle groove structure is sunken, from this, first edge is the slope for the drainage plate, and first edge and drainage plate are close to the curb plate in wind channel and intersect in a bit, and the rivers that the drainage plate is close to the wind channel can all be drained to the drip point, make rivers keep away from the wind channel, have reduced the influence of negative pressure.

Optionally, the length of the first edge is greater than the length of the second edge.

Like this, so design, the wind channel is kept away from to the drip point of being convenient for to further reduce the influence of negative pressure, make rivers fall into the wind-guiding frame water receiving tank of below.

Optionally, the corner groove structure is formed by intersecting the drainage plate and a side plate of which one end is far away from the air duct, and a point where one end of the drainage plate, which faces the air guide frame water receiving groove, intersects with the side plate is the dropping point.

Like this, keep away from the curb plate of wind channel one end through drainage plate and form the angle groove structure, not only can reduce the influence of negative pressure, simple structure is convenient for processing production moreover.

Another object of the utility model is to provide an air conditioner to it is unreasonable to solve current diversion structural style, and the air conditioner during operation, one side negative pressure that the diversion structure is close to the wind channel is great, and the structural water droplet of diversion exists along with the negative pressure departure, the unable problem that normally drips to wind-guiding frame water receiving tank.

In order to solve the above problem, the technical scheme of the utility model is realized like this:

an air conditioner comprises an indoor unit, wherein the motor gland is arranged on a base of the indoor unit.

The air conditioner has the same advantages as the motor gland compared with the prior art, and the description is omitted.

Drawings

The accompanying drawings, which form a part hereof, 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 without undue limitation. In the drawings:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of one embodiment at A in FIG. 1;

FIG. 3 is an enlarged view of a portion of another embodiment shown at A in FIG. 1;

fig. 4 is a schematic structural view of another viewing angle of the present invention;

FIG. 5 is an assembly view of an embodiment of the present invention;

fig. 6 is a partially enlarged view of fig. 5 at B.

Description of reference numerals:

1-motor gland body, 2-drainage plate, 3-angular groove structure, 4-base, 5-wind guide frame water receiving groove, 6-side plate and 7-air duct;

31-drip point, 32-first edge, 33-second edge, 34-third edge.

Detailed Description

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

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. In addition, the terms "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, referred to in the embodiments of the present invention, are used to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, only for the convenience of description and simplification of description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the air conditioning indoor unit, the base 4 can be split into base main part and wind-guiding frame, be equipped with wind channel 7 in the base main part, and be equipped with the motor gland in one side (usually the right side) of wind channel 7, because the comdenstion water on the evaporimeter can drip to the motor gland on, need set up the water conservancy diversion face on the motor gland, thereby make the comdenstion water drip into wind-guiding frame and connect in the basin 5, however, the air conditioner is when moving, the fan blade rotates, one side that the motor gland is close to wind channel 7 can form the negative pressure, the water droplet on the drainage plate 2 can fly out along with the negative pressure sometimes, thereby can not fall into wind-guiding.

In the coordinate system xyz provided herein, the forward direction of the x axis represents the right direction, the backward direction of the x axis represents the left direction, the forward direction of the y axis represents the front direction, the backward direction of the y axis represents the back direction, the forward direction of the z axis represents the upper direction, and the backward direction of the z axis represents the lower direction.

As shown in fig. 1 and 4, the embodiment of the utility model provides a pair of motor gland, including motor gland body 1, motor gland body 1 is equipped with guide rivers and connects the drainage plate 2 that basin 5 flows towards the wind-guiding frame, motor gland body 1 still is equipped with angle groove structure 3, angle groove structure 3 is in be formed with dropping point 31 on the motor gland body 1, dropping point 31 be used for with the rivers drainage of drainage plate 2 extremely wind-guiding frame connects basin 5. From this, set up angle groove structure 3 on the motor gland, angle groove structure 3 can assemble the rivers on the drainage plate 2, and the tension grow of rivers to from the drippage 31 fall into wind-guiding frame and connect the basin 5, it not only can prevent effectively that rivers on the drainage plate 2 from flying out along with the negative pressure, thereby make rivers fall into wind-guiding frame and connect the basin 5, and its simple structure, with low costs, the processing production of being convenient for.

In this embodiment, when the motor gland is assembled to the indoor unit and the indoor unit is hung on a wall surface, the drainage plate 2 is perpendicular to the ground and is located right above the water receiving slot 5 of the air guide frame, so that water flows to the water receiving slot 5 of the air guide frame under the action of gravity.

After the water flow in the angular trough structure 3 is converged, the water flow finally flows into the wind guide frame water receiving trough 5 from the dripping point 31, and the dripping point 31 mainly plays a role in guiding.

Preferably, as shown in fig. 2 and 3, the dropping point 31 is a sharp apex formed by extending the angular groove structure 3 toward the wind guide frame water receiving groove 5. Therefore, the sharp angle is formed by extending towards the direction of the wind guide frame water receiving groove 5, and the flowing path of water flow on the angle groove structure 3 is prolonged, so that the influence of negative pressure is further reduced, and the water flow is promoted to fall into the wind guide frame water receiving groove 5 below.

In this embodiment, the height of the dropping point 31 from the wind guide frame water receiving tank 5 is 23.5 mm.

Preferably, as shown in fig. 2 and 3, the horizontal distance from the dripping point 31 to the side of the flow guide plate 2 away from the air duct 7 is smaller than the horizontal distance from the dripping point 31 to the side of the flow guide plate 2 close to the air duct 7. Therefore, the position of the dripping point 31 is designed, so that the dripping point 31 is convenient to be far away from the air channel 7, the influence of negative pressure is further reduced, and water flow is promoted to fall into the air guide frame water receiving tank 5 below.

In this embodiment, the side of the drainage plate 2 close to the air duct 7 and the side of the drainage plate 2 away from the air duct 7 are generally parallel to each other, and thus, the horizontal distance from the dripping point 31 to the side of the drainage plate 2 away from the air duct 7 refers to: the length of the perpendicular from the drop point 31 to the plane of the side of the flow guide plate 2 remote from the air duct 7 in the left-right direction. The horizontal distance from the dripping point 31 to the side of the drainage plate 2 far away from the air duct 7 refers to: the length of the perpendicular from the drop point 31 to the plane of the side of the flow guide plate 2 close to the air duct 7 in the left-right direction.

Wherein, the width of the drainage plate 2 is at least 10mm, and the horizontal distance from the dripping point 31 to the side of the drainage plate 2 far away from the air duct 7 is 0-5 mm. The specific size is determined according to actual requirements.

Specifically, as shown in fig. 2, the angular groove structure 3 is formed on the flow guide plate 2, and the dropping point 31 is on the side of the flow guide plate 2 facing the wind guide frame water receiving groove 5. From this, directly design the angular groove structure 3 on drainage plate 2 for rivers have assembled the time on drainage plate 2, thereby avoid rivers along with the negative pressure departure, reduced the influence of negative pressure.

In this embodiment, the side of the drainage plate 2 facing the wind guide frame water receiving tank 5 means: and in the up-down direction, the lower end of the drainage plate 2.

Preferably, the front surface of the flow guide plate is recessed toward the rear surface to form the corner groove structure. Therefore, the corner groove structure is a part of the drainage plate, additional parts are not needed to be added, and the structure is simple and low in cost.

In this embodiment, the front surface of the drainage plate refers to: the surface of the drainage plate 2 in front of the drainage plate in the front-back direction; the front surface of the drainage plate refers to: the drainage plate 2 is located on the surface of the rear in the front-rear direction.

In this embodiment, the front surface and the rear surface of drainage plate 2 are parallel to each other, in the front-back direction, the distance between the plane that both are located is the plate body thickness of drainage plate 2, when the front surface is a complete plane, rivers can flow along the front surface from the top down under the effect of gravity, until dripping from the lower extreme edge of drainage plate 2, and the front surface no longer is a complete plane, when its part or whole are sunken, the rivers of depressed part can flow towards its minimum, play the effect of drainage, and in this paper, what sunken formation was a corner slot structure, it drips the point and is the minimum. Meanwhile, the form of the recess is various, and the recess can be in a regular shape, such as a V-shaped or arc-shaped cross section, or in an irregular shape, a structure formed by a plurality of inclined surfaces or arc surfaces.

Specifically, as shown in fig. 2, the angular groove structure 3 includes a first edge 32, a second edge 33 and a third edge 34, which are all located on the front surface of the drainage plate 2, and the first edge 32, the second edge 33 and the third edge 34 intersect at the dripping point 31. From this, three edge forms two water conservancy diversion faces, and three's one end assembles the drip point 31, so design for rivers have been accelerated and have been assembled time on drainage plate 2, thereby avoid rivers along with the negative pressure departure, have reduced the influence of negative pressure.

The first edge 32, the second edge 33 and the third edge 34 all have included angles relative to the gravity direction of the water drops, and the included angles are determined according to actual requirements.

Specifically, the first edge 32 and the second edge 33 are both located at one end of the drainage plate 2 facing the wind guide frame water receiving groove 5. Therefore, the first edge 32 and the second edge 33 are designed at the end of the drainage plate 2 facing the wind guide frame water receiving groove 5, and the water flow of the drainage plate 2 passing through the first edge 32 and the second edge 33 can flow to the dropping point 31.

Preferably, one end of the first edge 32 and the side plate of the drainage plate 2 close to the air duct 7 intersect at a point. Therefore, as the angular groove structure 3 is concave, the first edge 32 is inclined relative to the drainage plate 2, when the first edge 32 and the lateral plate 6 of the drainage plate 2 close to the air duct 7 intersect at one point, the water flow of the drainage plate 2 close to the air duct 7 can be completely drained to the dripping point 31, so that the water flow is far away from the air duct 7, and the influence of negative pressure is reduced.

In this embodiment, one end of the first edge 32 refers to: in the left-right direction, the first edge 32 is close to one end of the air duct 7.

Specifically, the length of the first edge 32 is greater than the length of the second edge 33. Therefore, the design is convenient for the dripping point 31 to be far away from the air duct 7, thereby further reducing the influence of negative pressure and promoting water flow to fall into the air guide frame water receiving tank 5 below.

In the up-down direction, the first edge 32 and the second edge 33 are angled, and only when the length of the first edge 32 is greater than that of the second edge 33, the drip point 31 is far away from the air duct 7, so that the influence of negative pressure is reduced.

Specifically, as shown in fig. 3, the angular groove structure 3 is formed by intersecting the drainage plate 2 and a side plate 6 at an end of the drainage plate 2 away from the air duct 7, and a point where an end of the drainage plate 2 facing the air guide frame water receiving groove 5 intersects the side plate 6 is the dropping point 31. From this, keep away from curb plate 6 formation angle groove structure 3 of wind channel 7 one end through drainage plate 2 and drainage plate 2, not only can reduce the influence of negative pressure, simple structure is convenient for processing production moreover.

Another embodiment of the present invention provides an air conditioner, as shown in fig. 5 and 6, including an indoor unit, the base 4 of the indoor unit is provided with the motor gland.

After the air conditioner adopts above-mentioned motor gland, because the motor gland sets up angle groove structure 3, angle groove structure 3 can assemble the rivers on the drainage plate 2, and the tension grow of rivers to in the basin that falls into the wind-guiding frame from drip point 31, it not only can prevent effectively that rivers on the drainage plate 2 from flying out along with the negative pressure, thereby makes rivers fall into wind-guiding frame and connects basin 5, and its simple structure, and is with low costs, the processing production of being convenient for.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (11)

1. The utility model provides a motor gland, includes motor gland body (1), motor gland body (1) is equipped with drainage plate (2) that guide rivers flow towards air guide frame water receiving tank (5), a serial communication port, motor gland body (1) still is equipped with angle groove structure (3), angle groove structure (3) are in be formed with dripping point (31) on motor gland body (1), dripping point (31) be used for with the rivers drainage of drainage plate (2) extremely air guide frame water receiving tank (5).

2. The motor gland according to claim 1, wherein the drop point (31) is a sharp apex formed by the angular groove structure (3) extending towards the wind guide frame water receiving groove (5).

3. Motor gland according to claim 1, characterized in that the horizontal distance of the dripping point (31) to the side of the flow guide plate (2) remote from the air duct (7) is smaller than the horizontal distance of the dripping point (31) to the side of the flow guide plate (2) close to the air duct (7).

4. Motor gland according to claim 3, characterized in that the angular groove structure (3) is formed on the flow guide plate (2), and the drip point (31) is located on the side of the angular groove structure (3) facing the wind guide frame water receiving groove (5) of the flow guide plate (2).

5. Motor gland according to claim 4, characterized in that the front surface of the flow-guide plate (2) is recessed towards the rear surface forming the angular groove structure.

6. Motor gland according to claim 5, characterized in that the angular groove structure (3) comprises a first edge (32), a second edge (33) and a third edge (34), all located on the front surface of the drainage plate (2), the first edge (32), the second edge (33) and the third edge (34) intersecting at the drip point (31).

7. The motor gland according to claim 6, wherein the first edge (32) and the second edge (33) are both located at one end of the flow guide plate (2) facing the wind guide frame water receiving groove (5).

8. Motor gland according to claim 7, characterized in that the first edge (32) and the side plate (6) of the drainage plate (2) close to the air duct (7) meet at a point.

9. Motor gland according to claim 7, characterized in that the length of the first edge (32) is larger than the length of the second edge (33).

10. The motor gland according to claim 1, wherein the angular groove structure (3) is formed by the intersection of the flow guide plate (2) and a side plate (6) of the flow guide plate (2) far away from one end of an air duct (7), and the point where one end of the flow guide plate (2) facing the air guide frame water receiving groove (5) intersects with the side plate (6) is the dropping point (31).

11. An air conditioner comprising an indoor unit, wherein a motor cover according to any one of claims 1 to 10 is provided on a base of the indoor unit.

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