CN107906616A - A kind of wall-hanging air conditioner indoor unit fan motor shield - Google Patents

Abstract

The present invention provides a kind of wall-hanging air conditioner indoor unit fan motor shield, the upper and lower both sides of the shield are respectively formed with heat emission hole, lower heat emission hole, and equipped with the water-retaining structure for avoiding condensed water from flowing into the upper heat emission hole.Wall-hanging air conditioner indoor unit fan motor shield of the present invention, on the premise of low cost is ensured, effectively solves the problems, such as that fan electromotor temperature rise is exceeded caused by heat dissipation is bad in existing indoor apparatus of air conditioner.

Description

A kind of wall-hanging air conditioner indoor unit fan motor shield

Technical field

The present invention relates to air-conditioning technical field, it particularly relates to which a kind of wall-hanging air conditioner indoor unit fan motor is used The structure of shield is improved.

Background technology

Motor shroud is both provided with the fan electromotor of existing wall-hanging air conditioner indoor unit, motor shroud will not only play solid Determine motor, fixed evaporator, its upside also has the function that to collect condensed water and guides condensed water to enter drip tray.And motor protects Cover end shroud cover and electric-controlled box it is very close, thus in shroud cover towards the thermovent radiating efficiency that electric-controlled box opens up compared with Difference, for this reason, existing indoor apparatus of air conditioner, there are the structure that base is equipped with heat dissipation grid, specific heat dissipation grid to be located under fan electromotor Side, but due to rising hot-air, the heat that fan electromotor produces can not be discharged effectively from heat dissipation grid, and when operation, produces Raw heat build-up is difficult to scatter in time in motor shroud, and it is exceeded to frequently result in fan electromotor temperature rise.

In view of this, the fan electromotor of some manufacturers selection main body wall thickness bigger solves the problems, such as this, but select bigger thick The fan electromotor of degree, will cause fan electromotor cost to be significantly increased, while box sizes are also required to corresponding increasing, increase in turn Manufacture cost.

The content of the invention

It is an object of the invention to provide a kind of wall-hanging air conditioner indoor unit fan motor shield, low cost is being ensured On the premise of, effectively solve the problems, such as that fan electromotor temperature rise is exceeded caused by heat dissipation is bad in existing indoor apparatus of air conditioner.

To reach above-mentioned purpose, the present invention is achieved by the following scheme：

A kind of wall-hanging air conditioner indoor unit fan motor shield, the upper and lower both sides of the shield are respectively formed with heat dissipation Hole, lower heat emission hole, and equipped with the water-retaining structure for avoiding condensed water from flowing into the upper heat emission hole.

Further, the water-retaining structure includes the annular water retaining wall positioned at the upper heat emission hole surrounding.

Further, the water-retaining structure includes covering the water deflector of the water retaining wall, between the water deflector, water retaining wall Formed with heat gap.

Further, the water deflector outer end has extended downwardly water guide inclined-plane.

Further, cavity of the water deflector bottom formed with the top for housing the water retaining wall.

Further, shape has the screw hole column for connecting the water deflector and supports the water deflector on the shield Support column.

Further, institute is included formed with the first location structure, first location structure between the shield, water deflector Screw hole column and the arc groove being correspondingly arranged in the water deflector are stated, the arc groove is set in the screw hole column and realizes the shield Cover, the location fit of the water deflector.

Further, institute is included formed with the second location structure, second location structure between the shield, water deflector Support column and the positioning plate being correspondingly arranged in the water deflector are stated, the positioning plate is resisted against the support column and realizes the shield Cover, the location fit of water deflector.

Further, the support column is between the screw hole column, water retaining wall, or the support column, screw hole column difference The opposite sides on the water retaining wall, or the support column are located at the top of the water retaining wall.

Further, the lower heat emission hole is opposite with the heat dissipation grid in the wall-hanging air conditioner indoor unit on base sets Put.

Compared with prior art, advantages of the present invention and beneficial effect are：

The present invention is in order to avoid the problem of size caused by increase main body wall thickness is very big, cost greatly improves, especially to existing There is motor shroud to be improved, in order to form cross-ventilation, improve radiating efficiency, the present invention is in the upper and lower both sides of shield point Not formed with upper heat emission hole, lower heat emission hole, during fan electromotor is run, the air entered by lower heat emission hole is in shield Heat emission hole is risen through after interior heating to flow to outside shield, to realize constant heat dissipation.And in order to avoid in air conditioning chamber The condensed water produced in machine is flowed into shield by upper heat emission hole so that influencing the normal operation of fan electromotor, and the present invention is also protecting Be provided with the water-retaining structure for avoiding condensed water from flowing into upper heat emission hole on cover, water-retaining structure according to upper heat emission hole design and produce thus Size is smaller, and the generation manufacture of low cost is ensure that while quality is ensured, and upper heat emission hole, the structure of lower heat emission hole pass through Realize that cross-ventilation can effectively solve the fan electromotor temperature rise excessive problem caused by heat dissipation is bad in existing indoor apparatus of air conditioner And some other hidden danger thus triggered.

After the detailed description of embodiment of the present invention is read in conjunction with the figure, the other features and advantages of the invention will become more Add clear.

Brief description of the drawings

Fig. 1 is the decomposition diagram of shield of the embodiment of the present invention, fan electromotor；

Fig. 2 is the structure diagram after shield of the embodiment of the present invention, fan electromotor assembling；

Fig. 3 is the structure diagram that water deflector is equipped with Fig. 2；

Fig. 4 is the structure diagram of water deflector of the embodiment of the present invention（One）；

Fig. 5 is the structure diagram of water deflector of the embodiment of the present invention（Two）；

Fig. 6 is the structure diagram that shield of the embodiment of the present invention is assemblied in base.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, the technical solution in the embodiment of the present invention is clearly and completely described.

Fan electromotor temperature rise is caused to surpass because heat dissipation is bad in the process of running to solve existing wall-hanging air conditioner indoor unit Target problem and some hidden danger thus triggered, on the premise of the present embodiment ensures low cost manufacture, that is, avoid simple Increase the similar scheme such as fan electromotor main body wall thickness, a kind of wall-hanging air conditioner indoor unit apoplexy is proposed while ensureing reliable Motor shield 10 is fanned, as shown in Figure 1 and Figure 2, in order to form cross-ventilation, is specifically formed respectively in the upper and lower both sides of shield 10 Have upper heat emission hole 11, lower heat emission hole 12, wherein, when term " on ", " under " is based on 10 use state of shield shown orientation or Position relationship, since the upside of shield 10 needs possess the effect collected condensed water and guide condensed water to enter drip tray, in order to avoid Condensed water flows into shield 10 normal operation for influencing fan electromotor 20 along upper heat emission hole 11, and the present embodiment is also set on shield 10 The water-retaining structure for avoiding condensed water from flowing into upper heat emission hole 11 is put.

The specific implementation of water-retaining structure have it is a variety of, in order to realize preferably water blocking effect, the present embodiment water-retaining structure It is included in the annular water retaining wall 13 for being stretched out on shield 10 by upper 11 surrounding of heat emission hole and being formed so that upper heat emission hole 11 is rendered as Flange pore structure, water retaining wall 13 can be integrally formed with shield 10, dropped down onto in condensing drip and formed current on the outer surface of shield 10 When, water retaining wall 13 can effectively obstruct current as mine dam and flow into upper heat emission hole 11.

In order to avoid condensed water is directly dropped in upper heat emission hole 11, water-retaining structure further includes the water blocking of masking water retaining wall 13 Part 14, and in order to ensure air flow, formed with heat gap, i.e. water deflector 14 between the water deflector 14 and water retaining wall 13 of setting The top of water retaining wall 13 can't be blocked comprehensively, as shown in Figure 3.

In order to avoid condensed water is gathered along 14 outer end of water deflector or flow to 14 bottom of water deflector and then drops to upper heat dissipation Hidden danger in hole 11, the present embodiment have also extended downwardly water guide inclined-plane 141 in 14 outer end of water deflector, drop to the top of water deflector 14 Condensed water will quickly flow away along water guide inclined-plane 141.Further, the present embodiment also in 14 bottom of water deflector formed with appearance The cavity 142 on the top of water retaining wall 13 is put, as shown in figure 5, because the reason for difference in height, flow to the cold of 141 bottom of water guide inclined-plane Condensate can not thoroughly will be entered in upper heat emission hole 11 by the top of water retaining wall 13.

In some embodiments of the invention, in order to reduce assembly process, can design the one of water deflector 14 and shield 10 into Type.But for the manufacture for simplifying mould structure, ensuring low cost, water deflector 14 is designed as independent zero in the present embodiment Component, and using connection reliability height, the easy screw connection scheme of assembling, for this reason, the present embodiment shape on shield 10 has company The screw hole column 15 of water deflector 14 is connect, shape has mounting hole 144 in water deflector 14 accordingly, as shown in Figure 4, Figure 5.Due to water blocking 14 size of part is smaller, lighter in weight, and in order to further simplify assembling process, the present embodiment is only on shield 10 formed with a spiral shell Hole post 15, after water deflector 14 is installed on shield 10, water deflector 14 keeps the state of cantilever design, in order to ensure installation Reliability, support column 16 of the present embodiment formed with support water deflector 14 also on shield 10, to realize screw hole column 15, support The dual support of column 16.

For the position of support column 16, support column 16, screw hole column 15 can be specifically designed in some embodiments of the invention Respectively positioned at opposite sides on water retaining wall 13；Or support column 16 is extended to form again up on the top of water retaining wall 13, work as design When support column 16 is located at the top of water retaining wall 13, it can be more spaced on the top of water retaining wall 13 and lay multiple support columns 16, even if branch Dagger 16 and 14 comprehensive engagement of water deflector, can also form the heat gap for air flow between adjacent supports column 16；Or such as this Specifically support column 16 is arranged between water retaining wall 13, screw hole column 15 in embodiment, and support column 16 is designed as platy structure, And it is connected with reinforcing rib between support column 16, screw hole column 15.

In order to realize certain fool proof effect, shape between the present embodiment shield 10, water deflector 14 when assembling water deflector 14 Into there is the first location structure, new construction is added on shield 10 in order to few as much as possible（To realize that mould is tried one's best simple）, the The circular arc that one location structure includes the screw hole column 15 of above-mentioned screw connection water deflector 14 and is correspondingly arranged in water deflector 14 Groove 143, as shown in figure 5, arc groove 143 is coaxially disposed with mounting hole 144, when arc groove 143 is set in screw hole column 15, accordingly Mounting hole 144 overlapped with the screw thread axially bored line on screw hole column 15 and then realize shield 10, the location fit of water deflector 14.

In order to ensure after mounting water deflector 14 can completely obscured water retaining wall 13, the present embodiment is also in shield 10, water blocking Formed with the second location structure between part 14, avoid adding new construction on shield 10 also for trying one's best, the second positioning knot Structure includes the above-mentioned support column 16 between water retaining wall 13, screw hole column 15, and the positioning being correspondingly arranged in water deflector 14 Plate 145, after positioning plate 145 abuts to support column 16, main body in water deflector 14 just can with completely obscured column water retaining wall 13, Water deflector 14 can not also be rotated relative to the axis of screw hole column 15, thus can avoid well assembling water deflector 14 when it is rotated The problem of causing rigging position deviation.

In other embodiments of the invention, also gear can be installed on using the rubber cap for having the brim of a hat as water deflector 14 The top of water wall 13, the exit on the top of water retaining wall 13 is thoroughly closed using rubber cap, and is processed on water retaining wall 13 perpendicular To heat dissipation grid, the outer surface of heat dissipation grid shield vis 10 has setting height and effectively blocked by the brim of a hat, because And condensed water will not both be dripped and will not flowed into heat dissipation grid；Or water deflector 14 is designed as to cover water retaining wall 13 comprehensively The elastic clip in n shapes, the opening on elastic clip top of completely obscured water retaining wall 13 while water retaining wall 13 are clamped, is This need to cause the overlay length of elastic clip to be more than the length of water retaining wall 13, and elastic clip when clamping the vertical direction in direction Heat gap is left between the opening on top and the top of water retaining wall 13 to ensure the flowing of air.

In order to improve cross-ventilated effect, the lower heat emission hole 12 of the present embodiment design and base in wall-hanging air conditioner indoor unit The opposite laying of heat dissipation grid 31 on 30, as shown in fig. 6, to ensure that the air by heat dissipation grid 31 can be dissipated heavily through lower Hot hole 12 is flowed in shield 10.

In order to accelerate the hot-air in shield 10 to flow, water retaining wall 13 can be also designed along upper heat emission hole 11, lower heat emission hole 12 The extension of line direction, with ensure the outflow of 13 extending direction of water retaining wall and air go up heat emission hole 11 direction it is consistent.The present embodiment In upper heat emission hole 11, lower heat emission hole 12 be rectangular opening easy to process.

The above described is only a preferred embodiment of the present invention, being not the limitation for making other forms to the present invention, appoint What those skilled in the art changed or be modified as possibly also with the technology contents of the disclosure above equivalent variations etc. Imitate embodiment.But it is every without departing from technical solution of the present invention content, the technical spirit according to the present invention is to above example institute Any simple modification, equivalent variations and the remodeling made, still fall within the protection domain of technical solution of the present invention.

Claims (10)

1. A kind of 1. wall-hanging air conditioner indoor unit fan motor shield, it is characterised in that the upper and lower both sides difference of the shield Formed with upper heat emission hole, lower heat emission hole, and equipped with the water-retaining structure for avoiding condensed water from flowing into the upper heat emission hole.
2. 2. wall-hanging air conditioner indoor unit fan motor shield according to claim 1, it is characterised in that the water blocking Structure includes the annular water retaining wall positioned at the upper heat emission hole surrounding.
3. 3. wall-hanging air conditioner indoor unit fan motor shield according to claim 2, it is characterised in that the water blocking Structure includes the water deflector for covering the water retaining wall, formed with heat gap between the water deflector, water retaining wall.
4. 4. wall-hanging air conditioner indoor unit fan motor shield according to claim 3, it is characterised in that the water blocking Part outer end has extended downwardly water guide inclined-plane.
5. 5. wall-hanging air conditioner indoor unit fan motor shield according to claim 3, it is characterised in that the water blocking Cavity of the part bottom formed with the top for housing the water retaining wall.
6. 6. wall-hanging air conditioner indoor unit fan motor shield according to claim 3, it is characterised in that the shield Upper shape has the screw hole column for connecting the water deflector and the support column of the support water deflector.
7. 7. wall-hanging air conditioner indoor unit fan motor shield according to claim 6, it is characterised in that the shield Include the screw hole column formed with the first location structure, first location structure between cover, water deflector and be correspondingly arranged at institute The arc groove in water deflector is stated, the arc groove is set in the screw hole column and realizes that the positioning of the shield, the water deflector is matched somebody with somebody Close.
8. 8. wall-hanging air conditioner indoor unit fan motor shield according to claim 6, it is characterised in that the shield Include the support column formed with the second location structure, second location structure between cover, water deflector and be correspondingly arranged at institute The positioning plate in water deflector is stated, the positioning plate is resisted against the support column and realizes the shield, the location fit of water deflector.
9. 9. wall-hanging air conditioner indoor unit fan motor shield according to claim 6, it is characterised in that the support Column is between the screw hole column, water retaining wall, or the support column, screw hole column are located at opposite sides on the water retaining wall respectively, Or the support column is located at the top of the water retaining wall.
10. 10. wall-hanging air conditioner indoor unit fan motor shield according to claim 1, it is characterised in that under described Heat emission hole is oppositely arranged with the heat dissipation grid in the wall-hanging air conditioner indoor unit on base.