CN203857638U - Inlet air regulation and control assembly and system of air conditioner - Google Patents

Abstract

The utility model discloses an inlet air regulation and control assembly of an air conditioner. The inlet air regulation and control assembly is arranged at an air inlet of an indoor unit of the air conditioner and comprises a sliding door and a transmission mechanism connected with the sliding door, wherein the sliding door is arranged on the outside surface or inside surface of the air inlet, and the transmission mechanism drives the sliding door to slide along the length direction of the air inlet, so that the sliding door can block part of the air inlet in the length direction. The utility model further discloses an inlet air regulation and control system of the air conditioner. According to the assembly and the system, when temperatures of upper outlet air and lower outlet air of a vertical air outlet are non-uniform, adjustment on the temperatures of the upper outlet air and the lower outlet air of the vertical air outlet can be realized through correspondingly adjusting an air blocking position of the sliding door of the air inlet and reducing the inlet air volume of a blocked position of the air inlet, so that the uniformity of the temperatures of the upper outlet air and the lower outlet air of the air conditioner is effectively improved, and the temperature adjusting effect of the air conditioner is improved.

Description

Air intake regulation and control assembly and the system of air-conditioner

Technical field

The utility model relates to air-conditioning technical field, specially refers to air intake regulation and control assembly and the system of air-conditioner.

Background technology

At present, the kind of air-conditioner is more and more various, has wall-hanging, console mode, window formula etc.Taking floor type air-conditioner as example, the inlet and outlet of traditional floor type air-conditioner is horizontal air inlet/outlet, and air outlet is positioned at the top in air conditioner room unit front conventionally, and laterally puts wind, and air inlet is positioned at the bottom at the air conditioner room unit back side.And the recent air-conditioner that has occurred on the market vertical-type inlet and outlet, air outlet is positioned on the length direction of air conditioner room unit front, and air inlet is positioned on the length direction of the air conditioner room unit back side, and air intake height is highly corresponding with air-out.Due to the difference of specific gravity characteristic of cold and hot air, air in room there will be the thermal stratification situation of upper heat and lower cold, the EAT of the air-conditioner air inlet that causes vertical-type in short transverse there are differences, and then have influence on the leaving air temp on differing heights, while causing air conditioner heat-production or refrigeration, upper and lower leaving air temp is inhomogeneous, affects the thermoregulation effect of air-conditioner.

Foregoing is only understood the technical solution of the utility model for auxiliary, does not represent and admits that foregoing is prior art.

Utility model content

Main purpose of the present utility model, for a kind of air intake regulation and control assembly and system of air-conditioner are provided, is effectively improved the uniformity of the upper and lower leaving air temp of air-conditioner, improves air-conditioner thermoregulation effect.

For achieving the above object, the utility model proposes a kind of air intake regulation and control assembly of air-conditioner, described air intake regulation and control assembly is arranged on the air inlet place of air conditioner room unit, comprise sliding door and the transmission mechanism being connected with described sliding door, described sliding door is placed in surface or the inner face of described air inlet, described transmission mechanism drives described sliding door to slide along the length direction of described air inlet, makes described sliding door block a part for the length direction of described air inlet.

Preferably, described transmission mechanism comprises upper driving mechanism and lower transmission mechanism, be connected with described sliding door respectively, described upper driving mechanism drives the length direction upward sliding of described sliding door along described air inlet, and described lower transmission mechanism drives the length direction down sliding of described sliding door along described air inlet.

Preferably, described upper driving mechanism comprises tow, top sheave, upper drive motors and upper storage tray, described top sheave is arranged on the upper end of described air inlet, described upper tow is across through described top sheave, described upper tow one end is connected with described sliding door, the described upper tow other end is connected in described upper storage tray, described upper drive motors drives described upper storage tray to rotate, described upper tow is accommodated in described upper storage tray, drives the length direction upward sliding of described sliding door along described air inlet;

Described lower transmission mechanism comprises downwards-pulling rope, lower sheave, lower drive motors and lower storage tray, described lower sheave is arranged on the lower end of described air inlet, described downwards-pulling rope is across through described lower sheave, described downwards-pulling rope one end is connected with described sliding door, the described downwards-pulling rope other end is connected in described lower storage tray, described lower drive motors drives described lower storage tray to rotate, described downwards-pulling rope is accommodated in described lower storage tray, drives the length direction down sliding of described sliding door along described air inlet.

Preferably, described upper driving mechanism comprise cog, upper rack and upper drive motors, described cogging is arranged on the upper end of described air inlet, the lower end of described upper rack is connected with described sliding door, described upper rack with described in cog and engage, the rotation that cogs described in described upper drive motors drives, drives the length direction upward sliding of described sliding door along described air inlet;

Described lower transmission mechanism comprises lower gear, lower tooth bar and lower drive motors, described lower gear is arranged on the lower end of described air inlet, the upper end of described lower tooth bar is connected with described sliding door, described lower tooth bar engages with described lower gear, described lower drive motors drives described lower gear to rotate, and drives the length direction down sliding of described sliding door along described air inlet.

Preferably, described transmission mechanism comprise cog, lower gear, tooth bar and drive motors, described cogging is arranged on the upper end of described air inlet, described lower gear is arranged on the lower end of described air inlet, described tooth bar engages with lower gear with described cogging respectively, after cogging described in one end pile warp of described tooth bar, connect described sliding door, described in the other end pile warp of described tooth bar, after lower gear, connect described sliding door, described in described drive motors drives, cog and/or lower gear rotation, drive described sliding door to slide along the length direction of described air inlet.

Preferably, described transmission mechanism comprises screw rod and drive motors, described screw rod is arranged on described air inlet place, the length bearing of trend of described screw rod is consistent with the length direction of described air inlet, the length of described screw rod is more than or equal to described air inlet length, and described sliding door is provided with nut corresponding to the position of described screw rod, and described nut is through being threaded on described screw rod, described drive motors drives described bolt rotary, drives described sliding door to slide along the length direction of described air inlet.

Preferably, described sliding door both sides are respectively arranged with slide block along glide direction, position corresponding to described slide block on described air conditioner room unit is provided with chute, and described slide block and described chute are slidably connected, and described chute length is greater than described air inlet length in the longitudinal direction.

Preferably, the cross section of described slide block is T-shaped, the shape adaptation of the shape of described chute and described slide block.

Preferably, described sliding door comprises door shell and the interior lining panel that is attached at described door shell, and described transmission mechanism is connected with described interior lining panel, and described slide block is arranged on the both sides of described interior lining panel.

The utility model also proposes a kind of air intake regulator control system of air-conditioner, and described air intake regulator control system comprises air intake regulation and control assembly, also comprises multiple temperature sensors of the air outlet of the vertical-type that is arranged on air conditioner room unit; Described air intake regulation and control assembly is arranged on the air inlet place of air conditioner room unit, comprise sliding door and the transmission mechanism being connected with described sliding door, described sliding door is placed in surface or the inner face of described air inlet, described transmission mechanism drives described sliding door to slide along the length direction of described air inlet, makes described sliding door block a part for the length direction of described air inlet.

Preferably, described multiple temperature sensor is uniformly distributed on the length direction of described air outlet.

The utility model is in the time that the upper and lower leaving air temp of vertical-type air outlet is uneven, the position of keeping out the wind of sliding door on corresponding adjusting air inlet, reduce air inlet be blocked place intake, can realize the adjusting of the leaving air temp up and down to vertical-type air outlet, effectively improve the uniformity of the upper and lower leaving air temp of air-conditioner, improve air-conditioner thermoregulation effect.

Brief description of the drawings

Fig. 1 is the structural representation that the air conditioner room unit back side of air intake regulation and control assembly is installed in the utility model embodiment;

Fig. 2 is the structural representation of the first embodiment of the transmission mechanism of the air intake regulation and control assembly of air-conditioner in the utility model embodiment;

Fig. 3 is the structural representation of the second embodiment of the transmission mechanism of the air intake regulation and control assembly of air-conditioner in the utility model embodiment;

Fig. 4 is the structural representation of the 3rd embodiment of the transmission mechanism of the air intake regulation and control assembly of air-conditioner in the utility model embodiment;

Fig. 5 is the structural representation of the 4th embodiment of the transmission mechanism of the air intake regulation and control assembly of air-conditioner in the utility model embodiment;

Fig. 6 is the cross sectional representation that the air intake regulation and control assembly of air-conditioner in the utility model embodiment is installed;

Fig. 7 is the A portion enlarged drawing of Fig. 6;

Fig. 8 is the structural representation that the air conditioner room unit front of temperature sensor is installed in the utility model embodiment.

Realization, functional characteristics and the advantage of the utility model object, in connection with embodiment, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1, Fig. 1 is the structural representation that the air conditioner room unit back side of air intake regulation and control assembly is installed in the utility model embodiment.The air intake regulation and control assembly of the air-conditioner that the present embodiment is mentioned, be arranged on air inlet 101 places of air conditioner room unit 100, comprise sliding door 200 and the transmission mechanism 300 being connected with sliding door 200, sliding door 200 is placed in outer surface or the inner surface of air inlet 101, transmission mechanism 300 can drive sliding door 200 to slide along the length direction of air inlet 101, makes sliding door 200 block a part for the length direction of air inlet 101.Sliding door 200 length is in the longitudinal direction less than air inlet 101 length in the longitudinal direction, and now, sliding door 200 also not exclusively blocks air inlet 101, and just blocks the intake of the air inlet 101 of sliding door 200 positions.Because the intake at the place of being blocked reduces, in evaporimeter (or condenser), refrigerant evaporation (or condensation) process of correspondence position is also affected, and the leaving air temp of the air outlet of correspondence position also changes thereupon.

Under refrigeration mode, in the time that in evaporimeter, refrigerant heat absorption capacity is equal, because intake reduces, it is more that the temperature of the wind after refrigerant heat exchange reduces, and leaving air temp obviously reduces.Therefore, in the time a certain height in vertical-type air outlet being detected compared with the temperature drift of other positions, sliding door 200 is slid into respective heights, block the air intake of the air inlet 101 of this height, and then the leaving air temp of respective heights in air outlet is effectively reduced.

Under heating mode, in the time that in condenser, refrigerant heat release ability is equal, because intake reduces, it is more that the temperature of the wind after refrigerant heat exchange raises, and leaving air temp obviously raises.Therefore, in the time detecting that in vertical-type air outlet, a certain height is on the low side compared with the temperature of other positions, sliding door 200 is slid into respective heights, block the air intake of the air inlet 101 of this height, and then the leaving air temp of respective heights in air outlet is effectively raise.

Thus, in the time that the upper and lower leaving air temp of vertical-type air outlet is uneven, only need the position of keeping out the wind of sliding door 200 on corresponding adjusting air inlet, reduce the intake that is blocked and locates, can realize the adjusting of the leaving air temp up and down to vertical-type air outlet, effectively improve the uniformity of the upper and lower leaving air temp of air-conditioner, improve air-conditioner thermoregulation effect.

As shown in Figure 2, Fig. 2 is the structural representation of the first embodiment of the transmission mechanism of the air intake regulation and control assembly of air-conditioner in the utility model embodiment.

The transmission mechanism of the present embodiment can comprise upper driving mechanism 310 and lower transmission mechanism 320, be connected with sliding door 200 respectively, upper driving mechanism 310 drives the length direction upward sliding of sliding door 200 along air inlet 101, and lower transmission mechanism 320 drives the length direction down sliding of sliding door 200 along air inlet 101.The transmission mechanism 300 of the present embodiment is mainly rope and storage tray.Wherein: upper driving mechanism 310 comprises tow 311, top sheave 312, upper storage tray 313 and upper drive motors 314, top sheave 312 is arranged on the upper end of air inlet 101, upper tow 311 is across through top sheave 312, upper tow 311 one end are connected with sliding door 200, and upper tow 311 other ends are connected in storage tray 313.Lower transmission mechanism 320 comprises downwards-pulling rope 321, lower sheave 322, lower storage tray 323 and lower drive motors 324, lower sheave 322 is arranged on the lower end of air inlet 101, downwards-pulling rope 321 is across through lower sheave 322, downwards-pulling rope 321 one end are connected with sliding door 200, and downwards-pulling rope 321 other ends are connected in lower storage tray 323.

In the time that upper drive motors 314 drives upper storage tray 313 to rotate, upper tow 311 is received in storage tray 313, under the traction action of upper tow 311, sliding door 200 is along the length direction upward sliding of air inlet 101, now downwards-pulling rope 321 moves up with sliding door 200, from lower storage tray 323, stretches out.Instantly when drive motors 324 drives lower storage tray 323 to rotate, downwards-pulling rope 321 is received in lower storage tray 323, under the traction action of downwards-pulling rope 321, sliding door 200 is along the length direction down sliding of air inlet 101, now go up tow 311 with sliding door 200 down slidings, from upper storage tray 313, stretch out.

The present embodiment employing rope and storage tray are as the chief component of transmission mechanism, simple in structure, easily realize.

As shown in Figure 3 and Figure 4, Fig. 3 is the structural representation of the second embodiment of the transmission mechanism of the air intake regulation and control assembly of air-conditioner in the utility model embodiment, and Fig. 4 is the structural representation of the 3rd embodiment of the transmission mechanism of the air intake regulation and control assembly of air-conditioner in the utility model embodiment.

Transmission mechanism in Fig. 3 and Fig. 4 embodiment is mainly gear and tooth bar.Wherein:

In the embodiment shown in fig. 3, transmission mechanism also comprises upper driving mechanism 310 and lower transmission mechanism 320, upper driving mechanism 310 comprise cog 315, upper rack 316 and upper drive motors 314,315 upper ends that are arranged on air inlet 101 cog, the lower end of upper rack 316 is connected with sliding door 200, and upper rack 316 315 engages with cogging; Lower transmission mechanism 320 comprises lower gear 325, lower tooth bar 326 and lower drive motors 324, and lower gear 325 is arranged on the lower end of air inlet 101, and the upper end of lower tooth bar 326 is connected with sliding door 200, and lower tooth bar 326 engages with lower gear 325.In the time that upper drive motors 314 drivings cog 315 rotation, can drive the length direction upward sliding of sliding door 200 along air inlet 101; Instantly, when drive motors 324 drives lower gear 325 to rotate, can drive the length direction down sliding of sliding door 200 along air inlet 101.

In the embodiment shown in fig. 4, transmission mechanism only adopts two gears, a toothed rack and a drive motors to realize, comprise cog 315, lower gear 325, tooth bar 331 and drive motors 332,315 upper ends that are arranged on air inlet 101 cog, lower gear 325 is arranged on the lower end of air inlet 101, tooth bar 331 respectively with cog 315 and lower gear 325 engage, one end pile warp of tooth bar 331 315 rear connection sliding doors 200 that cog, the rear connection sliding door 200 of other end pile warp lower gear 325 of tooth bar 331.Cog 315 and/or lower gear 325 while rotating when drive motors 332 drives, can drive equally sliding door 200 to slide along the length direction of air inlet 101.

The present embodiment adopts the mode of gear and tooth bar to realize the slip control of transmission mechanism to sliding door 200, sliding door 200 is slided up and down more steady, has increased the stability that sliding door 200 slides.

As shown in Figure 5, Fig. 5 is the structural representation of the 4th embodiment of the transmission mechanism of the air intake regulation and control assembly of air-conditioner in the utility model embodiment.

Transmission mechanism in the present embodiment is mainly screw rod and nut.Wherein, transmission mechanism comprises screw rod 333 and drive motors 332, screw rod 333 is arranged on air inlet 101 places, the length bearing of trend of screw rod 333 is consistent with the length direction of air inlet 101, the length of screw rod 333 is more than or equal to air inlet 101 length, on sliding door 200, be provided with the nut 334 matching with the screw thread of screw rod 333, sliding door 200 is connected on screw rod 333 through nut 334.In the time that drive motors 332 drive screws 333 rotate, drive sliding door 200 to slide along the length direction of air inlet 101.

The present embodiment adopts the mode of screw rod and nut to realize the slip control of transmission mechanism to sliding door 200, makes the structure of transmission mechanism simpler.

As shown in Figure 6 and Figure 7, Fig. 6 is the cross sectional representation that the air intake regulation and control assembly of air-conditioner in the utility model embodiment is installed, the A portion enlarged drawing that Fig. 7 is Fig. 6.

In the present embodiment, in order better to realize the fastening of sliding door 200 and air inlet 101, be respectively arranged with slide block 201 in sliding door 200 both sides along glide direction, on air conditioner room unit 100, be provided with chute 102 corresponding to the position of slide block 201, chute 102 length are greater than air inlet 101 length in the longitudinal direction, and slide block 201 is slidably connected with chute 102.When sliding door 200 is subject to transmission mechanism control, while sliding up and down along the length direction of air inlet 101, due to slide block 201 and the guide effect of chute 102, sliding door 200 well fastens on left and right directions with air inlet 101, when sliding door 200 slides, can not depart from air inlet 101, can be good at blocking the air intake at sliding door 200 position places.In addition, also the cross section of slide block 201 can be designed to T-shaped structure, accordingly, the shape adaptation of the shape of chute 102 and slide block 201, thus, sliding door 200 and air inlet 101 are well fastened on fore-and-aft direction, in sliding process, slide block 201 can not depart from from chute 102, has further ensured that sliding door 200 effectively blocks air intake.

In order further to improve windproof effect, sliding door 200 can comprise door shell 202 and be attached at the interior lining panel 203 of door shell 202, transmission mechanism 300 is connected with interior lining panel 203, slide block 201 is also arranged on the both sides of interior lining panel 203, the width of door shell 202 can be slightly larger than interior lining panel 203, in order to block the gap of slide block 201 and chute 102 joining places, further ensure that sliding door 200 effectively blocks air intake.

As shown in Figure 8, Fig. 8 is the structural representation that the air conditioner room unit front of temperature sensor is installed in the utility model embodiment.In the present embodiment, on the air outlet 103 of the vertical-type of air conditioner room unit 100, be respectively arranged with multiple temperature sensors 400, temperature sensor 400 forms the air intake regulator control system of air-conditioner jointly to the air intake regulation and control assembly in embodiment illustrated in fig. 7 with Fig. 1.Wherein, concrete structure and the operation principle of air intake regulation and control assembly can be referring to figs. 1 through embodiment illustrated in fig. 7, and therefore not to repeat here.In the time of mounting temperature sensor 400, can make multiple temperature sensors 400 be uniformly distributed on the length direction of air outlet 103.For example in Fig. 8, adopt 3 temperature sensors 400, be distributed in respectively air outlet 103 San Ge positions, upper, middle and lower, sensed the leaving air temp of 103 San Ge positions, upper, middle and lower, air port.The temperature measuring data recording is sent to CPU by each temperature sensor 400, and CPU judges whether to need regulating outlet air temperature according to the temperature measuring data obtaining.In the time that temperature measuring data that in air outlet 103, certain temperature sensor 400 records is larger compared with other position temperature difference, CPU controls transmission mechanism running, drive sliding door slides, to regulate the position of keeping out the wind across sliding door 200 on vertical-type air inlet, reduce the intake that is blocked and locates, can realize the adjusting of the leaving air temp to vertical-type air outlet, effectively improve the air-conditioner uniformity of leaving air temp everywhere, improve air-conditioner thermoregulation effect.

The foregoing is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (11)

1. the air intake of air-conditioner regulation and control assembly, it is characterized in that, described air intake regulation and control assembly is arranged on the air inlet place of air conditioner room unit, comprise sliding door and the transmission mechanism being connected with described sliding door, described sliding door is placed in outer surface or the inner surface of described air inlet, described transmission mechanism drives described sliding door to slide along the length direction of described air inlet, makes described sliding door block a part for the length direction of described air inlet.

2. air intake regulation and control assembly as claimed in claim 1, it is characterized in that, described transmission mechanism comprises upper driving mechanism and lower transmission mechanism, be connected with described sliding door respectively, described upper driving mechanism drives the length direction upward sliding of described sliding door along described air inlet, and described lower transmission mechanism drives the length direction down sliding of described sliding door along described air inlet.

3. air intake regulation and control assembly as claimed in claim 2, it is characterized in that, described upper driving mechanism comprises tow, top sheave, upper drive motors and upper storage tray, described top sheave is arranged on the upper end of described air inlet, described upper tow is across through described top sheave, described upper tow one end is connected with described sliding door, the described upper tow other end is connected in described upper storage tray, described upper drive motors drives described upper storage tray to rotate, described upper tow is accommodated in described upper storage tray, drive the length direction upward sliding of described sliding door along described air inlet,

Described lower transmission mechanism comprises downwards-pulling rope, lower sheave, lower drive motors and lower storage tray, described lower sheave is arranged on the lower end of described air inlet, described downwards-pulling rope is across through described lower sheave, described downwards-pulling rope one end is connected with described sliding door, the described downwards-pulling rope other end is connected in described lower storage tray, described lower drive motors drives described lower storage tray to rotate, described downwards-pulling rope is accommodated in described lower storage tray, drives the length direction down sliding of described sliding door along described air inlet.

4. air intake regulation and control assembly as claimed in claim 2, it is characterized in that, described upper driving mechanism comprise cog, upper rack and upper drive motors, described cogging is arranged on the upper end of described air inlet, the lower end of described upper rack is connected with described sliding door, described upper rack with described in cog and engage, the rotation that cogs described in described upper drive motors drives, drives the length direction upward sliding of described sliding door along described air inlet;

Described lower transmission mechanism comprises lower gear, lower tooth bar and lower drive motors, described lower gear is arranged on the lower end of described air inlet, the upper end of described lower tooth bar is connected with described sliding door, described lower tooth bar engages with described lower gear, described lower drive motors drives described lower gear to rotate, and drives the length direction down sliding of described sliding door along described air inlet.

5. air intake regulation and control assembly as claimed in claim 1, it is characterized in that, described transmission mechanism comprises and cogging, lower gear, tooth bar and drive motors, described cogging is arranged on the upper end of described air inlet, described lower gear is arranged on the lower end of described air inlet, described tooth bar engages with lower gear with described cogging respectively, after cogging described in one end pile warp of described tooth bar, connect described sliding door, described in the other end pile warp of described tooth bar, after lower gear, connect described sliding door, described in driving, described drive motors cogs and/or lower gear rotation, drive described sliding door to slide along the length direction of described air inlet.

6. air intake regulation and control assembly as claimed in claim 1, it is characterized in that, described transmission mechanism comprises screw rod and drive motors, described screw rod is arranged on described air inlet place, the length bearing of trend of described screw rod is consistent with the length direction of described air inlet, the length of described screw rod is more than or equal to described air inlet length, described sliding door is provided with nut corresponding to the position of described screw rod, described nut is through being threaded on described screw rod, described drive motors drives described bolt rotary, drives described sliding door to slide along the length direction of described air inlet.

7. air intake regulation and control assembly as claimed in claim 1, it is characterized in that, described sliding door both sides are respectively arranged with slide block along glide direction, position corresponding to described slide block on described air conditioner room unit is provided with chute, described slide block and described chute are slidably connected, and described chute length is greater than described air inlet length in the longitudinal direction.

8. air intake regulation and control assembly as claimed in claim 7, is characterized in that, the cross section of described slide block is T-shaped, the shape adaptation of the shape of described chute and described slide block.

9. air intake regulation and control assembly as claimed in claim 7, is characterized in that, described sliding door comprises door shell and the interior lining panel that is attached at described door shell, and described transmission mechanism is connected with described interior lining panel, and described slide block is arranged on the both sides of described interior lining panel.

10. an air intake regulator control system for air-conditioner, is characterized in that, described air intake regulator control system comprises the air intake regulation and control assembly as described in claim 1 to 9 any one, also comprises multiple temperature sensors of the air outlet that is arranged on air conditioner room unit.

11. air intake regulator control systems as claimed in claim 10, is characterized in that, described multiple temperature sensors are uniformly distributed on the length direction of described air outlet.