CN210107577U - Stop valve sheath drainage structures and air conditioner - Google Patents

Abstract

The utility model provides a stop valve sheath drainage structures and air conditioner, including adjoining first drainage inclined plane and the second drainage inclined plane of setting in the stop valve sheath, second drainage inclined plane for first drainage inclined plane slope sets up, second drainage inclined plane intercommunication has the drainage groove to make water from second drainage inclined plane drainage extremely in the drainage groove, stop valve sheath drainage structures, through setting up adjacent first drainage inclined plane and second drainage inclined plane in the stop valve sheath, second drainage inclined plane sets up for first drainage inclined plane slope, avoids water to flow from the edge on first drainage inclined plane to in drainage groove with water drainage through second drainage inclined plane, and flow to the chassis smoothly.

Description

Stop valve sheath drainage structures and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a stop valve sheath drainage structures and air conditioner.

Background

The stop valve sheath is usually discharged to the chassis water drainage through the drainage muscle with the ponding drainage in the sheath on, and current drainage muscle only has an inclined plane direction, and the drainage muscle has inclination usually, when the ponding velocity of flow is great, leads to water easily to follow the edge outflow, does not get into the water course.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to a drainage structure for a protective cover of a stop valve, which is intended to solve at least one aspect of the above problems to some extent.

In order to solve the problem, the utility model provides a stop valve sheath drainage structures, including adjoining first drainage inclined plane and the second drainage inclined plane of setting in the stop valve sheath, second drainage inclined plane for first drainage inclined plane slope sets up, second drainage inclined plane intercommunication has the drainage groove to make water follow second drainage inclined plane drainage extremely in the drainage groove.

Optionally, a grid is arranged between the second drainage bevel and the drainage groove.

The grid filters the water that flows to the drainage groove from the second drainage bevel, avoids the polypide to get into in the drainage groove, and then pollutes the chassis water course.

Optionally, the first drainage slope is arranged inclined at a first angle a with respect to the horizontal plane.

The condensed water in the stop valve jacket can be drained quickly, and the condensed water is prevented from accumulating in the stop valve jacket.

Optionally, the angle range of the first included angle a is: a is more than or equal to 20 degrees and less than or equal to 30 degrees.

In this angle range, can not influence the structural strength on first drainage inclined plane, and be convenient for carry out the water conservancy diversion to the comdenstion water, make the velocity of flow of water keep in suitable within range, avoid flowing water to rush out easily at the excessive speed, can not cause ponding to stop yet.

Optionally, the second drainage ramp is disposed obliquely at a second angle b with respect to the first drainage ramp.

Avoid flowing down water from first drainage inclined plane and flow out stop valve sheath, play the effect of blockking and lead to first drainage inclined plane flowing up water.

Optionally, the angle range of the second included angle b is: b is more than or equal to 130 degrees and less than or equal to 150 degrees.

Within the angle range, the second drainage inclined plane can prevent water from being easily flushed out.

Optionally, one end of the second drainage inclined plane, which is far away from the drainage groove, is higher than the other end of the second drainage inclined plane, which is close to the drainage groove.

And the water flow is guided into the drainage groove after flowing to the second drainage inclined plane, and then is discharged out of the stop valve sheath.

Optionally, the second drainage ramp is disposed inclined at a third angle c with respect to the horizontal.

The second drainage inclined plane blocks the water flowing down from the first drainage inclined plane and conducts the water to the other direction, and finally the water flows into the drainage groove.

Optionally, the angle range of the third included angle c is: c is more than or equal to 2 degrees and less than or equal to 7 degrees.

Within the angle range, the second drainage inclined plane has a better flow guiding effect.

Optionally, the drainage groove has a third drainage slope and a fourth drainage slope which are adjacent to each other, and the third drainage slope is obliquely arranged at a fourth included angle d relative to the horizontal plane.

Improve the drainage efficiency of the drainage groove.

Optionally, the angle range of the fourth included angle d is: d is more than or equal to 8 degrees and less than or equal to 25 degrees.

Therefore, water can be discharged from the drainage groove quickly, and the drainage efficiency is improved.

Optionally, the fourth drainage ramp is disposed horizontally relative to a horizontal plane.

The drainage groove and the side plate are convenient to be inserted and matched, and the water flow is ensured to flow to the chassis smoothly.

Optionally, the fourth drainage ramp extends out of the shut-off valve sheath.

Is convenient to be inserted and matched with the side plate.

Optionally, the drainage groove is adapted to be disposed below a catch of the shut-off valve sheath.

Drainage groove and buckle can share a socket, and the upper and lower structure can seal, further avoids the drainage groove to be polluted by the foreign object.

Compared with the prior art, stop valve sheath drainage structures have following advantage:

stop valve sheath drainage structures, through set up first drainage inclined plane and the second drainage inclined plane that borders on in the stop valve sheath, second drainage inclined plane sets up for first drainage inclined plane slope, avoids water to flow out from the edge on first drainage inclined plane to through second drainage inclined plane with water drainage to drainage groove in, and flow to the chassis smoothly.

The utility model also provides an air conditioner, the air conditioner has the aforesaid stop valve sheath drainage structures.

Compared with the prior art, the air conditioner and the stop valve jacket drainage structure have the same advantages, and the detailed description is omitted.

Drawings

Fig. 1 is a schematic structural view of a drainage structure of a stop valve sheath according to the present invention;

fig. 2 is a schematic sectional view of a drainage structure of a stop valve sheath according to the present invention;

fig. 3 is a schematic sectional view of a stop valve sheath drainage structure according to the present invention;

fig. 4 is a side view of a stop valve sheath drainage structure according to the present invention;

fig. 5 is the assembly structure diagram of stop valve sheath drainage structure and curb plate of the utility model.

Description of reference numerals:

1. first drainage inclined plane, 2, second drainage inclined plane, 3, drainage groove, 31, third drainage inclined plane, 32, fourth drainage inclined plane, 4, grid.

Detailed Description

The stop valve of the outdoor unit of the air conditioner is exposed outside and is easy to be damaged; when the air conditioner operates in a refrigerating mode, the surface temperature of the high-low pressure stop valve of the outdoor unit is low, water vapor in the air of the environment around the valve body is condensed into condensate water on the surface and flows down, the condensate water drops downwards along the stop valve and affects users below the outdoor unit so as to cause user complaints.

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 following description will be briefly made with reference to the orientation: the following directional or positional relationships, as indicated in the context of "front", "rear", "upper", "lower", "left", "right", etc., with respect to each structural member, are intended to refer to the orientation or positional relationship as shown in the drawings; these positional relationships are merely for convenience and simplicity of description and do not indicate or imply that the device referred to must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be construed as limiting the invention.

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.

The horizontal plane referred to in the embodiment is a reference plane, the horizontal plane is parallel to the ground, and the structure of the stop valve jacket and the air conditioner is described in the embodiment in a state after the stop valve jacket and the air conditioner are assembled.

As shown in fig. 1, a drainage structure of a stop valve jacket comprises a first drainage inclined plane 1 and a second drainage inclined plane 2 which are adjacently arranged in the stop valve jacket, wherein the second drainage inclined plane 2 is obliquely arranged relative to the first drainage inclined plane 1, and the second drainage inclined plane 2 plays a role in blocking water flowing upwards and downwards on the first drainage inclined plane 1, so that condensed water on the first drainage inclined plane 1 is prevented from flowing outwards to cause the dropping of condensed water. Second drainage inclined plane 2 intercommunication has drainage groove 3 to make water from second drainage inclined plane 2 drainage extremely in the drainage groove 3, first drainage inclined plane 1 can also be for setting up the face of accepting of the optional position in the stop valve sheath for the bottom surface, so that accept the comdenstion water can. It will be appreciated that the first drainage ramp 1 should cover or coincide with the underside of the closure valve sheath to ensure that condensate from any position of the closure valve will collect on the first drainage ramp 1.

In this embodiment, the first drainage slope 1 is preferably the bottom surface of the stop valve sheath, the structure is simplified, and the condensed water directly drops on the bottom surface and then is collected. Second drainage inclined plane 2 is the dull and stereotyped upward side of a drainage, and the dull and stereotyped left and right sides wall of drainage and the inside wall fixed connection of stop valve sheath are in the same place, and the dull and stereotyped back lateral wall of drainage is connected with the bottom surface of stop valve sheath, and the bottom surface of stop valve sheath is kept away from to the dull and stereotyped preceding lateral wall of drainage, and is concrete, and the dull and stereotyped and integrative injection moulding of stop valve sheath of drainage has better leakproofness, avoids the ponding seepage. First drainage inclined plane 1 is used for discharging the water drainage in the stop valve sheath, and second drainage inclined plane 2 plays the hindrance effect to water under the first drainage inclined plane 1 upflow to further guide drainage to drainage groove 3 in, discharge through drainage groove 3. When the stop valve sheath is installed behind the curb plate, the slope of first drainage inclined plane 1 sets up downwards, the condensation water of valve body sheath inside wall or the rainwater that oozes in flow on first drainage inclined plane 1 under the effect of gravity, and continue downwards through first drainage inclined plane 1, flow on second drainage inclined plane 2, receive the hindrance on second drainage inclined plane 2, and in another direction drainage to drainage groove 3 through second drainage inclined plane 2 direction, flow on the outer chassis of air conditioner (not shown in the figure) through drainage groove 3, and discharge through the water course on chassis, it is effectual to drain.

The stop valve sheath is connected through a plurality of buckles and curb plate, and stop valve sheath and curb plate can be dismantled fast, and are concrete, and a plurality of buckles set up the left and right sides limit at the stop valve sheath, make the connection of stop valve sheath and curb plate more stable.

In this embodiment, set up on the curb plate by the socket with drainage groove adaptation, when stop valve sheath and curb plate assembly, can play locate function, the installation effectiveness is high. Meanwhile, the drainage grooves and the side plates are in plug-in fit, so that condensed water is conveniently led into the chassis through the drainage grooves. Specifically, the drainage groove sets up in the below of the buckle of stop valve sheath, and the drainage groove is a cell body that the side of stop valve sheath was seted up to extend partly to the outside, be convenient for and the curb plate is inserted and is closed, and with water drainage to the chassis in. Drainage groove and buckle can share a socket, and the upper and lower structure can seal, further avoids the drainage groove to be polluted by the foreign object. And the number of the holes on the side plate is reduced, and the strength is improved.

Second drainage inclined plane 2 with be provided with grid 4 between the drainage groove 3, it is concrete, in this embodiment, grid 4 forms for the lateral wall fretwork of the stop valve sheath that is located the top of 3 lateral walls in drainage groove, and the side and the 2 integrated into one piece in second drainage inclined plane of drainage groove 3 are connected, preferably, and the side and the 2 junctions rounding off on second drainage inclined plane of drainage groove 3 to be convenient for rivers smoothly flow in drainage groove 3 from second drainage inclined plane 2. It can be understood that the bottom surface of the drainage groove 3 is lower than the second drainage inclined plane 2, so that water flows into the drainage groove 3 from the second drainage inclined plane 2. Grid 4 filters the water that flows to drainage groove 3 from second drainage inclined plane 2, avoids the polypide to get into drainage groove 3 in, and then pollutes the chassis water course.

As shown in fig. 2, the first drainage ramp 1 is inclined at a first angle a with respect to the horizontal plane, and in particular, the first drainage inclined plane 1 is obliquely arranged from high to low at a first included angle a from the rear side surface to the front side surface of the stop valve jacket, so that condensed water in the stop valve jacket can be quickly drained out, the condensed water is prevented from accumulating in the stop valve jacket, wherein a is more than or equal to 20 degrees and less than or equal to 30 degrees, the local part is too thin due to the overlarge angle of the first drainage inclined plane 1, the strength is difficult to ensure, in this angle range, the structural strength of the first drainage inclined plane 1 is not affected, and the diversion of the condensed water is facilitated, so that the flow rate of the water is kept in a proper range, the flowing water is prevented from being rushed out easily due to over-speed, the accumulated water is prevented from staying, preferably, in the embodiment, the first included angle a is 25 degrees, thereby first drainage inclined plane 1 has sufficient intensity, and can carry out quick discharge to the comdenstion water that drips into in the stop valve sheath.

As shown in fig. 2, second drainage inclined plane 2 sets up with second contained angle b slope for first drainage inclined plane, and is concrete, second drainage inclined plane 2 sets up with second contained angle b slope by low to high from the trailing flank to the leading flank of stop valve sheath, avoids flowing down water outflow stop valve sheath on first drainage inclined plane 1, plays to stop the effect and leads to first drainage inclined plane 1 flowing up water. Wherein, 130 b is no less than or equal to 150, and in this angle range, second drainage inclined plane 2 can block that the water is difficult to rush out, and under the condition that rivers are too fast, can effectively slow down the impact of rivers, makes the comparatively steady stability of rivers get off, and preferably, second contained angle b is 144.6 to second drainage inclined plane 2 has better hindrance effect to water, is unlikely to again to receive the great impact of rivers, arouses the flowing water spill.

One end of the second drainage inclined plane 2, which is far away from the drainage groove 3, is higher than the other end of the second drainage inclined plane 2, which is close to the drainage groove 3, and water flows to the second drainage inclined plane 2 and then is guided to the drainage groove 3 and then is discharged out of the stop valve sheath.

As shown in fig. 4, the second drainage inclined plane 2 is inclined at a third included angle c relative to the horizontal plane, specifically, the second drainage inclined plane 2 is inclined at the third included angle c from high to low from the left side surface to the right side surface of the stop valve sheath, wherein c is greater than or equal to 2 degrees and less than or equal to 7 degrees, preferably, c is greater than or equal to 3 degrees and less than or equal to 5 degrees, and in this angle range, the second drainage inclined plane 2 has a better diversion effect. Preferably, the third included angle c is 3.6 °, so that water can be rapidly guided into the drainage grooves 3.

Second drainage inclined plane 2 sets up through the slope in two directions, stops and drains to another direction the water that flows down on first drainage inclined plane 1, in the last flow direction drainage groove 3, concentrates the discharge by the drainage groove 3 that sets up in the buckle below at last, compact structure, rationally distributed, can effectively be with the log raft play in the stop valve sheath, totally there is not the residue.

As shown in fig. 3, the drainage groove 3 is provided with a third drainage inclined plane 31 and a fourth drainage inclined plane 32 which are adjacent, the third drainage inclined plane 31 is obliquely arranged at a fourth included angle d relative to the horizontal plane, specifically, the third drainage inclined plane 31 is obliquely arranged at the fourth included angle d from high to low from the rear side surface to the front side surface of the stop valve sheath, wherein d is more than or equal to 8 degrees and less than or equal to 25 degrees, preferably, d is more than or equal to 10 degrees and less than or equal to 20 degrees, so that water can be quickly discharged from the drainage groove 3, and the drainage efficiency is improved. Preferably, the fourth included angle d is 15.4 ° to ensure that water flows normally without overflowing.

The fourth drainage inclined plane 32 is horizontally arranged relative to the horizontal plane, so that the drainage grooves 3 and the side plates are conveniently spliced and matched, and the water flow is ensured to flow into the chassis smoothly.

The fourth drainage inclined plane 32 extends out of the stop valve sheath and is convenient to be in plug-in fit with the side plate.

As shown in fig. 5, an air conditioner includes the shut valve jacket drainage structure as described above.

The lateral plate is provided with a socket, and the drainage groove extends out of the stop valve sheath and is suitable for being connected with the socket. The assembly clearance of drainage groove and socket is 0.5 ~ 1mm, can play the locate function, and the installation effectiveness is high. Meanwhile, the drainage grooves and the side plates are in plug-in fit, so that condensed water is conveniently led into the chassis through the drainage grooves.

Because the operation of the air conditioner outdoor unit, the compressor generates higher temperature in compression, the surface temperature of the compressor is between 60 and 90 degrees generally, the ambient temperature of the compressor is between 35 and 50 degrees, and the high temperature can evaporate the condensed water flowing to the chassis of the air conditioner outdoor unit, thereby realizing the good effect of no water dripping.

After the drainage groove is inserted into the socket of the side plate, the assembly of the stop valve sheath and the side plate is completed through a plurality of buckles.

The shut-off valve sheath in this embodiment is integrally injection molded from a plastic material. The comdenstion water is through the stop valve drippage to first drainage inclined plane 1 on, because first drainage inclined plane 1 sets up to the preceding lateral wall slope of stop valve sheath, guide comdenstion water is on second drainage inclined plane 2, and second drainage inclined plane 2 hinders through the water that first drainage inclined plane 1 direction flows down, and the direction change of guide comdenstion water is last to be remitted and is gone into drainage groove 3, with the leading-in air condensing units chassis of comdenstion water, draws forth through the chassis drain pipe, avoids the direct drippage of comdenstion water to influence the resident family of lower floor.

In order to facilitate the insertion of the insertion openings in the side plates, in the embodiment, the bottommost part of the drainage groove 3 is arranged in parallel relative to the horizontal plane, and in other embodiments, the bottom surface of the drainage groove 3 can be also arranged in an inclined manner, so that the condensate water can be guided better. Drainage groove 3 can be concave groove or V type groove, and drainage groove 3's structural shape and length dimension can need more to carry out nimble selection, and in this embodiment, drainage groove 3 is concave groove structure to have bigger accommodation space, can the more comdenstion water of water conservancy diversion. And the bottom of drainage groove 3 is provided with the strengthening rib structure, improves drainage groove 3's structural strength.

When the stop valve sheath is installed on the outdoor unit of the air conditioner, the drainage grooves 3 are firstly inserted into the insertion openings of the side plates, so that the drainage grooves 3 are inserted into the insertion openings of the side plates, a fixing effect is achieved, the installation position of the stop valve sheath is also positioned, then the stop valve sheath is installed through fixing screws, and the installation efficiency is improved.

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 (15)

1. The utility model provides a stop valve sheath drainage structures, its characterized in that, is including bordering on first drainage inclined plane (1) and second drainage inclined plane (2) that set up in the stop valve sheath, second drainage inclined plane (2) for first drainage inclined plane (1) slope sets up, second drainage inclined plane (2) intercommunication has drainage groove (3) to make water follow second drainage inclined plane (2) drainage extremely in drainage groove (3).

2. Stop valve sheath drainage structure according to claim 1, characterized in that a grid (4) is provided between the second drainage ramp (2) and the drainage groove (3).

3. Shut-off valve boot drainage arrangement according to claim 1, characterized in that the first drainage ramp (1) is arranged obliquely with respect to the horizontal plane at a first angle a.

4. A stop valve boot drainage arrangement as claimed in claim 3, wherein the angular extent of the first included angle a is: a is more than or equal to 20 degrees and less than or equal to 30 degrees.

5. Shut-off valve boot drainage arrangement according to claim 1, characterized in that the second drainage ramp (2) is arranged obliquely at a second angle b relative to the first drainage ramp.

6. A stop valve boot drainage arrangement according to claim 5, wherein the angular extent of the second angle b is: b is more than or equal to 130 degrees and less than or equal to 150 degrees.

7. The stop valve sheath drainage arrangement of claim 1, wherein the end of the second drainage ramp (2) distal from the drainage groove (3) is higher than the other end of the second drainage ramp (2) proximal to the drainage groove (3).

8. Shut-off valve boot drainage arrangement according to claim 1, characterized in that the second drainage ramp (2) is arranged obliquely with respect to the horizontal plane at a third angle c.

9. The shut-off valve boot drain structure of claim 8, wherein the angular extent of the third included angle c is: c is more than or equal to 2 degrees and less than or equal to 7 degrees.

10. Stop valve sheath drainage arrangement according to claim 1, characterized in that the drainage groove (3) has adjoining third and fourth drainage slopes (31, 32), the third drainage slope (31) being arranged obliquely at a fourth angle d relative to the horizontal.

11. The shut-off valve boot drain structure of claim 10, wherein the fourth included angle d has an angular extent of: d is more than or equal to 8 degrees and less than or equal to 25 degrees.

12. Shut-off valve boot drainage arrangement according to claim 10, characterized in that the fourth drainage ramp (32) is arranged horizontally in relation to the horizontal plane.

13. Shut-off valve boot drainage arrangement according to claim 10, characterized in that the fourth drainage ramp (32) protrudes out of the shut-off valve boot.

14. Stop valve sheath drainage arrangement according to claim 1, characterized in that the drainage groove (3) is adapted to be arranged below the snap of the stop valve sheath.

15. An air conditioner characterized by comprising the shut-off valve boot drainage structure according to any one of claims 1 to 14.

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