CN105115134A - Top cover assembly of air conditioning device and air conditioning device - Google Patents

Abstract

The invention relates to a top cover assembly of an air conditioning device and the air conditioning device. The top cover assembly is arranged at an opening in the top of the upper end of an air conditioning device body. A cavity is formed in the position of the upper end of the top cover assembly. An air outlet is formed between the top cover assembly and the upper end of the body. Cold air generated in the air conditioning device can be effectively reduced or prevented from entering the position, closes to the upper end, of the top cover assembly due to the fact that the single cavity is formed in the position, close to the upper end, of the top cover assembly, so that generation of condensation on the upper portion of the top cover assembly is effectively reduced.

Description

Conditioner cap assembly and conditioner

Technical field

The present invention relates to conditioner technical field, be specifically related to a kind of cap assembly of conditioner and the conditioner of described cap assembly is installed.

Background technology

Conditioner, such as air-conditioning or air purifier generally all comprise air inlet and air outlet, the top cover major part of existing conditioner is fixing tabular, air outlet is generally arranged on the sidewall of conditioner, outward appearance is unsightly stiff, and, when there is temperature difference in the temperature of the air in the temperature of air-flow formed at conditioner and external environment, be easy to form condensation at the periphery of air outlet, condensation drippage causes inconvenience to the user, and the use sense reducing user is subject to.

The air outlet size of existing conditioner is all generally changeless, by the lower little and direction of the rotation adjustment air outlet of grid, and complex structure; And the closedown of air outlet needs to arrange independent door in addition, control procedure and overall structure is made all to become complicated, bad control.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of effectively can reduce the generation of condensation around air outlet conditioner cap assembly and corresponding conditioner.

According to a first aspect of the invention, a kind of conditioner cap assembly is provided, be arranged on the top open part of conditioner body upper end, be formed with cavity in the position of described cap assembly upper end, between the upper end of described cap assembly and described body, form air outlet.

Preferably, described cavity is closed chamber.

Preferably, described cap assembly comprises top cover, and described top cover comprises upper cover and kuppe, described kuppe is the tubular of upper and lower both ends open, described upper cover is arranged on the upper end of described kuppe, and for the upper port of kuppe described in shutoff, described cavity is formed in described upper cover.

Preferably, in described cavity, decorating structure and/or display unit is formed with.

Preferably, the radial edges position of described cap assembly is provided with heater.

Preferably, described upper cover comprises upper cover upper plate and upper cover lower plate, and described upper cover upper plate and upper cover lower plate fasten mutually, the described cavity of its inner formation; Preferably, described upper cover upper plate and the split of upper cover lower plate are formed or are integrally formed.

Preferably, the upper end of described kuppe is formed skewed, and preferably, the rear side of the upper end of described kuppe is higher than front side, and described upper cover is slant setting state, higher than front side on rear side of it.

Preferably, the longitudinal cross-section of described kuppe sidewall is tubaeform in what broaden gradually from lower end to upper end, and this flaring large end opening is positioned at the upper end of conditioner, and its little end opening is positioned at the position near described body upper end.

Preferably, described top cover can move up and down.

Preferably, in described kuppe, the cavity be arranged on the downside of described upper cover is provided with elevating mechanism, and described elevating mechanism is for driving the lifting of described top cover.

Preferably, when described top cover moves to lowest positions, described top cover can the open top of body described in shutoff.

Preferably, the radially inner side of described kuppe, the radial outside of described elevating mechanism are provided with elevating mechanism shell, the small end opening sleeve of described kuppe is contained on the outer wall of described elevating mechanism shell.

Preferably, between the little end opening and the outer wall of elevating mechanism shell of described kuppe, sealing ring is provided with.

Preferably, the small end opening part of described kuppe is provided with radial inner edge, described sealing ring is arranged on the radially inner side of described radial inner edge.

Preferably, described elevating mechanism shell is provided with hermetically-sealed construction, described hermetically-sealed construction is ring-type, comprise be connected successively kuppe sealing, elevating mechanism body seal portion and fixed part, described fixed part is for being fixed to described elevating mechanism shell by described hermetically-sealed construction, described kuppe sealing is positioned at bottom, when described kuppe slides into topmost, described kuppe sealing and elevating mechanism body seal portion are used for sealing between the lower end of described kuppe and elevating mechanism shell

Preferably, described elevating mechanism shell split is formed, and comprise interconnective lower case and upper case, described hermetically-sealed construction is arranged between described lower case and upper case.

Preferably, described hermetically-sealed construction comprises the sealing portion, fixed part and the upper sealing that are connected successively, and described fixed part is connected with described lower case or upper case, thus is fixed by described hermetically-sealed construction; Described upper case can slide up and down along the inner wall sealing of described upper sealing, or described lower case can slide up and down along the inner wall sealing of described sealing portion.

According to a second aspect of the invention, a kind of conditioner is provided, comprise cap assembly and body, open top is formed in the upper end of described body, described cap assembly is arranged on described top open part, form air-supply passage between the upper end of described cap assembly and described body, between the upper end and the radially outer edge of cover assembly of described body, form air outlet.

Preferably, the upper end of described open top and described cap assembly is obliquely installed, in front-low-rear-high shape.

Preferably, the variable and/or described air outlet size of described air-supply passage size is variable.

In the application, independent cavity is formed in the position near cap assembly upper end, the setting of this cavity can reduce the cold wind produced in conditioner, even avoid the cold wind produced in conditioner to enter the position of cap assembly near upper end, effectively can reduce the generation of cap assembly top condensation; Further, heater can also be set in this cavity, the generation of condensation can be reduced further.Further, also decorating structure or display unit can be set in described cavity, the outward appearance of conditioner can be made more attractive in appearance, user also can be facilitated the understanding of conditioner running status.

Accompanying drawing explanation

By referring to the description of accompanying drawing to the embodiment of the present invention, above-mentioned and other objects of the present invention, feature and advantage will be more clear, in the accompanying drawings:

Fig. 1 is conditioner cap assembly structural representation of the present invention;

Fig. 2 is conditioner cap assembly cross-sectional schematic of the present invention;

Fig. 3 is conditioner cap assembly decomposing schematic representation of the present invention;

Fig. 4 is the structural representation (top cover is in raised position) that conditioner cap assembly of the present invention is connected with body;

Fig. 5 is conditioner structural representation (top cover is in raised position) of the present invention;

Fig. 6 is conditioner structural representation of the present invention (top cover is in and falls position).

Detailed description of the invention

Hereinafter with reference to accompanying drawing, various embodiment of the present invention is described in more detail.In various figures, identical element adopts same or similar Reference numeral to represent.For the sake of clarity, the various piece in accompanying drawing is not drawn in proportion.

Illustrate: in the application, be defined as by above-below direction: the direction extended from the bottom of body 200 to cap assembly 100 is top, the direction contrary with it is below; Further, the side at lowest part place, open top in Fig. 5 22 position is defined as front side, position highest point side is defined as rear side.

As shown in Figure 5, vertical air adjusting device comprises cap assembly 100 and body 200, and described body 200 is provided with air inlet 21, and described body 200 inside is provided with main body air channel and wind generation apparatus (not shown).Be formed with open top 22 in the upper end of described body 200, the cap assembly 100 in the application is arranged on open top 22 place of described body 200 upper end, and forms air-supply passage 4 and air outlet 5 (see Fig. 4) between the upper end of described body 200.

As shown in Figure 2,4, near the position of described cap assembly 100 upper end on described cap assembly 100, be formed with independent cavity 113, preferably, described cavity 113 is closed chamber.Like this, cavity 113 inside the outer rim of described cap assembly 100 and conditioner in produce cold/thermal current, especially cold airflow is effectively kept apart, and effectively can reduce the generation of the condensation at the radially outer edge place at cap assembly 100.The top of described cap assembly 100 is front-low-rear-high shape, namely the height of the rear side of described cap assembly 100 is higher than the height of front side, so both can optimize the outward appearance of conditioner, also can the user-friendly or device of observation set by cap assembly 100 top.Preferably, the longitudinal cross-section of the sidewall of described cap assembly 100 is tubaeform in what broaden gradually from lower end to upper end, this flaring large end is positioned at the top of conditioner, its small end, and namely the lower end of described cap assembly 100 is connected with the upper end of described body 200.

As shown in Figure 2,4, in a preferred embodiment, the top cover in described cap assembly 100 comprises upper cover 11 and kuppe 12, and described kuppe 12 is roughly the tubular of upper and lower both ends open, described upper cover 11 is arranged on the upper end of described kuppe 12, for the upper port of kuppe described in shutoff 12.Preferably, described upper cover 11 comprises upper cover upper plate 111 and upper cover lower plate 112, and described upper cover upper plate 111 and upper cover lower plate 112 fasten mutually, and the described cavity 113 of its inner formation, preferred described cavity 113 is formed as closed chamber.Like this, the cold wind of part near upper end of the upper surface of upper cover 11 and kuppe 12 and conditioner inside can be made to keep apart, effectively can reduce and form condensation on described cap assembly 100.Described upper cover upper plate 111 and upper cover lower plate 112 can be formed in split, also can be integrally formed.

In a preferred embodiment, decorating structure (not shown) is formed in described cavity 113, described decorating structure can be the decorating structure of the various ways such as decoration painting, decorative pattern, decoration light, can improve the aesthetic feeling of vertical air adjusting device outward appearance.Or, display unit (not shown) is also provided with in described cavity 113, described display unit can be display screen or lighting device or its combination, some relevant conditioner work and/or set informations can be shown like this on described upper cover 11, make user can get more information about the working condition of conditioner.When described cavity 113 is formed as closed chamber, effectively can reduces the aging of these decorating structures and display unit or damage, reducing the structural impact on these decorating structures and display unit of cold wind in conditioner; Meanwhile, it is inner that the cold wind that can also prevent conditioner from generating or hot blast enter described cap assembly, and then enter the inner side of described upper cover 11, effectively can prevent the generation of conditioner upper end condensation.

In order to reduce the generation of condensation further, the radial edges position of described cap assembly 100 is provided with heater 115, described heater 115 can be the conventional heating structures such as heating wire, can be used for the condensation being trapped in cap assembly frontside edge effectively to remove, the use sense improving user is subject to.Particularly, the inner side that described heater 115 can be arranged on described upper cover upper plate 111 is in the position of radial edges, as shown in Figure 2.

As Figure 1-3, in a preferred embodiment, the longitudinal cross-section of described kuppe 12 sidewall is tubaeform in what broaden gradually from lower end to upper end, and this flaring large end opening is positioned at the top of conditioner, and its little end opening is positioned at the position of the upper end near described body 200.The upper end of described kuppe 12 is formed skewed, preferably, for rear side is higher than front side.Meanwhile, described upper cover 11, in slant setting state, is specially on rear side of being in high, the state that front side is low.Like this, user can be facilitated to observe decorative pattern on described upper cover upper plate 111 or display information, the aesthetic feeling of the outward appearance of vertical air adjusting device can also be improved simultaneously.Particularly, the upper end of described body 200 is provided with mount pad 23, the lower end of the cap assembly 100 in the application is fixedly connected on described mount pad 23.

As shown in Figure 4, between described air-supply passage 4 sidewall that is formed in described kuppe 12 and the upper end of described body 200.In order to the aperture size of described air-supply passage 4 can be adjusted, in a preferred embodiment, the top cover in described cap assembly 100 is liftable structure.In described kuppe 12, the cavity 121 be arranged on the downside of described upper cover 11 is provided with elevating mechanism 13, and described elevating mechanism 13 can be gear & rack structure or nut-screw structure.By this elevating mechanism 13, described kuppe 12 drives described upper cover 11 can move up and down along the longitudinal axis of described vertical air adjusting device together, the outside opening of described air-supply passage 4 can be adjusted so easily, that is the size of the air outlet 5 of described vertical air adjusting device, air output and the air-out direction of vertical air adjusting device can be adjusted easily, meet different demand.Preferably, described air outlet 5 is arranged on the upper end of described body 200.In a preferred embodiment, when described kuppe 12 and upper cover 11 move to lowest positions, described upper cover 11 covers in the open top 22 of described body 200, and can the open top 22 (as shown in Figure 6) of body 200 described in shutoff.When vertical air adjusting device is in non-working condition, by the described top cover that declines, top cover covers at described open top 22 place, make the overall appearance of conditioner more complete, dust, other foreign material etc. can be avoided to fall into conditioner inside simultaneously, environment even be affected to the normal operation of conditioner, when being in using state, the size of conditioner air outlet can be adjusted in real time, form different air supply velocities and direction, form the air-flow of more comfortable natural wind simulating, and, because described air-supply passage 4 is in, longitudinally state is set, air-flow in described body 200 upwards through described air-supply passage 4, foreign material floating in surrounding environment can not fall into conditioner inside, the air-flow blown out through described air-supply passage 4 turns at described air outlet 5 place, blow to the interior space being arranged in higher position, can not directly blow on the health of user, can effectively improve the comfort be used for.

As shown in Figure 2, preferably, at the radially inner side of described kuppe 12, the surrounding of described cavity 121 is formed with elevating mechanism shell 14, the small end opening sleeve of described kuppe 12 is contained on the outer wall of described elevating mechanism shell 14, preferably, between the little end opening and the outer wall of elevating mechanism shell 14 of described kuppe 12, sealing ring 120 is set, sealing circle 120 can be fixed on the little end opening of described kuppe 12, like this when described kuppe slides up and down, the cavity of described kuppe 2 inside can be made, comprise described cavity 121, with outside seal keep apart, thus keep apart with the cold or thermal current that conditioner inside is formed, cold or the thermal current that described conditioner inside is formed can not enter in described cavity 121, avoid these cold or thermal currents to the motor in elevating mechanism 13, the electric components such as travel switch impact, affect the normal operation of elevating mechanism 13.

As shown in Figure 2,3, in a preferred embodiment, described elevating mechanism shell 14 is provided with hermetically-sealed construction 143.Described hermetically-sealed construction 143 is circular, comprise be connected successively kuppe sealing 1431, elevating mechanism body seal portion 1432 and fixed part 1433, described fixed part 1433 is for being fixed to described elevating mechanism shell 14 by described hermetically-sealed construction 143.Described kuppe sealing 1431 is positioned at bottom, is preferably the lower surface of described hermetically-sealed construction 14.Described kuppe 12 is preferably provided with radial inner edge 122 at its small end opening part, and described radial inner edge 122 extends to the inside of described kuppe 12, and in such cases, described sealing ring 120 is arranged on the radially inner side of described radial inner edge 122.When upward sliding is to position, the top under the driving of described elevating mechanism 13 for described kuppe 12, upper surface and the described kuppe sealing 1431 of described radial inner edge 122 abut against, and can seal the space of described kuppe 12 inside further.Described elevating mechanism body seal portion 1432 is positioned on the inwall of described hermetically-sealed construction 143, and described kuppe sealing (1431) and elevating mechanism body seal portion (1432) are used from and seal between the lower end of described kuppe (12) and elevating mechanism shell (14).

In a preferred embodiment, described elevating mechanism shell 14 split is formed, comprise interconnective lower case 141 and upper case 142, described hermetically-sealed construction 143 is arranged between described lower case 141 and upper case 142, and is fixed on described lower case 141.Described upper case 142 is connected with described cap assembly 100, preferably, the upper end of described upper case 142 is connected with the lower end of described upper cover 11, described upper cover 11 is fixedly connected with kuppe 12, like this, the elevating mechanism 13 being positioned at elevating mechanism shell 14 can drive described upper case 142 to move up and down, thus drive described upper cover 11 and kuppe 12 to move up and down, realize the adjustment to described air-supply passage 4 size, and can realize when conditioner runs, rise by making described top cover and open described air-supply passage 4 and air outlet 5, when conditioner cuts out, described top cover is declined and closes described air outlet 5, and then close described air-supply passage 4.

Conditioner is in running, especially in refrigerating operaton process, easily condensation is produced near air outlet, even have the globule to drip, the use sense affecting user is subject to, in the application, independent cavity is formed in the upper end of cap assembly, the setting of this cavity can reduce the cold wind produced in conditioner, even avoids the cold wind produced in conditioner to enter the position of cap assembly near upper end, effectively can reduce the generation of condensation on the upside of cap assembly; Further, heater can also be set in this cavity, the generation of condensation can be reduced further.Further, also decorating structure or display unit can be set in described cavity, the outward appearance of conditioner can be made more attractive in appearance, user also can be facilitated the understanding of conditioner running status.

Last it is noted that obviously, above-described embodiment is only for example of the present invention is clearly described, and the restriction not to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.And thus the apparent change of amplifying out or variation be still among protection scope of the present invention.

Claims (19)

1. a conditioner cap assembly, be arranged on open top (22) place of conditioner body (200) upper end, it is characterized in that, be formed with cavity (113) in the position of described cap assembly (100) upper end, between the upper end of described cap assembly (100) and described body (200), form air outlet (5).

2. conditioner cap assembly according to claim 1, is characterized in that, described cavity (113) is closed chamber.

3. conditioner cap assembly according to claim 1, it is characterized in that, described cap assembly (100) comprises top cover, described top cover comprises upper cover (11) and kuppe (12), the tubular that described kuppe (12) is upper and lower both ends open, described upper cover (11) is arranged on the upper end of described kuppe (12), for the upper port of kuppe described in shutoff (12), described cavity (113) is formed in described upper cover (11).

4. the conditioner cap assembly according to any one of claim 1-3, is characterized in that, in described cavity (113), be formed with decorating structure and/or display unit.

5. the conditioner cap assembly according to any one of claim 1-3, is characterized in that, the radial edges position of described cap assembly (100) is provided with heater (115).

6. conditioner cap assembly according to claim 3, it is characterized in that, described upper cover (11) comprises upper cover upper plate (111) and upper cover lower plate (112), described upper cover upper plate (111) and upper cover lower plate (112) fasten mutually, its described cavity of inner formation (113); Preferably, described upper cover upper plate (111) and upper cover lower plate (112) split are formed or are integrally formed.

7. conditioner cap assembly according to claim 3, it is characterized in that, the upper end of described kuppe (12) is formed skewed, preferably, the rear side of the upper end of described kuppe (12) is higher than front side, described upper cover (11) in slant setting state, higher than front side on rear side of it.

8. conditioner cap assembly according to claim 3, it is characterized in that, the longitudinal cross-section of described kuppe (12) sidewall is tubaeform in what broaden gradually from lower end to upper end, this flaring large end opening is positioned at the upper end of conditioner, and its little end opening is positioned at the position near described body (200) upper end.

9. conditioner cap assembly according to claim 3, is characterized in that, described top cover (11,12) can move up and down.

10. conditioner cap assembly according to claim 3, it is characterized in that, the cavity (121) being arranged in described upper cover (11) downside in described kuppe (12) is provided with elevating mechanism, and described elevating mechanism (13) is for driving the lifting of described top cover (11,12).

11. conditioner cap assemblies according to claim 9, it is characterized in that, when described top cover (11,12) moves to lowest positions, described top cover (11,12) can the open top (22) of body (200) described in shutoff.

12. conditioner cap assemblies according to claim 10, it is characterized in that, the radial outside of the radially inner side in described kuppe (12), described elevating mechanism is provided with elevating mechanism shell (14), and the small end opening sleeve of described kuppe (12) is contained on the outer wall of described elevating mechanism shell (14).

13. conditioner cap assemblies according to claim 12, is characterized in that, between the little end opening and the outer wall of elevating mechanism shell (14) of described kuppe (12), be provided with sealing ring (120).

14. conditioner cap assemblies according to claim 13, it is characterized in that, the small end opening part of described kuppe (12) is provided with radial inner edge (122), and described sealing ring (120) is arranged on the radially inner side of described radial inner edge (122).

15. conditioner cap assemblies according to claim 12, it is characterized in that, described elevating mechanism shell (14) is provided with hermetically-sealed construction (143), described hermetically-sealed construction (143) is ring-type, comprise the kuppe sealing (1431) be connected successively, elevating mechanism body seal portion (1432) and fixed part (1433), described fixed part (1433) is for being fixed to described elevating mechanism shell (14) by described hermetically-sealed construction (143), described kuppe sealing (1431) is positioned at bottom, when described kuppe (12) slides into topmost, described kuppe sealing (1431) and elevating mechanism body seal portion (1432) are for sealing between the lower end of described kuppe (12) and elevating mechanism shell (14).

16. conditioner cap assemblies according to claim 15, it is characterized in that, described elevating mechanism shell (14) split is formed, comprise interconnective lower case (141) and upper case (142), described hermetically-sealed construction (143) is arranged between described lower case (141) and upper case (142).

17. 1 kinds of conditioners, comprise cap assembly (100) and body (200), it is characterized in that, described cap assembly (100) is the cap assembly described in any one of claim 1-16, open top (22) is formed in the upper end of described body (200), described cap assembly (100) is arranged on described open top (22) place, air-supply passage (4) is formed between the upper end of described cap assembly (100) and described body (200), air outlet is formed between the upper end of described body (200) and the radially outer edge of cover assembly (100).

18. conditioners according to claim 17, is characterized in that, the upper end of described open top (22) and described cap assembly (100) is obliquely installed, in front-low-rear-high shape.

19. conditioners according to claim 17 or 18, it is characterized in that, described air-supply passage (4) size variable and/or described air outlet (5) size is variable.