EP3693675B1 - Unité d'intérieur de climatisation et climatiseur présentant celle-ci - Google Patents

Unité d'intérieur de climatisation et climatiseur présentant celle-ci Download PDF

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Publication number
EP3693675B1
EP3693675B1 EP19778781.5A EP19778781A EP3693675B1 EP 3693675 B1 EP3693675 B1 EP 3693675B1 EP 19778781 A EP19778781 A EP 19778781A EP 3693675 B1 EP3693675 B1 EP 3693675B1
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EP
European Patent Office
Prior art keywords
door
air
air outlet
driving mechanism
indoor unit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP19778781.5A
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German (de)
English (en)
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EP3693675A1 (fr
EP3693675A4 (fr
Inventor
Liangrui Chen
Peng Xie
Zhihang Chen
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Midea Group Co Ltd
GD Midea Air Conditioning Equipment Co Ltd
Original Assignee
Midea Group Co Ltd
GD Midea Air Conditioning Equipment Co Ltd
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Publication date
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Publication of EP3693675A1 publication Critical patent/EP3693675A1/fr
Publication of EP3693675A4 publication Critical patent/EP3693675A4/fr
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Publication of EP3693675B1 publication Critical patent/EP3693675B1/fr
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0011Indoor units, e.g. fan coil units characterised by air outlets
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0011Indoor units, e.g. fan coil units characterised by air outlets
    • F24F1/0014Indoor units, e.g. fan coil units characterised by air outlets having two or more outlet openings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0018Indoor units, e.g. fan coil units characterised by fans
    • F24F1/0022Centrifugal or radial fans
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0043Indoor units, e.g. fan coil units characterised by mounting arrangements
    • F24F1/005Indoor units, e.g. fan coil units characterised by mounting arrangements mounted on the floor; standing on the floor
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/02Ducting arrangements
    • F24F13/06Outlets for directing or distributing air into rooms or spaces, e.g. ceiling air diffuser
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/08Air-flow control members, e.g. louvres, grilles, flaps or guide plates
    • F24F13/10Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
    • F24F13/12Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of sliding members

Definitions

  • This invention relates to the field of air handling equipment, in particular to an indoor unit in air conditioner and an air conditioner equipped with it.
  • the door is set on the housing of the indoor unit, and the door slides relative to the housing to open or close the air outlet.
  • the sliding door is relatively monotonous, lacking the sense of science and technology.
  • the air supply mode of the above indoor unit is relatively single, and the indoor temperature distribution is uneven, which seriously affects the user's experience.
  • CN 106287975 A relates generally to an air conditioning cabinet machine including a casing, an air outlet structure arranged at the upper end of the casing, a positive air outlet structure fixed to the casing and at least one air outlet formed in casing.
  • a rotating structure drives the positive air outlet structure to rotate, in order to open or close an air outlet.
  • the purpose of this invention is to address at least one of the technical problems in the existing technology. Therefore, one of the purposes of this application is to propose an indoor unit, which has the advantages of good air supply effect and strong sense of science and technology.
  • the invention also proposes an air conditioner equipped with such indoor unit.
  • the indoor unit in accordance with the invention is defined in claim 1.
  • the indoor unit according to the invention is fitted with the first door and the second door, where the first driving mechanism can realize the opening and closing of the first air outlet by controlling the forward/backward movement of the first door, the second driving mechanism can drive the second door to slide relative to the housing to realize the opening and closing of the second air outlet, which improves the sense of science and technology of the indoor unit.
  • the air flowing from the first air outlet and the second air outlet can be mixed in the indoor space, so that the air could flow to every corner of the indoor space uniformly, and the indoor temperature could be distributed more evenly, which enhances the comfort level of the indoor unit.
  • the first door consists of: the flow guiding member which is connected to and is driven by the first driving mechanism, and where the outer wall of the flow guiding member guides the air flow to move when the first door is in open state; and the sealing member which is connected to the flow guiding member, so that the sealing member fits with the housing to close the first air outlet when the first door is in closed state.
  • the vertical sectional area of the flow guiding member increases gradually along the direction from the air inlet to the first air outlet.
  • the first driving mechanism consists of: the first driving motor which is installed in the housing; the first driving gear which is connected to the first driving motor so that the motor can drive the driving gear; and the first rack which extends along the moving direction of the first door, and fits with and is driven by the first driving gear, and where one end of the first rack is connected to and drives the first door.
  • the first rack is fitted with limiting groove extending along the moving direction of the first door
  • the first driving mechanism also contains the stop lever extending into the limiting groove
  • the stop lever slide-fits with the limiting groove, so that the stop lever will reach one end of the limiting groove to limit the first door when the first door is in the open state.
  • the fan assembly includes an air outlet duct which is mounted directly opposite to the first air outlet, and has mounting space where the first driving mechanism is installed.
  • the first driving mechanism is also equipped with a rack box that is connected to the air outlet duct, on which the guide hole is mounted, and where the first rack passes through the guide hole to reciprocate relative to the rack box.
  • the second driving mechanism drives the second door sliding in the up-down direction.
  • the second driving mechanism consists of: the second driving motor; the second driving gear which is connected to and is driven by the second driving motor; and the second rack which extends along the moving direction of the second door, it meshes with and is driven by the second driving gear to move, and where one end of the second rack is connected to and drives the second door.
  • the fan assembly consists of the first fan and the second fan, where the first fan and the first outlet are set facing each other, while the second fan and the second outlet are set facing each other.
  • the first fan is a diagonal fan
  • the second fan is a counter-rotating fan
  • the first outlet is above the second outlet.
  • the air conditioner of the invention includes the indoor unit according to any of claims 1 to 10.
  • the air conditioner of the invention by setting the indoor unit mentioned above, not only the air conditioner's sense of science and technology can be improved, but also the cooling and heating effect of air conditioner can be enhanced, which promotes the user's comfort greatly, and thus enhances the market competitiveness of air conditioner.
  • the indoor unit 100 as specified in this application embodiment consists of housing 1, fan assembly 2, first driving mechanism 4 and first door 3.
  • housing 1 contains the air duct flow paths which connects the air inlet 12a to the first air outlet 11a, and connects the air inlet 12a to the second air outlet 11b respectively, and the fan assembly 2 is placed in the housing 1 to guide the air flow circulating in the air duct flow path.
  • the fan assembly 2 can be rotated to create negative pressure in the air duct flow path so that the air flow can enter the air path through the air inlet 12a under the effect of such negative pressure, and can be discharged through the first air outlet 11a and the second air outlet 11b after circulating in the air path.
  • the air flow can be discharged only through the first air outlet 11a or the second air outlet 11b respectively, or be discharged through both of them.
  • the housing 1 can contain the front panel 11 and the backing plate assembly 12 which can snap-fit with each other.
  • the air inlet 12a equipped with the air-inlet grille 121 can be placed on the backing plate assembly 12.
  • the first air outlet 11a can be installed on the front panel 11, the air duct flow path connecting the first air outlet 11a to the air inlet 12a is installed in the housing 1, and also can contain the heat exchange component 7 which may exchange heat with the air flow in the air duct flow path. After heat exchange, the air flow can be discharged through the first air outlet 11a; in this way, the indoor temperature can be regulated.
  • the first driving mechanism 4 is placed in the housing 1, and is connected to and drive the first door 3 to move, so that the first door 3 can be in open or closed state; the first driving mechanism 4 can drive the first door 3 to move outwards relative to the housing 1 (forward as shown in Figure 3 ) to the set position, the first door 3 can be switched to the open state, at which point the first door 2 can open the first air outlet 11a; when the first door 3 is in the closed state, the first door 3 can work with the housing 1 to close the first air outlet 11a.
  • the first driving mechanism 4 can drive the first door 3 moving forward and backward to open or close the first air outlet 11a.
  • the first driving mechanism 4 can drive the first door 3 forward to the set position, at which point the first door 3 can open the first air outlet 11a so that the air flow can be discharged through the first air outlet 11a.
  • the first driving mechanism 4 can drive the first door 3 backward, and the first door 3 can work with the housing 1 to close the first air outlet 11a.
  • the second driving mechanism 6 is connected to and drive the second door 5 to slide relative to the housing 1 to open or close the second air outlet 11b. Therefore, through the above setting, the indoor unit 100 can discharge the air through the first air outlet 11a and the second air outlet 11b simultaneously, so as to improve the air outlet efficiency of the indoor unit 100 and expand the air supply area of the same.
  • the air flow blown out from the first air outlet 11a can be distributed along the circumferential direction of the first access 3, the air flow from the first air outlet 11a can collide with the air flow from the second air outlet 11b in the indoor space, which can play the role of mixing the flows, make the indoor temperature distribution more uniform, and realize the air outlet effect without feeling the air.
  • the working status of the first door 3 and the second door 5 can be controlled respectively.
  • the first door 3 can be driven by the first driving mechanism 4 so as to switch the first door 3 to the open state, at which point the first air outlet 11a will be opened.
  • the second door 5 can be driven by the second driving mechanism 6 by sliding relative to the housing 1 to open the second air outlet 11b.
  • the first door 3 and the second door 5 can also move jointly, that is, the first door 3 and the second door 5 can move simultaneously, so that the first air outlet 11a and the second air outlet 11b can be opened or closed simultaneously.
  • the first driving mechanism 4 can realize the opening and closing of the first air outlet 11a by controlling the forward and backward movement of first door 3, while the second driving mechanism 6 can drive the second door 5 to slide relative to the housing 1 to realize the opening and closing of second air outlet 11b, which improves the sense of science and technology of the indoor unit 100.
  • the air flow blowing out from the first air outlet 11a can be distributed along the circumferential direction of the first door 3, the air flows blowing out from the first air outlet 11a and the second air outlet 11b can be mixed in the indoor space, so that the air flows can be circulated uniformly to each corner of the indoor space, and the indoor temperature will be more even.
  • the first door 3 can prevent the air flow blowing directly to the users in the room to avoid discomfort, which enhances the use comfort of the indoor unit 100 significantly.
  • the indoor unit 100 is adopted by setting the first door 3 and the second door 5, so that the first driving mechanism 4 can realize the opening and closing of the first air outlet 11a by controlling the forward and backward movement of first door 3, while the second driving mechanism 6 can drive the second door 5 to slide relative to the housing 1 to realize the opening and closing of second air outlet 11b, which improves the sense of science and technology of the indoor unit 100.
  • the air flows blowing out from the first air outlet 11a and the second air outlet 11b can be mixed in the indoor space, so that the air flows can be circulated uniformly to each corner of the indoor space, and the indoor temperature will be more even, which enhances the use comfort of the indoor unit 100 significantly.
  • the first door 3 includes the flow guiding member 31 and the sealing member 32.
  • Flow guiding member 31 is connected to and driven by the first driving mechanism 4.
  • the outer wall of the flow guiding member 31 can guide the air flow to move, and the sealing member 32 is connected to the flow guiding member 31;
  • the sealing member 32 works with the housing 1 to close the first air outlet 11a; it thus can make the design form of first door 3 simpler and improve the air guide effect of first door 3.
  • the air outlet area of first air outlet 11a can be defined between the flow guiding member 31 and the housing 1.
  • the air flow can be blown out along the outer wall of flow guiding member 31.
  • the flow guiding member 31 can serve to guide air flow, which not only can reduce the circulation resistance of the air flow, improve the air outlet efficient of the first air outlet 11a, but also distribute the air properly.
  • the air flow can be distributed around the circumferential direction of flow guiding member 31, so that the indoor temperature distribution will be more uniform.
  • the sealing member 32 works with the housing 1 to seal the first air outlet 11a, so as to protect the indoor unit 100 and prevent the dust and dirt from entering indoor unit 100 through the first air outlet 11a.
  • the first air outlet 11a can be formed into a circle, and the sealing member 32 can be formed into a disk.
  • the outer diameter of the sealing member 32 can be larger than the diameter of the first air outlet 11a, so as to improve the sealing effect of first air outlet 11a.
  • the sealing member 32 may be either integrated with the flow guiding member 31, or connected to the same by screw fastening or riveting.
  • the vertical sectional area of the flow guiding member 31 increases gradually along the direction from the air inlet 12a to the first air outlet 11a (from back to front as shown in Figure 8 ), which improves the air guide effect of flow guiding member 31 and prevents the air flow being blown forward to the user who may thus feel uncomfortable.
  • the flow guiding member 31 may consist of the mounting part 311 and the air guide part 312 which can be connected in sequential order from the back to the front, and the mounting part 311 can slide-fit with the housing 1.
  • the mounting part 311 is formed to be cylindrical while the air guide part 312 is formed to be truncated cone shaped.
  • the vertical sectional area of air guide part 312 increases gradually to be flared approximately from the back to the front. Therefore, when the air flows out through the first air outlet 11a, the air flow can be dispersed along the outer wall of the air guide part 312 around the first air outlet 11a, which can play a good effect of air dispersion.
  • the air guide part 312 can be equipped with several studs 312a spaced in its circumferential direction on the front end, and the sealing member 32 can be bolted to the air guide part 312.
  • the sealing member 32 can be equipped with multiple first micro air outlets 32a distributed at intervals. Each first micro air outlet 32a can run through the sealing member 32 in the thickness direction (front-rear direction as shown in Figure 9 ); the flow guiding member 31 can be equipped with an air guide channel connected to multiple first micro air outlets 32a, which thereby can realize the breezeless air outlet effect and greatly improve users' comfort level.
  • the indoor unit 100 can have the first normal air supply mode and the first breezeless mode.
  • the first door 3 When the indoor unit 100 is in the first normal air supply mode, the first door 3 will be in the open state, and can be driven by the first driving mechanism 4 to move forward to the set position to open the first air outlet 11a so that a part of the air can be dispersed around the flow guiding member 31 to the first air outlet 11a, while another part of the air can flow into the air guide channel and be discharged through multiple first micro air outlets 32a.
  • the indoor unit 100 is in the first breezeless mode
  • the first door 3 When the indoor unit 100 is in the first breezeless mode, the first door 3 will be in the closed state, and the air can flow into the air guide channel and be discharged through multiple first micro air outlets 32a.
  • first micro air outlets 32a can divide the air flow into several small branch air flows, and the first micro air outlets 32a with a small diameter can slow down the air flow, so that the air can flow out slowly through multiple micro air outlets. It thus can realize the breezeless air supply effect, prevent the air being blown directly to the users, thus causing discomfort, and make the indoor temperature distribution more uniform, which improves the user experience significantly.
  • the indoor unit 100 when the indoor unit 100 is in the COOL mode, it can be adjusted to the first breezeless mode to prevent the cool air being blown directly to indoor users, and the cool air can be circulated to the indoor space slowly through multiple first micro air outlets 32a.
  • the indoor unit 100 when the indoor unit 100 is in the HEAT mode, it can be adjusted to the first normal air supply mode since the air density of the warm air is relatively small and the circulation speed is relatively slow, so that the warm air can be circulated quickly into the indoor space through the first air outlet 11a, thereby improving the heating efficiency of the indoor unit 100.
  • the first driving mechanism 4 can consist of the first driving motor 45, the first driving gear 41 and the first rack 42, where the first driving motor 45 can be mounted in the housing 1, the first driving gear 41 can be connected to and driven by the first driving motor 45 to rotate, the first rack 42 can extend along the moving direction of first door 3 (front-rear direction as shown in Figure 6 ) and mesh with and be driven by the first driving gear 41, and one end of the first rack 42 can be connected to and drive the first door 3 to move. Therefore, the above settings can make the design form of first driving mechanism 4 simpler; the first driving mechanism 4 drives the first door 3 by meshing the gear with the rack, which can make the operation of first door 3 more stable and reduce the working noise of indoor unit 100.
  • the first driving mechanism 4 can consist of two one-to-one matching pairs of first driving gear 41 and first rack 42, which can be spaced and connected to the first door 3 respectively, and which thus makes the matching structure between the first driving mechanism 4 and the first door 3 firmer, and the operation of the first door 3 more stable.
  • the first driving mechanism 4 can include a first driving motor 45 which is of a two-axle motor, and whose two shafts rotate in the same direction and are connected to one of the first driving gear 41 keys respectively.
  • the first driving mechanism 4 can also include two first driving motors 45 that can operate synchronously, and each of which is of a single-axle motor and is connected to the corresponding first driving gear 41.
  • the first door 3 can also include the first connecting bracket 33 and the second connecting bracket 34 which are mounted respectively on flow guiding member 31 and distributed at intervals in the circumferential direction of flow guiding member 31.
  • the first connecting bracket 33 is equipped with the first mounting hole 331 while the second connecting bracket 34 is equipped with the second mounting hole 341.
  • the first driving mechanism 4 consists of two one-to-one matching pairs of first driving gear 41 and first rack 42, as well as a first driving motor 45, which is a two-axle motor and whose two motor shafts rotate in the same direction and are connected to one of the first driving gear 41 keys respectively.
  • Each first rack 42 is equipped with a fitting column 422.
  • the fitting column 422 of one first rack 42 can be inserted into the first mounting hole 331 of the first connecting bracket 33, while the fitting column 422 on the other first rack 42 can be inserted into the second mounting hole 341 on the second connecting bracket 34. Therefore, the above settings can make the connection structure between the first driving mechanism 4 and the first door 3 simpler and improve the assembly efficiency of indoor unit 100 greatly.
  • the first driving mechanism 4 is not confined to this design form, as long as it can drive the first door 3 forward and backward.
  • the first driving mechanism 4 can also be a linear motor or hydraulic drive cylinder.
  • One end of the linear motor or hydraulic drive cylinder can be connected to the housing 1, and the other end can be connected to the first door 3, which can also drive the first door 3 to switch flexibly between the open state and the closed state.
  • the first rack 42 can be equipped with the limiting groove 421 extending on the moving direction of the first door 3 (front-rear direction as shown in Figures 6-7 ), the first driving mechanism 4 also may include the stop lever 43 stretched into the limiting groove 421, the stop lever 43 may slide-fit with the limiting groove 421; when the first door 3 is in the open state, the stop lever 43 can push against one end of the limiting groove 421 to limit the first door 3; so, through the above settings, the stop lever 43 can limit the position of the first rack 42, make the first door 3 move accurately to the set position and improve the operational stability of the indoor unit 100.
  • the contact sensor (not shown in the figure) can be mounted on the outer wall of the stop lever 43, and can be connected to communicate with the first driving motor 45.
  • the first driving motor 45 can drive the first driving gear 41 to rotate, and the first driving gear 41 meshes with and drives the first rack 42 to move; when the first rack 42 is moving, the stop lever 43 may slide-fit with the limiting groove 421 on the first rack 42.
  • the contact sensor on the stop lever 43 will contact with one end of the limiting groove 421, and transfer the contact signal to the first driving motor 45 that will stop working after receiving such signal. Therefore, the intelligent control of the first driving mechanism 4 can be achieved through the above settings, making the operation of the first driving mechanism 4 more convenient.
  • the fan assembly 2 may include an air outlet duct part 26 which can be mounted facing directly with the first air outlet 11a and have the mounting space 26a in which the first driving mechanism 4 can be mounted. In this way, the fitting structure between the first driving mechanism 4 and the fan assembly 2 would become more compact and the assembly space in the indoor unit 100 can be reduced.
  • the air outlet duct part 26 can be formed in a circular loop and define a mounting space 26a internally, in which the first driving mechanism 4 can be mounted.
  • the air outlet duct part 26 can also contain multiple air outlet louvers 261 which are mounted around the mounting space 26a and spaced on the circumferential direction of the air outlet duct part 26, and can serve to guide the air flow and change the air outlet direction.
  • the mounting space 26a can be either connected to the air duct flow path or isolated from the same.
  • the sealing member 32 is provided with the first micro air outlet 32a
  • the mounting space 26a can be connected to the air duct flow path in which the air can flow into the mounting space 26a and be discharged through the first micro air outlet 32a.
  • the mounting space 26a is isolated from the air duct flow path, the air can enter the indoor space through the air outlet area defined between the flow guiding member 31 and the housing 1.
  • the first driving mechanism 4 can also include the rack box 44 that can be connected to the air outlet duct part 26, and can be equipped with the guide hole 441 through which the first rack 42 can pass and reciprocate relative to the rack box 44.
  • the guide hole 441 can guide the first rack 42 and make the operation of the same more regular and stable, thus improving the operation stability of first door 3.
  • the housing 1 is provided with the second air outlet 11b, while the indoor unit 100 is fitted with the second door 5 and the second driving mechanism 6.
  • the first air outlet 11a and the second air outlet 11b can be distributed at intervals in the vertical direction, and the first air outlet 11a is above the second air outlet 11b.
  • the first door 3 is mounted at the first air outlet 11a, and is connected to the first driving mechanism 4 which drives the first door 3 to reciprocate to open or close the first air outlet 11a.
  • the second door 5 is set at second air outlet 11b, and is connected to the second driving mechanism 6 which drives the second door 5 to reciprocate to open or close the second air outlet 11b.
  • the open and closed states of the first door 3 and the second door 5 can be controlled respectively.
  • the second driving mechanism 6 can drive the second door 5 to slide to close the second air outlet 11b, while the first driving mechanism 4 can drive the first door 3 to move forward to open the first air outlet 11a.
  • the cool air can enter the upper half of the indoor space through the first air outlet 11a since the first air outlet 11a is above the second air outlet 11b; the cool air can circulate slowly from top to bottom in the indoor space as the cool air density is relatively big, which not only improves the cooling effect, but also prevents the cool air from being blown to the indoor users directly through the second air outlet 11b, resulting in discomfort.
  • the second driving mechanism 6 can drive the second door 5 to slide to open the second air outlet 11b, while the first driving mechanism 4 can drive the first door 3 to move forward to open the first air outlet 11a.
  • the first air outlet 11a and the second air outlet 11b output air simultaneously. It could be understood that the heating efficiency of the indoor unit 100 may be enhanced, and the warm air can circulate smoothly to the floor and warm the feet, which improves the use experience of the user when the first air outlet 11a and the second air outlet 11b output the air at the same time as the warm air density is relatively small and its circulation speed is relatively low.
  • first air outlet 11a and second air outlet 11b on the indoor unit 100 are not confined to this setting.
  • multiple first air outlets 11a and multiple second air outlets 11b can be set on the indoor unit 100, which can be set according to the actual use demand. There is no specific restriction in this application.
  • the second air outlet 11b is located above the first air outlet 11a, where at the first air outlet 11a there is a first door 3 which is connected to the first driving mechanism 4; the first driving mechanism 4 can drive the first door 3 to reciprocate to open or close the first air outlet 11a.
  • the second door 5 is set at the second air outlet 11b, and is connected to the second driving mechanism 6 which drives the second door 5 to reciprocate to open or close the second air outlet 11b.
  • the second door 5 can open the second air outlet 11b by sliding from top to bottom, and close the second air outlet 11b by sliding from bottom to top, or close the second air outlet 11b by sliding from top to bottom and open the second air outlet 11b by sliding from bottom to top.
  • the second driving mechanism 6 drives the second door 5 to slide in the up-down direction, so that the air outlet area of the second air outlet 11b can be adjusted conveniently. It could be understood that the second air outlet 11b can be extended in the up-down direction, and the air outlet area of second air outlet 11b can be adjusted by controlling the sliding displacement of second door 5 in the up-down direction, which makes the operation more convenient when the height of indoor unit 100 is relatively large.
  • the second driving mechanism 6 can also drive the second door 5 to slide along the left-right direction (this is outside the scope of the invention) and along a direction that has a tilt angle with the left-right direction and the up-down direction. The settings can be selected according to the actual use needs.
  • the second driving mechanism 6 can include a second drive motor (not shown in the figure), a second driving gear 61 and a second rack 62, where the second driving gear 61 can be connected to and driven by the second drive motor to rotate; the second rack 62 can be extended along the moving direction of second door 5 (up-down direction shown in Figure 5 ); the second rack 62 can mesh with and be driven by the second driving gear 61; one end of the second rack 62 can be connected to and drive the second door 5 to move; in this case, the above settings can make the design form of the second driving mechanism 6 simpler.
  • the second door 5 is driven by the second driving mechanism 6 through the gear-rack structure, making the operation of the second door 5 more stable.
  • the second driving mechanism 6 can include two one-to-one matching pairs of second drive motor, second driving gear 61 and second rack 62. Both second racks 62 are extended in the up-down direction and are spaced in the left-right direction. Both second racks 62 are connected to the inner walls of second door 5.
  • two second drive motors rotate synchronously and two second racks 62 drive the second door 5 to slide relative to the housing 1, thereby making the operation of the second door 5 more stable.
  • the indoor unit 100 can also include the door mounting plate 8 on which the second driving mechanism 6 can be mounted.
  • the second rack 62 can be mounted on the front wall of the door mounting plate 8 and attached to the inner wall of the second door 5.
  • the door mounting plate 8 is equipped with the slide track (not shown in the figure) while the second door 5 slide-fits with the slide track. Therefore, the above settings can facilitate the installation and fixation of the second driving mechanism 6, and besides, the second door 5 can work with the slide track to reduce the sliding resistance of the second door 5, thus making its operation smoother and reducing the working load of the second drive motor.
  • the second driving mechanism 6 can also be a linear motor or hydraulic drive cylinder, one end of which can be connected to the housing 1 and the other end can be connected to the second door 5, which can also drive the second door 5 to slide relative to the housing 1.
  • the fan assembly 2 can be composed of the first fan 22 and the second fan 23, where the first fan 22 can be set in alignment with the first air outlet 11a, and second fan 23 can be set in alignment with second air outlet 11b, so that the working states of the first fan 22 and second fan 23 can be controlled separately according to the use requirements, thereby enhancing the use flexibility of the user.
  • the first fan 22 can be an axial fan, a diagonal fan or a counter-rotating fan.
  • the second fan 23 is can be an axial fan, a diagonal fan or a counter-rotating fan.
  • the first fan 22 can be a diagonal fan
  • the second fan 23 can be a counter-rotating fan, which makes for an improved ventilation effect of the indoor unit 100.
  • the diagonal fan adopts the mode of axial air inlet and air outlet inclined at a certain angle along the axial direction for air supply.
  • the air outlet volume of the diagonal fan is relatively large, which not only improves the air outlet volume of first fan 22, but also increases the air outlet angle of first fan 22, thereby expanding the air supply range of the first fan 22.
  • This counter-rotating fan can include two wind wheels mounted on the opposite sides, whose blades are distributed in the opposite directions.
  • the air supply speeds of two wind wheels can be cancelled out in the tangential directions of their rotation directions, while the air supply speeds of two wind wheels can overlap in the axial directions, which can increase the axial air supply speed of the second fan 23, extend the air supply distance of the second fan 23 and enable the second fan 23 to supply air for long distance.
  • the air supply speeds of two wind wheels may overlap in the tangential direction of their rotation directions, and the air supply speeds of two wind wheels can be cancelled out in the axial direction, so that the air can be dispersed all around the second fan 23 and be prevented from being blown directly to the indoor user through the second air outlet 11b, thereby realizing breezeless air outlet effect and improving the use comfort of the user.
  • the counter-rotating fan when only one wind wheel is working, the counter-rotating fan can be used to realize breezeless air outlet effect. Specifically, when one wind wheel of the counter-rotating fans is rotating, another inactive wind wheel also can rotate under the effect of the air flow. At this time, the two wind wheels will rotate in the same direction; according to the above description, the counter-rotating fan also can realize breezeless effect at this moment.
  • the first fan 22 can be turned on when the air supply angle needs to be increased.
  • the first fan 22 can achieve the effect of air supply in a wide range.
  • the second fan 23 can be turned on and the two wind wheels of second fan 23 can be controlled to rotate in the opposite directions, thus improving the air supply distance of second fan 23 greatly.
  • two wind wheels of the second fan 23 can be controlled to rotate in the same direction, so that the second fan 23 can disperse the air all around, preventing the air being blown directly to the indoor users through the second air outlet 11b.
  • the first fan 22 and the second fan 23 are not confined herein.
  • the first fan 22 may be an axial fan, diagonal fan or counter-rotating fan
  • the second fan 23 also may be an axial fan, diagonal fan or counter-rotating fan. It can be used in combination according to the actual use requirements, and there is no specific restriction in this application.
  • the indoor unit 100 can also be composed of the air outlet frame component 21, which can be connected to the housing 1.
  • the air outlet frame component 21 has the first air duct part 24 and the second air outlet part 25 which are distributed at intervals in the up-down direction.
  • the first air duct part 24 is set in alignment with the first air outlet 11a, while the second air duct part 25 is set in alignment with the second air outlet 11b.
  • the first fan 22 is installed in the first air duct part 24, while the second fan 23 is installed in the second air duct part 25.
  • the first fan 22 and the second fan 23 can be installed and fixed conveniently, but also the first air duct part 24 and the second air duct part 25 can be used to guide the air flow, improving the air supply efficiency of the indoor unit 100.
  • the second door 5 can be equipped with multiple second micro air outlets 5a distributed at intervals.
  • Each second micro air outlet 5a can run through the second door 5 in the thickness direction (front-rear direction as shown in Figure 9 ), which thereby can realize the breezeless air outlet effect and greatly improve users' comfort level.
  • the indoor unit 100 can have the second normal air supply mode and the second breezeless mode.
  • the second driving mechanism 6 can drive the second door 5 to slide relative to the housing 1 to open the second air outlet 11b, through which the air can be discharged.
  • the second door 5 can work with the housing 1 to close the second air outlet 11b, so that the air can be discharged through multiple second micro air outlets 5a.
  • multiple second micro air outlet 5a can divide the air flow into several small branch air flows, and the second micro air outlet 5a with small diameter can slow down the air flow, so that the air can flow out slowly through the second micro air outlet 5a. It thus can realize the breezeless air supply effect, and prevent the air being blown directly to the users, causing discomfort, which improves the user experience significantly.
  • the indoor unit 100 when the indoor unit 100 is in the COOL mode, it can be adjusted to the second breezeless mode to prevent the cool air being blown directly to indoor users, and the cool air can be circulated to the indoor space slowly through multiple second micro air outlets 5a.
  • the indoor unit 100 when the indoor unit 100 is in the HEAT mode, it can be adjusted to the second normal air supply mode since the air density of the warm air is relatively small and the circulation speed is relatively slow, so that the warm air can be circulated quickly into the indoor space through the second air outlet 11b, improving the heating efficiency of the indoor unit 100.
  • multiple third micro air outlets 11c which are distributed at intervals along the periphery of second air outlet 11b, can be installed on the housing 1, and each third micro air outlet 11c can run through the housing 1 in the thickness direction (front-rear direction as shown in Figure 9 ).
  • Each third micro air outlet 11c can be connected to the air duct flow path, increasing indoor unit 100's air supply efficiency and enhancing the indoor unit 100's cooling and heating in the second breezeless mode.
  • the second air outlet 11b can be formed into a circle and multiple second micro air outlets 5a can be distributed on the second door 5 at intervals, placed on the opposite direction of the second air outlet 11b.
  • Multiple third micro air outlets 11c which are located at the periphery of second air outlet 11b, are placed at intervals on the housing 1, and are roughly formed into a circle. Therefore, through the above settings, the third micro air outlets 11c on the second door 5 and the third micro air outlets 11c on the housing 1 can discharge air simultaneously, which greatly improves the air outlet efficiency of indoor unit 100, and makes the appearance design of indoor unit 100 more artistic.
  • the air conditioner in the embodiment of this application includes the indoor unit 100 in the aforesaid embodiment of this application.
  • connection shall be understood generally, for example, it may be fixed connection, detachable connection, or integral connection; or mechanical or electrical connections; or direct linking, indirect linking through an intermediate medium, or internal connection of two components.
  • installation shall be understood generally, for example, it may be fixed connection, detachable connection, or integral connection; or mechanical or electrical connections; or direct linking, indirect linking through an intermediate medium, or internal connection of two components.
  • connection shall be understood generally, for example, it may be fixed connection, detachable connection, or integral connection; or mechanical or electrical connections; or direct linking, indirect linking through an intermediate medium, or internal connection of two components.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Air-Flow Control Members (AREA)
  • Air Filters, Heat-Exchange Apparatuses, And Housings Of Air-Conditioning Units (AREA)
  • Duct Arrangements (AREA)
  • Air-Conditioning Room Units, And Self-Contained Units In General (AREA)

Claims (11)

  1. Unité intérieure (100) pour un climatiseur, comportant :
    un boîtier (1) comportant une entrée d'air (12a), une première sortie d'air (11a), et une deuxième sortie d'air (11b), une trajectoire d'écoulement de conduit d'air faisant communiquer l'entrée d'air (12a) avec la première sortie d'air (11a) et une trajectoire d'écoulement de conduit d'air faisant communiquer l'entrée d'air (12a) avec la deuxième sortie d'air (11b) qui sont mises en oeuvre dans le boîtier (1) ;
    un ensemble formant ventilateur (2) mis en oeuvre dans le boîtier (1) servant à guider l'air pour le faire circuler dans les trajectoires d'écoulement de conduit d'air ;
    un premier mécanisme d'entraînement (4) et une première porte de visite (3), dans laquelle le premier mécanisme d'entraînement (4) est mis en oeuvre dans le boîtier (1) et est raccordé à la première porte de visite (3) pour entraîner la première porte de visite (3) à des fins de déplacement, de telle sorte que la première porte de visite (3) a un état ouvert et un état fermé ; quand le premier mécanisme d'entraînement (4) entraîne la première porte de visite (3) à des fins de déplacement vers l'extérieur par rapport au boîtier (1) jusque sur une position définie, la première porte de visite (3) est commutée jusque sur l'état ouvert ; dans l'état ouvert, la première porte de visite ouvre la première sortie d'air (11a) ; dans l'état fermé, la première porte de visite (3) coopère avec le boîtier (1) pour fermer la première sortie d'air (11a) ;
    une deuxième porte de visite (5) et un deuxième mécanisme d'entraînement (6), dans laquelle le deuxième mécanisme d'entraînement (6) est raccordé à la deuxième porte de visite (5) pour entraîner la deuxième porte de visite (5) à des fins de coulissement par rapport au boîtier (1) pour ouvrir ou fermer la deuxième sortie d'air (11b) ;
    la première porte de visite (3) comportant :
    un élément de guidage d'écoulement (31) raccordé au premier mécanisme d'entraînement (4) pour être entraîné à des fins de déplacement par le premier mécanisme d'entraînement (4), de telle sorte qu'une paroi périphérique extérieure de l'élément de guidage d'écoulement (31) guide l'écoulement d'air quand la première porte de visite (3) est dans l'état ouvert ; et
    un élément d'étanchéité (32) raccordé à l'élément de guidage d'écoulement (31), de telle sorte que l'élément d'étanchéité (32) coopère avec le boîtier (1) pour fermer la première sortie d'air (11a) quand la première porte de visite (3) est dans l'état fermé ;
    caractérisée en ce que :
    une section verticale de l'élément de guidage d'écoulement (31) va en s'accroissant progressivement le long d'une direction allant de l'entrée d'air (12a) à la première sortie d'air (11a) ; et
    le deuxième mécanisme d'entraînement (6) entraîne la deuxième porte de visite (5) à des fins de coulissement dans une direction verticale.
  2. Unité intérieure (100) selon la revendication 1, dans laquelle le premier mécanisme d'entraînement (4) comporte :
    un premier moteur d'entraînement (45) mis en oeuvre dans le boîtier (1) ;
    un premier engrenage d'entraînement (41) raccordé au premier moteur d'entraînement (45) pour être entraîné à des fins de rotation par le premier moteur d'entraînement (45) ; et
    une première crémaillère (42) s'étendant le long d'une direction de déplacement de la première porte de visite (3), s'engrenant avec le premier engrenage d'entraînement (41) pour être entraînée à des fins de déplacement par le premier engrenage d'entraînement (41), et ayant une extrémité raccordée à la première porte de visite (3) pour entraîner la première porte de visite (3) à des fins de déplacement.
  3. Unité intérieure (100) selon la revendication 2, dans laquelle la première crémaillère (42) comporte une rainure de limitation (421) s'étendant dans la direction de déplacement de la première porte de visite (3), le premier mécanisme d'entraînement (4) comporte par ailleurs un levier d'arrêt (43) s'étirant jusque dans la rainure de limitation (421) et adapté de manière coulissante avec la rainure de limitation (421), et le levier d'arrêt (43) vient prendre appui sur une extrémité de la rainure de limitation (421) pour limiter la position de la première porte de visite (3) quand la première porte de visite (3) est dans l'état ouvert.
  4. Unité intérieure (100) selon la revendication 2, dans laquelle l'ensemble formant ventilateur (2) comporte une partie de conduit de sortie d'air agencée de manière à correspondre à la première sortie d'air (11a), la partie de conduit de sortie d'air a un espace de montage, et le premier mécanisme d'entraînement (4) est agencé à l'intérieur de l'espace de montage.
  5. Unité intérieure (100) selon la revendication 4, dans laquelle le premier mécanisme d'entraînement (4) comporte par ailleurs un caisson de crémaillère (44) raccordé à la partie de conduit de sortie d'air, et le caisson de crémaillère (44) comporte un trou de guidage au travers duquel la première crémaillère (42) se déplace selon un mouvement de va-et-vient par rapport au caisson de crémaillère (44).
  6. Unité intérieure (100) selon la revendication 1, dans laquelle l'élément d'étanchéité (32) est équipé de multiples premières micro-sorties d'air (32a) réparties selon des intervalles, et l'élément de guidage d'écoulement (31) est équipé d'un canal de guidage d'air raccordé aux multiples premières micro-sorties d'air (32a).
  7. Unité intérieure (100) selon l'une quelconque des revendications 1 à 6, dans laquelle le deuxième mécanisme d'entraînement (6) comporte :
    un deuxième moteur d'entraînement ;
    un deuxième engrenage d'entraînement (61) raccordé au deuxième moteur d'entraînement pour être entraîné à des fins de rotation par le deuxième moteur d'entraînement ;
    une deuxième crémaillère (62) s'étendant le long d'une direction de déplacement de la deuxième porte de visite (5), s'engrenant avec le deuxième engrenage d'entraînement (61) pour être entraîné à des fins de déplacement par le deuxième engrenage d'entraînement (61), et ayant une extrémité raccordée à la deuxième porte de visite (5) pour entraîner la deuxième porte de visite (5) à des fins de déplacement.
  8. Unité intérieure (100) selon l'une quelconque des revendications 1 à 7, dans laquelle l'ensemble formant ventilateur (2) comporte un premier ventilateur (22) et un deuxième ventilateur (23), le premier ventilateur (22) est agencé de manière à correspondre à la première sortie d'air (11a), et le deuxième ventilateur (23) est agencé de manière à correspondre à la deuxième sortie d'air (11b).
  9. Unité intérieure (100) selon la revendication 8, dans laquelle le premier ventilateur (22) est un ventilateur diagonal et le deuxième ventilateur (23) est un ventilateur contrarotatif.
  10. Unité intérieure (100) selon l'une quelconque des revendications 1 à 9, dans laquelle la première sortie d'air (11a) est située au-dessus de la deuxième sortie d'air (11b).
  11. Climatiseur, comportant une unité intérieure (100) selon l'une quelconque des revendications 1 à 10.
EP19778781.5A 2018-12-14 2019-03-20 Unité d'intérieur de climatisation et climatiseur présentant celle-ci Active EP3693675B1 (fr)

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CN201822112078.9U CN209325925U (zh) 2018-12-14 2018-12-14 空调室内机和具有其的空调器
PCT/CN2019/078823 WO2020118954A1 (fr) 2018-12-14 2019-03-20 Unité d'intérieur de climatisation et climatiseur présentant celle-ci

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CN111412557A (zh) 2020-04-17 2020-07-14 北京小米移动软件有限公司 新风空调系统
KR20220170034A (ko) * 2021-06-22 2022-12-29 삼성전자주식회사 공기 조화기 및 그 제어 방법
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EP3693675A1 (fr) 2020-08-12
KR102249899B1 (ko) 2021-05-10
CN209325925U (zh) 2019-08-30
EP3693675A4 (fr) 2020-08-12
JP2021513043A (ja) 2021-05-20
JP7079792B2 (ja) 2022-06-02
WO2020118954A1 (fr) 2020-06-18
US20220003432A1 (en) 2022-01-06

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