CN215412455U - Valve protecting cover and air conditioner outdoor unit - Google Patents

Abstract

The embodiment of the application discloses valve protecting cover and air condensing units. The valve protecting cover comprises a valve protecting cover body and a side plate assembly, the side plate assembly is connected with the edge of the valve protecting cover body to form an accommodating cavity, the side plate assembly comprises a water collecting plate connected with the edge of one side of the valve cover plate body, and the surface of the water collecting plate facing the accommodating cavity is partially sunken to form a water guide groove; the water collecting plate is provided with a first edge and a second edge which are sequentially distributed along the direction from the closed end to the open end of the valve protecting cover, and the water guide groove extends from the second edge to the first edge; the height of the surface of the water collecting plate facing the containing cavity relative to the bottom surface of the water guide groove is gradually increased along the direction far away from the water guide groove. This application is through the direction that highly follows away from the guiding gutter with the water-collecting sheet towards the relative guiding gutter bottom surface in surface that holds the chamber crescent for the guiding gutter bottom surface is in the minimum water level department of valve protecting cover, thereby is favorable to collecting the water in the valve protecting cover to discharging in the guiding gutter, avoids producing ponding in the valve protecting cover.

Description

Valve protecting cover and air conditioner outdoor unit

Technical Field

The application relates to the field of air conditioners, in particular to a valve protecting cover and an air conditioner outdoor unit.

Background

The air conditioner is when refrigeration or heating, and the valve body group in the air conditioner outdoor unit has a valve body to be in and is less than the air temperature state, because the valve body exposes in the middle of the air, can produce the comdenstion water and attach to the valve body surface when low temperature valve body and high temperature air contact, when the comdenstion water accumulated a quantitative time, the comdenstion water can be in the same direction as the downward overflow of valve body, for guaranteeing that the air conditioner comdenstion water is random toward outer water clock, often set up a valve protecting cover outside the valve body, be provided with the water guide structure in the valve protecting cover. However, in the prior art, water in the valve protecting cover cannot be effectively guided into the water guide structure to be discharged, and accumulated water is easily generated in the valve protecting cover.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a valve protecting cover and air condensing units, can solve among the prior art water in the valve protecting cover and discharge in can't effectively leading-in water guide structure, easily produce the problem of ponding in the valve protecting cover.

The embodiment of the application provides a valve protecting cover, include:

a valve shield body;

the side plate assembly is connected with the edge of the valve protecting cover body to form an accommodating cavity, the side plate assembly comprises a water collecting plate connected with the edge of one side of the valve protecting cover body, and the surface part of the water collecting plate facing the accommodating cavity is sunken to form a water guide groove;

the water collecting plate is provided with a first edge and a second edge which are sequentially distributed along the direction from the closed end to the open end of the valve protecting cover, and the water guide groove extends from the second edge to the first edge; the height of the surface of the water collecting plate facing the containing cavity relative to the bottom surface of the water guide groove is gradually increased along the direction far away from the water guide groove.

Optionally, in some embodiments of the present application, the water collection sheet includes a first sub-set of water sheets and a second sub-set of water sheets distributed on both sides of the water chute;

the first water collecting plate subset is provided with a first side edge and a second side edge which are sequentially distributed along the direction far away from the water chute, and the height of the surface, facing the accommodating cavity, of the first water collecting plate subset relative to the bottom surface of the water chute is gradually increased from the first side edge to the second side edge; and/or the presence of a gas in the gas,

the second water collecting plate is provided with a third side edge and a fourth side edge which are sequentially distributed along the direction far away from the water chute, and the height of the surface, facing the containing cavity, of the second water collecting plate relative to the bottom surface of the water chute is gradually increased from the third side edge to the fourth side edge.

Optionally, in some embodiments of the present application, a height of a surface of the first water collecting sub-plate facing the accommodating cavity relative to the bottom surface of the water guide groove gradually increases in a direction away from the valve protecting cover body; and/or the presence of a gas in the gas,

the height of the surface of the second water sub-collecting plate facing the containing cavity relative to the bottom surface of the water guide groove is gradually increased along the direction far away from the valve protecting cover body.

Optionally, in some embodiments of the present application, the side plate assembly further includes a support portion, the support portion is connected to a side edge of the valve protecting cover body, and the support portion is located on a side of the water collecting plate departing from the accommodating cavity and connected to the water collecting plate.

Optionally, in some embodiments of the present application, the supporting portion includes a first side plate, a first supporting plate and a second supporting plate, the first side plate is located on one side of the water collecting plate deviating from the accommodating cavity, the first side plate is close to the edge of one side of the valve protecting cover body and the water collecting plate deviates from the surface of one side of the accommodating cavity is connected and is arranged at an included angle, the first supporting plate is connected between the first sub-water collecting plate and the first side plate, and the second supporting plate is connected between the second sub-water collecting plate and the first side plate.

Optionally, in some embodiments of this application, the second edge orientation of water-collecting sheet is kept away from the direction of valve protecting cover body is stretched out there is the water drainage mouth, drainage channel has been seted up on the water drainage mouth, drainage channel follows the stretching out direction of water drainage mouth runs through the water drainage mouth and with the guiding gutter intercommunication.

Optionally, in some embodiments of the present application, the side plate assembly includes a second side plate and a third side plate connected to an edge of the valve protective cover body, the second side plate being disposed opposite the first side plate, the third side plate being located between the first side plate and the second side plate;

the first side plate and the valve protecting cover body are arranged at a first included angle, and the first included angle is larger than or equal to 100 degrees and smaller than or equal to 110 degrees; and/or the presence of a gas in the gas,

the second side plate and the valve protecting cover body form a second included angle, and the second included angle is larger than or equal to 130 degrees and smaller than or equal to 140 degrees; and/or the presence of a gas in the gas,

the third curb plate with valve protecting cover body is the setting of third contained angle, the third contained angle is more than or equal to 105 and is less than or equal to 115.

Optionally, in some embodiments of the present application, the side plate assembly further includes a fourth side plate connected to an edge of the valve protecting cover body, the fourth side plate is disposed opposite to the third side plate, and the fourth side plate has a first opening; the outer surface of the fourth side plate is convexly provided with a reinforcing part, and the reinforcing part extends out along the direction of the first opening edge far away from the accommodating cavity.

Optionally, in some embodiments of the present application, the reinforcement portion includes a first sub-reinforcement portion protruding from a first opening edge of the fourth side plate toward a direction away from the accommodation cavity, the first sub-reinforcement portion extending along an edge of the first opening;

the reinforcing part still includes the sub-reinforcing part of second, the sub-reinforcing part of second certainly first sub-reinforcing part is kept away from the edge that holds the chamber stretches out, the direction of extension of the sub-reinforcing part of second with the direction of extension of first sub-reinforcing part is the contained angle setting.

Correspondingly, the embodiment of the present application further provides an outdoor unit of an air conditioner, including:

an outdoor unit body;

the chassis is connected with the outdoor unit body; and

the valve protecting cover is connected with the outdoor unit body, and a water guide groove of the valve protecting cover is in butt joint with the chassis.

Valve protecting cover in the embodiment of this application includes valve protecting cover body and curb plate subassembly, the curb plate subassembly includes the water-collecting sheet with valve protecting cover body one side edge connection, the water-collecting sheet is towards the sunken formation guiding gutter that forms of surface portion who holds the chamber, wherein, the water-collecting sheet has along keeping away from first edge and the second edge that valve protecting cover body direction distributes in proper order, the guiding gutter extends towards first edge from the second edge, and the water-collecting sheet highly along the direction of keeping away from the guiding gutter gradually towards the relative guiding gutter bottom surface in surface that holds the chamber, make the guiding gutter bottom surface be in valve protecting cover's minimum water level department, thereby be favorable to collecting the water in the valve protecting cover to discharging in the guiding gutter, produce ponding in the valve protecting cover.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic view of a valve protective cover according to an embodiment of the present disclosure;

FIG. 2 is another angular view of the valve protective cover of FIG. 1;

fig. 3 is a schematic structural diagram of an outdoor unit of an air conditioner according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a mounting plate according to an embodiment of the present application.

Description of reference numerals:

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Furthermore, it should be understood that the detailed description and specific examples, while indicating exemplary embodiments of the invention, are given by way of illustration and explanation only, and are not intended to limit the scope of the invention. In the present application, unless indicated to the contrary, the use of the directional terms "upper" and "lower" generally refer to the upper and lower positions of the device in actual use or operation, and more particularly to the orientation of the figures of the drawings; while "inner" and "outer" are with respect to the outline of the device.

The embodiment of the application provides a valve protecting cover and an air condensing units. The following are detailed below. It should be noted that the following description of the embodiments is not intended to limit the preferred order of the embodiments.

Firstly, the embodiment of the application provides a valve protecting cover, which comprises a valve protecting cover body and a side plate assembly, wherein the side plate assembly is connected with the edge of the valve protecting cover body to form an accommodating cavity; the water collection sheet has along valve protecting cover blind end to the first edge and the second edge that the open end direction distributes in proper order, and the guiding gutter extends towards first edge from the second edge, and the water collection sheet is towards holding the relative guiding gutter bottom surface's of chamber height along the direction of keeping away from the guiding gutter crescent.

FIG. 1 is a schematic structural view of a valve protecting cover provided in the embodiment of the present application, and as shown in FIG. 1, the valve protecting cover 100 includes a valve protecting cover body 110, the valve protecting cover body 110 is an important component of the valve protecting cover 100, and the shape and structure thereof has a great influence on the overall strength of the valve protecting cover 100.

Wherein, valve protecting cover body 110 is the curved surface, and the curved surface structure can effectively strengthen valve protecting cover 100 bulk strength, can effectively deal with the stress deformation in the injection moulding process simultaneously. If the radian of the curved surface is too small, the function of strengthening the strength of the valve protecting cover 100 cannot be achieved; if the radian of the curved surface is too large, a barb structure is easy to form, and demolding in the injection molding process is not easy to occur, so that in the actual manufacturing process, the radius of the curved surface of the valve protecting cover body 110 is set to be larger than or equal to 280mm and smaller than or equal to 320mm, the strength of the valve protecting cover body 110 can be increased, and the stress deformation in the injection molding process can be effectively improved. The radius of curvature of the valve housing body 110 may be specifically set to 280mm, 290mm, 300mm, 310mm, 320mm, etc., and the specific value may be adjusted according to actual design requirements.

Valve protecting cover 100 still includes curb plate subassembly 120, and the edge connection of curb plate subassembly 120 and valve protecting cover body 110 forms and holds chamber 130, and in actual manufacture process, often be equipped with the draft angle on curb plate subassembly 120, hold chamber 130 promptly and be the trend of expanding gradually along the direction of keeping away from valve protecting cover body 110 to further strengthen valve protecting cover 100 bulk strength, effectively eliminate the stress deformation that product injection moulding brought.

Optionally, the side plate assembly 120 includes a water collecting plate 121 connected to an edge of one side of the valve protecting cover body 110, the water collecting plate 121 is recessed towards a surface portion of the containing cavity 130 to form a water guiding trough 1215, i.e. the condensed water in the valve protecting cover 100 is collected into the water guiding trough 1215 through the water collecting plate 121, and then is discharged out of the valve protecting cover 100 through the water guiding trough 1215, so that the condensed water can be prevented from dropping out of the valve protecting cover 100, the water in the valve protecting cover 100 can be effectively discharged, and the accumulated water generated in the valve protecting cover 100 can be avoided.

Wherein, the water collecting plate 121 can be directly connected with one side edge of the valve protecting cover body 110, and also can be indirectly connected with one side edge of the valve protecting cover body 110 through other structures, only by ensuring that the water collecting plate 121 can effectively collect the condensed water in the valve protecting cover 100 into the water chute 1215 and discharge the condensed water, and the limitation is not made here.

Optionally, the water collection sheet 121 has a first edge 1211 and a second edge 1212 sequentially extending from the closed end to the open end of the valve protective cover 100, and the water chute 1215 extends from the second edge 1212 toward the first edge 1211. Wherein, sink 1215 can extend partially from the second edge 1212 toward the first edge 1211, i.e., the sink 1215 is located in a region proximate to the second edge 1212. Of course, the gutter 1215 can also extend from the second edge 1212 towards the first edge 1211 and communicate the first edge 1211 with the second edge 1212, i.e. the gutter 1215 extends across the surface of the water collection sheet 121 from the second edge 1212 towards the first edge 1211. The specific structure of the gutter 1215 may be adjusted according to actual design requirements, so long as the gutter 1215 ensures that the condensate can be effectively drained from the valve cover 100.

Optionally, the height of the surface of the water collecting plate 121 facing the receiving cavity 130 relative to the bottom surface of the water chute 1215 is gradually increased along the direction away from the water chute 1215, that is, the bottom surface of the water chute 1215 is the lowest water level of the water collecting plate 121, and this structure design can guide all the condensed water collected by the water collecting plate 121 into the water chute 1215, thereby facilitating the condensed water to be discharged out of the valve protecting cover 100.

The embodiment of the application arranges the water collecting plate 121 in the valve protecting cover 100, the surface part of the water collecting plate 121 facing the containing cavity 130 is sunken to form the water chute 1215, and the height of the surface of the water collecting plate 121 facing the containing cavity 130 relative to the bottom surface of the water chute 1215 is gradually increased along the direction far away from the water chute 1215, so that the water chute 1215 is positioned at the lowest water level of the valve protecting cover 100, thereby being beneficial to collecting the water in the valve protecting cover 100 into the water chute 1215 for discharging, and avoiding the accumulated water in the valve protecting cover 100.

Optionally, the water collection sheet 121 includes a first sub-set water sheet 1213 and a second sub-set water sheet 1214 distributed on both sides of the water chute 1215, and the first sub-set water sheet 1213 and the second sub-set water sheet 1214 are respectively connected to both side edges of the water chute 1215, i.e. the water chute 1215 is located in the middle area of the water collection sheet 121, but not located on one side of the water collection sheet 121, and this structure design enables the water collection sheet 121 to respectively adjust the structures of the first sub-set water sheet 1213 and the second sub-set water sheet 1214 according to the overall structure design requirement of the valve protecting cover 100 to meet different use requirements.

In some embodiments, the first sub-set water plate 1213 has a first side 1213a and a second side 1213b which are sequentially distributed in a direction away from the gutter 1215, and the height of the surface of the first sub-set water plate 1213 facing the receiving chamber 130 is gradually increased from the first side 1213a toward the second side 1213b with respect to the bottom surface of the gutter 1215. That is, the surface of the first sub-water plate subset 1213 facing the receiving cavity 130 is disposed at an angle to the bottom surface of the gutter 1215, which is favorable for guiding the water falling onto the first sub-water plate subset 1213 into the gutter 1215, and thus, the water accumulation on the first sub-water plate subset 1213 is avoided. In addition, the angle between the surface of the first sub-water plate 1213 facing the receiving cavity 130 and the bottom surface of the water chute 1215 can be adjusted according to the actual design requirement, and is not limited herein.

In other embodiments, the second subset of water panels 1214 has a third side 1214a and a fourth side 1214b sequentially distributed away from the gutter 1215, and the height of the surface of the second subset of water panels 1214 facing the receiving cavity 130 increases from the third side 1214a toward the fourth side 1214b relative to the bottom surface of the gutter 1215, i.e., the surface of the second subset of water panels 1214 facing the receiving cavity 130 is disposed at an angle to the bottom surface of the gutter 1215, which facilitates guiding water falling onto the second subset of water panels 1214 into the gutter 1215 and avoids water accumulation on the second subset of water panels 1214. In addition, the angle between the surface of the second sub-set water plate 1214 facing the accommodating cavity 130 and the bottom surface of the water chute 1215 can be adjusted according to the actual design requirement, and is not limited herein.

Optionally, the height of the surface of the first water sub-collecting plate 1213 facing the accommodating cavity 130 relative to the bottom surface of the water chute 1215 gradually increases along the direction away from the valve cover body 110, i.e. the surface of the first water sub-collecting plate 1213 facing the accommodating cavity 130 is inclined from the bottom surface of the water chute 1215, and the inclined direction is toward the valve cover body 110, so that the water dropping on the first water sub-collecting plate 1213 flows toward the direction close to the valve cover body 110, thereby preventing the water from directly flowing out of the valve cover 100.

Optionally, the height of the surface of the second water sub-set 1214 facing the receiving cavity 130 relative to the bottom of the water chute 1215 gradually increases in a direction away from the valve housing body 110, i.e., the surface of the second water sub-set 1214 facing the receiving cavity 130 is inclined from the bottom of the water chute 1215 and is inclined toward the valve housing body 110, so that water dripping onto the second water sub-set 1214 flows toward the valve housing body 110, thereby preventing water from directly flowing out of the valve housing 100.

Optionally, the side plate assembly 120 further includes a supporting portion 122, the supporting portion 122 is connected to a side edge of the valve housing body 110, and the supporting portion 122 is located on a side of the water collecting plate 121 facing away from the accommodating cavity 130 and connected to the water collecting plate 121 to support the water collecting plate 121. The stability of water-collecting plate 121 can be strengthened in the setting of supporting part 122, avoids in the installation use, because water-collecting plate 121 drops and leads to the interior water outflow of valve protecting cover 100.

In some embodiments, the support 122 includes a first side plate 1221, a first support plate 1222, and a second support plate 1223. Wherein, first curb plate 1221 is located the water-collecting sheet 121 and deviates from the one side that holds chamber 130, and first curb plate 1221 is close to the edge that valve protecting cover body 110 one side and water-collecting sheet 121 deviate from the surface connection that holds chamber 130 one side and be the contained angle setting, and this kind of structural design can effectively avoid the rivers in valve protecting cover 100 to flow into first curb plate 1221 and can't discharge through aqueduct 1215 to produce ponding in valve protecting cover 100.

Optionally, the first support plate 1222 is connected between the first sub-water plate subset 1213 and the first side plate 1221 to support the first sub-water plate subset 1213 and prevent the first sub-water plate subset 1213 from falling off. The second supporting plate 1223 is connected between the second sub-set water plate 1214 and the first side plate 1221 to support the second sub-set water plate 1214 and prevent the second sub-set water plate 1214 from falling off.

It should be noted that the first support plate 1222 and the second support plate 1223 can be vertically connected to the first side plate 1221, and can also be connected at other angles, and can be adjusted according to the actual structural design requirement, only by ensuring that the first support plate 1222 and the second support plate 1223 can effectively support the first sub-water plate 1213 and the second sub-water plate 1214.

Optionally, the second edge 1212 of the water collection sheet 121 extends away from the valve cover body 110 to form a drain nozzle 1216, and the drain nozzle 1216 is provided with a drain channel 1216a, and the drain channel 1216a extends through the drain nozzle 1216 along the extending direction of the drain nozzle 1216 and communicates with the water chute 1215. That is, the drain passage 1216a of the drain nozzle 1216 is an extended structure of the gutter 1215, so that the water in the valve housing 100 flows through the drain passage 1216a via the gutter 1215 and then is discharged out of the valve housing 100.

It should be noted that the extension of the drain 1216 from the second edge 1212 of the water collection sheet 121 toward the direction away from the valve cover 100 facilitates the docking of the drain 1216 with other structures to divert water from the valve cover 100, rather than directly out of the valve cover 100, to avoid water accumulation or water stain around the valve cover 100.

Optionally, the side plate assembly 120 includes a second side plate 123 and a third side plate 124 connected to an edge of the valve housing body 110, wherein the second side plate 123 is disposed opposite the first side plate 1221, and the third side plate 124 is disposed between the first side plate 1221 and the second side plate 123. That is, the first side plate 1221, the second side plate 123, and the third side plate 124 constitute three sides of the receiving chamber 130.

In some embodiments, as shown in fig. 2, the first side plate 1221 and the valve protecting cover body 110 form a first included angle α 1, which is beneficial to enhancing the strength of the first side plate 1221 and effectively eliminating the stress deformation caused by injection molding. The size of the first included angle is closely related to the installation position, the strength requirement, and the molding process of the first side plate 1221, and in the actual production process, the first included angle α 1 is set to be greater than or equal to 100 ° and less than or equal to 110 °, specifically, α 1 may be set to be 100 °, 103 °, 105 °, 108 °, or 110 °, and the specific size thereof may be adjusted according to the actual design requirement.

Second curb plate 123 is the setting of second contained angle alpha 2 with valve protecting cover body 110, is favorable to strengthening the intensity of second curb plate 123, effectively eliminates the stress deformation that injection moulding brought. The size of the second included angle is closely related to the mounting position, the strength requirement, and the molding process of the second side plate 123, and in the actual production process, the second included angle α 2 is set to be greater than or equal to 130 ° and less than or equal to 140 °, specifically, may be set to α 2 ═ 130 °, 132 °, 135 °, 138 °, or 140 °, and the like, and the specific size thereof may be adjusted according to the actual design requirement.

Third curb plate 124 is the third contained angle setting with valve protecting cover body 110, is favorable to strengthening the intensity of third curb plate 124, effectively eliminates the stress deformation that injection moulding brought. The size of the third included angle is closely related to the installation position, the strength requirement and the molding process of the third side plate 124, in the actual production process, the third included angle is set to be greater than or equal to 105 degrees and less than or equal to 115 degrees, specifically, the third included angle may be set to be 105 degrees, 108 degrees, 110 degrees, 113 degrees or 115 degrees, and the specific size of the third included angle may be adjusted according to the actual design requirement.

It should be noted that, in the actual production process, only one or two of the first side plate 1221, the second side plate 123, and the third side plate 124 may be designed according to the above-mentioned set standard, or all of them may be designed according to the above-mentioned standard. When first curb plate 1221, second curb plate 123 and third curb plate 124 are all set up according to above-mentioned standard, can further strengthen valve protecting cover 100's bulk strength, reduce the stress deformation that injection moulding brought.

Optionally, the supporting portion 122 further includes a connecting plate 1224 connected between an edge of the valve protecting cover body 110 and the first side plate 1221, the connecting plate 1224 and the valve protecting cover body 110 form a fourth included angle α 3, which is beneficial to the water in the valve protecting cover 100 to smoothly flow to the water chute 1215 along the connecting plate 1224, and meanwhile, the distance between the valve protecting cover 100 and the packaging foam is increased, so as to effectively avoid the valve protecting cover 100 from being broken due to the impact of the packaging foam when the valve protecting cover 100 falls off. In an actual production process, the fourth included angle α 3 is set to be greater than or equal to 130 ° and less than or equal to 140 °, specifically, α 3 may be set to 130 °, 132 °, 135 °, 138 °, or 140 °, and a specific size thereof may be adjusted according to an actual design requirement.

Optionally, the side plate assembly 120 further includes a fourth side plate 125 connected to an edge of the valve housing body 110, the fourth side plate 125 being disposed opposite the third side plate 124, i.e., the fourth side plate 125 is located between the first side plate 1221 and the second side plate 123, and the fourth side plate 125 and the first side plate 1221, the second side plate 123 and the third side plate 124 form a side of the receiving cavity 130. The fourth side plate 125 has a first opening 1251 for providing a passage for a related pipe or other structure, so as to facilitate the installation and use of the valve protecting cover 100.

It should be noted that the first opening 1251 is disposed on a side edge of the fourth side plate 125 away from the valve housing body 110 and extends toward the valve housing body 110, and at the same time, the first opening 1251 extends toward the second side plate 123 and the third side plate 124 to ensure that the related pipes or other structures can be normally installed through the first opening 1251.

In some embodiments, the first opening 1251 is disposed in a middle region of the fourth side plate 125, i.e., the first opening 1251 does not extend through a side of the fourth side plate 125 away from the valve housing body 110. In the actual manufacture process, the setting position and the shape of the first opening 1251 can be adjusted according to design requirements, and only the normal installation and use of the valve protecting cover 100 are required to be ensured.

Optionally, the outer surface of the fourth side plate 125 is convexly provided with a reinforcement portion 1252, and the reinforcement portion 1252 protrudes along the edge of the first opening 1251 in a direction away from the accommodating chamber 130. In the manufacturing process of the valve protecting cover 100, the first opening 1251 is opened on the fourth side plate 125, so that the valve protecting cover 100 is deformed due to uneven stress caused by serious uneven heat dissipation during the injection molding process. The reinforcement 1252 can effectively improve the strength of the area around the first opening 1251 on the fourth side plate 125, and prevent the area around the first opening 1251 from being deformed too much to affect the normal use of the valve protecting cover 100.

In some embodiments, the reinforcement portion 1252 includes a first sub reinforcement portion 1252a, the first sub reinforcement portion 1252a protrudes from an edge of the first opening 1251 of the fourth side plate 125 toward a direction away from the accommodation chamber 130, and the first sub reinforcement portion 1252a extends along the edge of the first opening 1251. That is, the first sub reinforcement portion 1252a is shaped similarly to the edge of the first opening 1251, and reinforces the edge of the first opening 1251 at every place, thereby further improving the overall strength of the valve protective cover 100.

In other embodiments, the reinforcement portion 1252 further includes a second sub-reinforcement portion 1252b, the second sub-reinforcement portion 1252b extends from the edge of the first sub-reinforcement portion 1252a away from the accommodating cavity 130, and the extending direction of the second sub-reinforcement portion 1252b is disposed at an angle to the extending direction of the first sub-reinforcement portion 1252 a. Due to the design of the structure, the whole formed by the second sub-reinforcing part 1252b and the first sub-reinforcing part 1252a is closer to the self-trend of the fourth side plate 125, so as to compensate the first opening 1251, further enhance the strength of the fourth side plate 125, and reduce the influence of uneven stress on the fourth side plate 125.

It should be noted that the included angle between the second sub-reinforcing portion 1252b and the first sub-reinforcing portion 1252a is the same as the included angle between the fourth side plate 125 and the valve protecting cover body 110, that is, the extending direction of the second sub-reinforcing portion 1252b is the same as the arrangement direction of the fourth side plate 125, which is beneficial to further reducing the influence of the stress non-uniformity on the strength and deformation of the fourth side plate 125.

Wherein, the second sub reinforcement 1252b is kept away from the edge that holds the chamber 130 from first sub reinforcement 1252a and is extended to the direction of keeping away from valve protecting cover body 110, or, the edge that holds the chamber 130 is kept away from first sub reinforcement 1252a to the direction that is close to valve protecting cover body 110 to second sub reinforcement 1252b, and its setting mode can be adjusted according to actual design demand, only need guarantee that second sub reinforcement 1252b can effectively reduce the influence of uneven stress to fourth side panel 125 intensity and deformation can.

Optionally, in the embodiment of the present disclosure, the material used for the valve protecting cover 100 is doped with quartz in a predetermined ratio besides the conventional polypropylene, and the addition of the quartz material can effectively improve the hardness and strength of the valve protecting cover 100 and reduce the deformation. It should be noted that besides the quartz material, any other material, such as mica, etc., which is beneficial to improving the hardness and strength of the valve protecting cover 100 and reducing the deformation amount can be added when the valve protecting cover 100 is manufactured, and the type and proportion of the added material can be adjusted according to the actual design requirement, which is not limited herein.

Secondly, this application embodiment still provides an air condensing units, and this air condensing units includes the valve protecting cover, and the concrete structure of this valve protecting cover refers to above-mentioned embodiment, because this air condensing units has adopted all technical scheme of above-mentioned all embodiments, consequently has at least all beneficial effects that the technical scheme of above-mentioned embodiment brought, and the repeated description is no longer given here.

Fig. 3 is a schematic structural view of an outdoor unit of an air conditioner according to an embodiment of the present disclosure, and as shown in fig. 3, the outdoor unit 10 includes an outdoor unit body 200, a bottom plate 300, and a valve protecting cover 100. The bottom chassis 300 is connected to the outdoor unit body 200, the valve cover 100 is connected to the outdoor unit body 200, and the water guide groove 1215 of the valve cover 100 is butted against the bottom chassis 300, so that water in the valve cover 100 is guided into the bottom chassis 300 through the water guide groove 1215.

Optionally, as shown in fig. 4, a mounting plate 210 is disposed on one side of the outdoor unit body 200 close to the valve protecting cover 100, a second opening 211 is formed on the mounting plate 210, and a water discharging nozzle 1216 of the valve protecting cover 100 passes through the second opening 211 and extends into the outdoor unit body 200 and is located above the bottom plate 300, so as to discharge water in the water guiding groove 1215 into the bottom plate 300, and prevent water in the valve protecting cover 100 from dropping outside the outdoor unit 10.

In some embodiments, the height of the bottom surface of the drain 1216a of the drain nozzle 1216 relative to the bottom surface of the bottom pan 300 is gradually decreased in a direction approaching the bottom pan 300, i.e., the bottom surface of the drain 1216a of the drain nozzle 1216 is inclined relative to the bottom surface of the bottom pan 300, which helps the drain 1216a to drain the water in the gutter 1215 into the bottom pan 300.

In other embodiments, the height of the bottom surface of the gutter 1215 of the valve cover 100 relative to the bottom surface of the chassis 300 decreases in a direction approaching the chassis 300, i.e., the bottom surface of the gutter 1215 is inclined relative to the bottom surface of the chassis 300, which helps the water in the gutter 1215 to flow into the drainage channel 1216a, and prevents the water in the gutter 1215 from accumulating and failing to drain the valve cover 100 effectively.

Optionally, in this embodiment of the application, a plurality of fastening pins 140 are disposed on one side of the valve protecting cover 100 close to the mounting plate 210, a plurality of mounting holes 212 are disposed on the mounting plate 210 corresponding to the fastening pins 140, and when the valve protecting cover 100 is mounted, the fastening pins 140 are clamped into the mounting holes 212, so as to connect the valve protecting cover 100 and the mounting plate 210 on the outdoor unit body 200. Meanwhile, the connection mode of the fastening pins 140 and the mounting holes 212 is adopted, so that the use of screws can be saved, the assembly efficiency is improved, and the production cost is reduced.

Specifically, when installing valve protecting cover 100, the valve protecting cover 100 with the buckle foot 140 is blocked into the corresponding mounting hole 212 on the mounting plate 210, the water discharge nozzle 1216 on the valve protecting cover 100 passes through the second opening 211 and is blocked into the upper side of the base plate 300, then the valve protecting cover 100 is forced to be pushed upwards until the buckle foot 140 contacts with the upper end of the mounting hole 212 on the mounting plate 210, and then the valve protecting cover 100 is fixed by screws. This process is simple high-efficient, and outward appearance elegant appearance, the reliable practicality of water receiving drainage, and low cost improves customer satisfaction simultaneously, reinforcing market competition.

The valve protecting cover and the air conditioner outdoor unit provided by the embodiment of the application are described in detail, a specific example is applied in the description to explain the principle and the implementation of the application, and the description of the embodiment is only used for helping to understand the method and the core idea of the application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A valve protective cover, comprising:

a valve shield body;

the side plate assembly is connected with the edge of the valve protecting cover body to form an accommodating cavity, the side plate assembly comprises a water collecting plate connected with the edge of one side of the valve protecting cover body, and the surface part of the water collecting plate facing the accommodating cavity is sunken to form a water guide groove;

the water collecting plate is provided with a first edge and a second edge which are sequentially distributed along the direction from the closed end to the open end of the valve protecting cover, and the water guide groove extends from the second edge to the first edge; the height of the surface of the water collecting plate facing the containing cavity relative to the bottom surface of the water guide groove is gradually increased along the direction far away from the water guide groove.

2. The valve protective cover of claim 1, wherein the water collection sheet comprises a first subset of water sheets and a second subset of water sheets distributed on both sides of the water chute;

the first water collecting plate subset is provided with a first side edge and a second side edge which are sequentially distributed along the direction far away from the water chute, and the height of the surface, facing the accommodating cavity, of the first water collecting plate subset relative to the bottom surface of the water chute is gradually increased from the first side edge to the second side edge; and/or the presence of a gas in the gas,

the second water collecting plate is provided with a third side edge and a fourth side edge which are sequentially distributed along the direction far away from the water chute, and the height of the surface, facing the containing cavity, of the second water collecting plate relative to the bottom surface of the water chute is gradually increased from the third side edge to the fourth side edge.

3. The valve cover of claim 2, wherein the surface of the first water distribution plate facing the receiving cavity has a height relative to the bottom surface of the water chute that gradually increases in a direction away from the valve cover body; and/or the presence of a gas in the gas,

the height of the surface of the second water sub-collecting plate facing the containing cavity relative to the bottom surface of the water guide groove is gradually increased along the direction far away from the valve protecting cover body.

4. The valve shield of claim 2 or 3, wherein the side plate assembly further comprises a support portion connected to a side edge of the valve shield body, the support portion being located on a side of the water collection sheet facing away from the receiving cavity and connected to the water collection sheet.

5. The valve protective cover of claim 4, wherein the support portion comprises a first side plate, a first support plate and a second support plate, the first side plate is located on a side of the water collection plate facing away from the receiving cavity, an edge of the first side plate close to one side of the valve protective cover body and a surface of the water collection plate facing away from one side of the receiving cavity are connected and arranged at an included angle, the first support plate is connected between the first water subset plate and the first side plate, and the second support plate is connected between the second water subset plate and the first side plate.

6. The valve protecting cover of claim 1, wherein the second edge of the water collecting plate extends to a direction away from the valve protecting cover body to form a water draining nozzle, and the water draining nozzle is provided with a water draining channel which penetrates through the water draining nozzle along the extending direction of the water draining nozzle and is communicated with the water guiding groove.

7. The valve protective cover of claim 5, wherein the side plate assembly includes a second side plate and a third side plate connected to an edge of the valve protective cover body, the second side plate being disposed opposite the first side plate, the third side plate being positioned between the first side plate and the second side plate;

the first side plate and the valve protecting cover body are arranged at a first included angle, and the first included angle is larger than or equal to 100 degrees and smaller than or equal to 110 degrees; and/or the presence of a gas in the gas,

the second side plate and the valve protecting cover body form a second included angle, and the second included angle is larger than or equal to 130 degrees and smaller than or equal to 140 degrees; and/or the presence of a gas in the gas,

the third curb plate with valve protecting cover body is the setting of third contained angle, the third contained angle is more than or equal to 105 and is less than or equal to 115.

8. The valve protective cover of claim 7, wherein the side plate assembly further includes a fourth side plate connected to an edge of the valve protective cover body, the fourth side plate being disposed opposite the third side plate, the fourth side plate defining a first opening therein; the outer surface of the fourth side plate is convexly provided with a reinforcing part, and the reinforcing part extends out along the direction of the first opening edge far away from the accommodating cavity.

9. The valve protective cover of claim 8, wherein the reinforcement portion includes a first sub-reinforcement portion that projects from an edge of the first opening of the fourth side plate toward a direction away from the receiving cavity, the first sub-reinforcement portion extending along an edge of the first opening;

the reinforcing part still includes the sub-reinforcing part of second, the sub-reinforcing part of second certainly first sub-reinforcing part is kept away from the edge that holds the chamber stretches out, the direction of extension of the sub-reinforcing part of second with the direction of extension of first sub-reinforcing part is the contained angle setting.

10. An outdoor unit of an air conditioner, comprising:

an outdoor unit body;

the chassis is connected with the outdoor unit body; and

the valve protecting cover of any one of claims 1 to 9, which is connected to the outdoor unit body, and a water guide groove of the valve protecting cover is butted against the bottom plate.

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