CN110173876A - A kind of water receiving spiral case component and air conditioner - Google Patents

Abstract

The present invention provides a kind of water receiving spiral case component and air conditioner, is related to air-conditioning technical field.Water receiving spiral case component includes spiral case and drip tray, spiral case includes shell main body and the first auxiliary section for being arranged in shell main body, drip tray includes water receiving main body and the second auxiliary section for being arranged in water receiving main body, and shell main body connect with water receiving main body, and the first auxiliary section and the second auxiliary section seal cooperation.In such manner, it is possible to increase the sealing effect between spiral case and drip tray, avoids leaking out between spiral case and drip tray, improve the heating efficiency of air conditioner.

Description

A kind of water receiving spiral case component and air conditioner

Technical field

The present invention relates to air-conditioning technical fields, in particular to a kind of water receiving spiral case component and air conditioner.

Background technique

In existing cabinet-type air conditioner, there are two air outlets for some advanced cabinet-type air conditioner tools: a upper outlet air Mouth and a lower air outlet.When refrigeration, only upper air outlet, when heating, upper air outlet and the outlet air simultaneously of lower air outlet.

In the spiral case that is internally provided with of lower air outlet, spiral case has the lower air duct of downward air outlet air draft, the top of spiral case It is placed with drip tray.But poor sealing effect between drip tray and spiral case, cause to leak out between drip tray and spiral case, heating effect Rate is low.

Summary of the invention

Problems solved by the invention is poor sealing effect between drip tray and spiral case, causes to leak between drip tray and spiral case Wind, heating efficiency are low.

To solve the above problems, the present invention provides a kind of water receiving spiral case component, the water receiving spiral case component include spiral case and Drip tray, the spiral case include shell main body and the first auxiliary section for being arranged in the shell main body, and the drip tray includes water receiving Main body and the second auxiliary section being arranged in the water receiving main body, the shell main body are connect with the water receiving main body, and described first Auxiliary section and second auxiliary section sealing cooperate.

In this way, the spiral case includes first auxiliary section, the drip tray includes second auxiliary section, described first Auxiliary section and second auxiliary section sealing cooperate, and can increase the sealing effect between the spiral case and the drip tray, keep away Exempt to leak out between the spiral case and the drip tray, improves the heating efficiency of air conditioner.

Further, first auxiliary section includes the first inner annular wall and the first annular wall, first outer ring Wall is arranged at intervals on the periphery of first inner annular wall, and second auxiliary section includes the second inner annular wall and the second outer ring Wall, second annular wall are arranged at intervals on the periphery of second inner annular wall, first inner annular wall and described the Two inner annular walls overlap joint, first annular wall and second annular wall overlap.

In this way, first inner annular wall and second inner annular wall overlap, first annular wall and described the Two annular walls overlap joint, passes through the overlap joint of position at two, sealing effect is more preferably between the spiral case and the drip tray.

Further, first inner annular wall includes the first low arcwall, the first high arcwall and the first connection wall, institute The both ends for stating the first low arcwall are connect by first connection wall with the both ends of the described first high arcwall respectively, and described The height of one low arcwall is less than the height of the described first high arcwall, the outside wall surface and described second of the first low arcwall Inner annular wall overlap joint, the inner wall and second inner annular wall of the first high arcwall overlap.

Further, second inner annular wall includes the second low arcwall and the second high arcwall, the second low arc The both ends of shape wall are connect with the both ends of the described second high arcwall respectively, and the height of the second low arcwall is less than described second The inner wall of the height of high arcwall, the outside wall surface of the second low arcwall and the described first high arcwall overlaps, and described the The outside wall surface of the inner wall of two high arcwalls arcwall low with described first overlaps.

In this way, after the spiral case is horizontal positioned, the drip tray can make described second on the horizontally mounted spiral case The inner wall of the outside wall surface of low arcwall and the described first high arcwall overlaps, the inner wall of the second high arcwall with it is described The outside wall surface of first low arcwall overlaps, and sealing effect is good.

Further, the radius of the inner wall of the described first high arcwall is equal to the outside wall surface of the described second low arcwall Radius, the radius of the outside wall surface of the first low arcwall are equal to the radius of the inner wall of the described second high arcwall.

Further, the radius of the inner wall of the described first low arcwall is less than the inner wall of the described first high arcwall Radius, the radius of the inner wall of the second low arcwall are equal to the radius of the inner wall of the described second high arcwall.

In this way, first high arcwall arcwall matching area low with described second is larger and cooperation is close, described the One low arcwall is larger with the described second high arcwall matching area and cooperation is close.

Further, first annular wall includes the low arcwall of third and the high arcwall of third, the low arc of the third The both ends of shape wall are connect with the both ends of the high arcwall of the third respectively, and the height of the low arcwall of the third is less than the third The height of high arcwall, the outside wall surface and second annular wall of the low arcwall of the third overlap, the high arc of third The inner wall of wall and second annular wall overlap.

Further, second annular wall includes the 4th low arcwall and the 4th high arcwall, the 4th low arc The height of shape wall is less than the height of the 4th high arcwall, the outside wall surface and the high arc of the third of the 4th low arcwall The inner wall of wall overlaps, the outside wall surface overlap joint of the inner wall arcwall low with the third of the 4th high arcwall.

In this way, after the spiral case is horizontal positioned, the drip tray can make the described 4th on the horizontally mounted spiral case The inner wall of the outside wall surface of low arcwall and the high arcwall of the third overlaps, the inner wall of the 4th high arcwall with it is described The outside wall surface of the low arcwall of third overlaps, and sealing effect is good.

Further, the radius of the outside wall surface of the low arcwall of the third is equal to the inner wall of the 4th high arcwall Radius, the radius of the outside wall surface of the high arcwall of third are equal to the radius of the inner wall of the 4th low arcwall.

Further, the radius of the inner wall of the low arcwall of the third is equal to the inner wall of the high arcwall of the third Radius, the radius of the inner wall of the 4th low arcwall are less than the radius of the inner wall of the 4th high arcwall.

In this way, the low arcwall of the third and the described 4th high arcwall matching area is larger and cooperation is close, described the Three high arcwalls arcwall matching area low with the described 4th is larger and cooperation is close.

Further, the described first low arcwall, the first high arcwall, the low arcwall of the third and the third The radian of high arcwall is π, and the first low arcwall and the low arcwall of the third are located at same in the shell main body Side, the first high arcwall and the high arcwall of the third are located at the other side in the shell main body.

Further, the height of the described first low arcwall is greater than the height of the low arcwall of the third, and the third is high The height of arcwall is greater than the height of the described first high arcwall.

In this way, the drip tray can be horizontal from the side of the described first low arcwall after the spiral case is horizontal positioned Be packed on the spiral case, until the described first low arcwall and the described second high arcwall overlap joint, the first high arcwall with The second low arcwall overlap joint, the high arcwall of third arcwall overlap joint low with the described 4th and the low arc of the third Wall is overlapped with the described 4th high arcwall, and assembly method is simple, and sealing effect is good.

To solve the above problems, the air conditioner includes above-mentioned water receiving spiral case component the present invention also provides a kind of air conditioner.

In this way, sealing effect is good between the spiral case and the drip tray, it will not between the spiral case and the drip tray It leaks out, the heating efficiency of air conditioner is high.

Detailed description of the invention

Fig. 1 is the structural decomposition diagram of air conditioner provided in an embodiment of the present invention.

Fig. 2 is the schematic diagram of outlet air when air conditioner freezes.

The schematic diagram of outlet air when Fig. 3 is air conditioner heat-production.

Fig. 4 is the structural schematic diagram of spiral case in Fig. 1.

Fig. 5 is the enlarged diagram of part A in Fig. 4.

Fig. 6 is the structural schematic diagram of drip tray in Fig. 1.

Fig. 7 is the complete section structural schematic diagram of drip tray in Fig. 1.

Fig. 8 is the installation diagram of drip tray and spiral case.

Fig. 9 is the enlarged diagram of part B in Fig. 8.

Description of symbols:

1- air conditioner；2- back panel assemblies；3- front panel assembly；The upper air outlet of 31-；Air outlet under 32-；4- top cover；5- Pedestal；6- heat exchanger；7- upper air duct component；8- air outlet component；9- spiral case；The first inner annular wall of 91-；The low arc of 911- first Wall；The high arcwall of 912- first；913- connection wall；The first annular wall of 92-；The low arcwall of 921- third；The high arc of 922- third Shape wall；93- shell main body；10- drip tray；The second inner annular wall of 101-；The low arcwall of 1011- second；The high arc of 1012- second Wall；The second annular wall of 102-；The low arcwall of 1021- the 4th；The high arcwall of 1022- the 4th；103- water receiving main body.

Specific embodiment

To make the above purposes, features and advantages of the invention more obvious and understandable, with reference to the accompanying drawing to the present invention Specific embodiment be described in detail.

Referring to Fig. 1, air conditioner 1 is cabinet-type structure the present embodiment provides a kind of air conditioner 1, air conditioner 1 includes below Board group part 2, front panel assembly 3, top cover 4, pedestal 5, heat exchanger 6, upper air duct component 7, air outlet component 8 and water receiving spiral case group Part.Wherein, water receiving spiral case component includes spiral case 9 and drip tray 10.

Back panel assemblies 2, front panel assembly 3, top cover 4, pedestal 5 surround the shell of air conditioner 1, heat exchanger 6, drip tray 10, spiral case 9, upper air duct component 7 and air outlet component 8 are respectively provided with inside the shell.Wherein, heat exchanger 6, drip tray 10, spiral case 9 from It is set gradually under.Upper air duct component 7 is arranged between heat exchanger 6 and front panel assembly 3, and air outlet component 8 is arranged upper The top of ducting assembly 7.

Fig. 2 and Fig. 3 are please referred to, arrow represents air-out direction in figure.Air outlet 31 is offered on front panel assembly 3 under Air outlet 32.When refrigeration, 31 outlet air of upper air outlet of air conditioner 1, lower 32 not outlet air of air outlet makes cold wind be not face room In personnel blowing；When heating, the upper air outlet 31 of air conditioner 1 and the outlet air simultaneously of lower air outlet 32 or upper air outlet 31 are not Outlet air, lower 32 outlet air of air outlet realize that hot wind quickly lands.In this way, the comfort of air conditioner 1 is more preferably.

The middle part of drip tray 10 offers through-hole, and the inside of spiral case 9 offers lower exhaust passage, and through-hole and lower exhaust passage connect Logical, lower exhaust passage is connected to lower air outlet 32.To increase the air-tightness between drip tray 10 and spiral case 9, docked in the present embodiment Water pond 10 and spiral case 9 have done following improvement.

Fig. 4 and Fig. 5 are please referred to, spiral case 9 includes shell main body 93 and the first auxiliary section being arranged in shell main body 93, and first matches Conjunction portion is located at the upper surface that shell main body 93 is connect with drip tray 10.First auxiliary section includes the first inner annular wall 91 and the first outer ring Shape wall 92, the first annular wall 92 are arranged at intervals on the periphery of the first inner annular wall 91.

First inner annular wall 91 includes the first low arcwall 911, the first high arcwall 912 and connection wall 913, the first low arc The both ends of shape wall 911 pass through connection wall 913 respectively and connect with the both ends of the first high arcwall 912.The extending direction of connection wall 913 For the radial direction of the first inner annular wall 91.

For the height of first low arcwall 911 less than the height of the first high arcwall 912, height mentioned here refers to arc The length that wall is protruded relative to the surface of shell main body 93.

The radian of first low arcwall 911 and the first high arcwall 912 is π.The inner wall of first low arcwall 911 Radius of the radius less than the inner wall of the first high arcwall 912.

First annular wall 92 includes the low arcwall 921 of third and the high arcwall 922 of third, the low arcwall 921 of third Both ends are connect with the both ends of the high arcwall 922 of third respectively.

The height of the low arcwall 921 of third is less than the height of the high arcwall 922 of third.The low arcwall 921 of third and third The radian of high arcwall 922 is π.The radius of the inner wall of the low arcwall 921 of third is equal to the inner wall of the high arcwall 922 of third The radius in face.

First low arcwall 911 arcwall 921 low with third is located at the same side in shell main body 93, the first high arcwall 912 and the high arcwall 922 of third be located at the other side in shell main body 93.The height of first low arcwall 911 is greater than the low arc of third The height of shape wall 921, the height of the high arcwall 922 of third are greater than the height of the first high arcwall 912.

Fig. 6 and Fig. 7 are please referred to, drip tray 10 includes water receiving main body 103 and the second cooperation being arranged in water receiving main body 103 Portion, the second matching part is in the lower surface that water receiving main body 103 is connect with spiral case 9.Second auxiliary section includes the second inner annular wall 101 With the second annular wall 102, the second annular wall 102 is arranged at intervals on the periphery of the second inner annular wall 101.

Second inner annular wall 101 includes the second low arcwall 1011 and the second high arcwall 1012, the second low arcwall 1011 both ends are connect with the both ends of the second high arcwall 1012 respectively.

Height of the height of second low arcwall 1011 less than the second high arcwall 1012.Height mentioned here refers to arc The length that shape wall is protruded relative to the surface of water receiving main body 103.

The radian of second low arcwall 1011 and the second high arcwall 1012 is π.The inner wall of second low arcwall 1011 The radius in face is equal to the radius of the inner wall of the second high arcwall 1012.

Second annular wall 102 includes the 4th low arcwall 1021 and the 4th low arcwall 1021 of high arcwall 1022 the 4th Height less than the 4th high arcwall 1022 height.The radian of 4th low arcwall 1021 and the 4th high arcwall 1022 is π.Radius of the radius of the inner wall of 4th low arcwall 1021 less than the inner wall of the 4th high arcwall 1022.4th low arc The center of circle of the inner wall of wall 1021 is overlapped with the center of circle of the inner wall of the 4th high arcwall 1022.The two of 4th low arcwall 1021 End is connect by interconnecting piece with the both ends of the 4th high arcwall 1022 respectively.

Second low arcwall 1011 and the 4th low arcwall 1021 are located at the same side in water receiving main body 103, the second high arc Shape wall 1012 and the 4th high arcwall 1022 are located at the other side in water receiving main body 103.

The height of second low arcwall 1011 is greater than the height of the 4th low arcwall 1021, the height of the second high arcwall 1012 Spend the height less than the 4th high arcwall 1022.

Fig. 8 and Fig. 9 are please referred to, the first auxiliary section and the concrete form of the second auxiliary section sealing cooperation are as follows.

The outside wall surface of the inner wall arcwall 1011 low with second of first high arcwall 912 overlaps, the first low arcwall 911 Outside wall surface and the second high arcwall 1012 inner wall overlap.Wherein, the radius of the inner wall of the first high arcwall 912 is equal to The radius of the radius of the outside wall surface of second low arcwall 1011, the outside wall surface of the first low arcwall 911 is equal to the second high arcwall The radius of 1012 inner wall.

The outside wall surface of the inner wall arcwall 1021 low with the 4th of the high arcwall 922 of third overlaps, the low arcwall 921 of third Outside wall surface and the 4th high arcwall 1022 inner wall overlap.Wherein, the radius of the outside wall surface of the low arcwall 921 of third is equal to The radius of the radius of the inner wall of 4th high arcwall 1022, the outside wall surface of the high arcwall 922 of third is equal to the 4th low arcwall The radius of 1021 inner wall.

In the present embodiment, drip tray 10 and spiral case 9 include two annular walls, are correspondingly formed the structure of two groups of sealings.? In other embodiments, greater number of annular wall can also be set on drip tray 10 and spiral case 9, to form the close of more multiple groups The structure of envelope improves the sealing effect between drip tray 10 and spiral case 9.

In the present embodiment, the annular wall that drip tray 10 and spiral case 9 include is arc-shaped side wall, and each arcwall is also equal It is arc-shaped.In other embodiments, annular wall is also designed to the side wall of ellipse, and each arc correspondence is designed as ellipse Arc.

Water receiving spiral case component and air conditioner 1 provided by the embodiment the utility model has the advantages that

1. the outside wall surface of the inner wall arcwall 1011 low with second of the first high arcwall 912 overlaps, the first low arcwall The inner wall of 911 outside wall surface and the second high arcwall 1012 overlaps, the inner wall arc low with the 4th of the high arcwall 922 of third The outside wall surface of wall 1021 overlaps, and the outside wall surface of the low arcwall 921 of third and the inner wall of the 4th high arcwall 1022 overlap, and makes to connect Between water pond 10 and spiral case 9, sealing effect is good, avoids leaking out between drip tray 10 and spiral case 9, guarantees heating efficiency.

2. after spiral case 9 is horizontal positioned, drip tray 10 can be from the side of the first low arcwall 911 in assembling process On horizontally mounted spiral case 9, until the first low arcwall 911 and the second high overlap joint of arcwall 1012, the first high arcwall 912 and the Two low arcwalls 1011 overlap joints, third high arcwall 922 arcwall 1021 low with the 4th overlap joint and the low arcwall 921 of third and 4th high arcwall 1022 overlaps, and assembly method is simple, and sealing effect is good.

3. the radian of every arcwall is π, matching area is larger between arcwall and cooperation is close, and sealing effect is good.

Although present disclosure is as above, present invention is not limited to this.Anyone skilled in the art are not departing from this It in the spirit and scope of invention, can make various changes or modifications, therefore protection scope of the present invention should be with claim institute Subject to the range of restriction.

Claims (13)

1. a kind of water receiving spiral case component, which is characterized in that the water receiving spiral case component includes spiral case (9) and drip tray (10), institute State the first auxiliary section that spiral case (9) includes shell main body (93) and is arranged on the shell main body (93), drip tray (10) packet The second auxiliary section for including water receiving main body (103) and being arranged on the water receiving main body (103), the shell main body (93) connect with described Water main body (103) connection, first auxiliary section and second auxiliary section sealing cooperate.

2. water receiving spiral case component according to claim 1, which is characterized in that first auxiliary section includes the first annular Wall (91) and the first annular wall (92), first annular wall (92) are arranged at intervals on first inner annular wall (91) Periphery, second auxiliary section include the second inner annular wall (101) and the second annular wall (102), second annular wall (102) periphery of second inner annular wall (101), first inner annular wall (91) and second inner ring are arranged at intervals on Shape wall (101) overlap joint, first annular wall (92) and second annular wall (102) overlap.

3. water receiving spiral case component according to claim 2, which is characterized in that first inner annular wall (91) includes first Low arcwall (911), the first high arcwall (912) and the first connection wall (913), the both ends of the first low arcwall (911) It is connect respectively by first connection wall (913) with the both ends of the described first high arcwall (912), the first low arcwall (911) height is less than the height of the described first high arcwall (912), the outside wall surface of the first low arcwall (911) and institute State the second inner annular wall (101) overlap joint, the inner wall of the first high arcwall (912) and second inner annular wall (101) Overlap joint.

4. water receiving spiral case component according to claim 3, which is characterized in that second inner annular wall (101) includes the Two low arcwalls (1011) and the second high arcwall (1012), the both ends of the second low arcwall (1011) are respectively with described The both ends of two high arcwalls (1012) connect, and the height of the second low arcwall (1011) is less than the described second high arcwall (1012) height, the outside wall surface of the second low arcwall (1011) and the inner wall of the described first high arcwall (912) are taken It connects, the outside wall surface overlap joint of the inner wall arcwall (911) low with described first of the second high arcwall (1012).

5. water receiving spiral case component according to claim 4, which is characterized in that the inner wall of the first high arcwall (912) The radius in face is equal to the radius of the outside wall surface of the described second low arcwall (1011), the outer wall of the first low arcwall (911) The radius in face is equal to the radius of the inner wall of the described second high arcwall (1012).

6. water receiving spiral case component according to claim 4, which is characterized in that the inner wall of the first low arcwall (911) The radius in face is less than the radius of the inner wall of the described first high arcwall (912), the inner wall of the second low arcwall (1011) The radius in face is equal to the radius of the inner wall of the described second high arcwall (1012).

7. water receiving spiral case component according to claim 4, which is characterized in that first annular wall (92) includes third The both ends of low arcwall (921) and the high arcwall of third (922), the low arcwall (921) of the third are high with the third respectively The both ends of arcwall (922) connect, and the height of the low arcwall (921) of the third is less than the high arcwall of the third (922) Highly, the outside wall surface of the low arcwall of the third (921) and second annular wall (102) overlap, the high arc of third The inner wall of wall (922) and second annular wall (102) overlap.

8. water receiving spiral case component according to claim 7, which is characterized in that second annular wall (102) includes the The height of four low arcwalls (1021) and the 4th high arcwall (1022), the 4th low arcwall (1021) is less than the described 4th The height of high arcwall (1022), outside wall surface and the high arcwall of the third (922) of the 4th low arcwall (1021) Inner wall overlap joint, the outside wall surface overlap joint of the inner wall arcwall (921) low with the third of the 4th high arcwall (1022).

9. water receiving spiral case component according to claim 8, which is characterized in that the outer wall of the low arcwall (921) of the third The radius in face is equal to the radius of the inner wall of the described 4th high arcwall (1022), the outer wall of the high arcwall of third (922) The radius in face is equal to the radius of the inner wall of the described 4th low arcwall (1021).

10. water receiving spiral case component according to claim 8, which is characterized in that the inner wall of the low arcwall (921) of the third The radius in face is equal to the radius of the inner wall of the high arcwall of the third (922), the inner wall of the 4th low arcwall (1021) The radius in face is less than the radius of the inner wall of the described 4th high arcwall (1022).

11. water receiving spiral case component according to claim 8, which is characterized in that the first low arcwall (911), described The radian of first high arcwall (912), the low arcwall of the third (921) and the high arcwall of the third (922) is π, institute It states the first low arcwall (911) and the low arcwall of the third (921) is located at the same side on the shell main body (93), described One high arcwall (912) and the high arcwall of the third (922) are located at the other side on the shell main body (93).

12. water receiving spiral case component according to claim 8, which is characterized in that the height of the first low arcwall (911) The height of the height of arcwall (921) low greater than the third, the high arcwall of third (922) is greater than the described first high arc The height of wall (912).

13. a kind of air conditioner, which is characterized in that the air conditioner includes the described in any item water receiving spiral cases of claim 1 to 12 Component.