CN105135516A - Through-flow cabinet air conditioner - Google Patents

Through-flow cabinet air conditioner Download PDF

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Publication number
CN105135516A
CN105135516A CN201510471232.XA CN201510471232A CN105135516A CN 105135516 A CN105135516 A CN 105135516A CN 201510471232 A CN201510471232 A CN 201510471232A CN 105135516 A CN105135516 A CN 105135516A
Authority
CN
China
Prior art keywords
gathering sill
guide
conditioner
air
cabinet air
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.)
Granted
Application number
CN201510471232.XA
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Chinese (zh)
Other versions
CN105135516B (en
Inventor
陈奎
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.)
Wuhu Meizhi Air Conditioning Equipment Co Ltd
Original Assignee
Wuhu Meizhi Air Conditioning Equipment Co Ltd
Priority date (The priority date 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 date listed.)
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Application filed by Wuhu Meizhi Air Conditioning Equipment Co Ltd filed Critical Wuhu Meizhi Air Conditioning Equipment Co Ltd
Priority to CN201510471232.XA priority Critical patent/CN105135516B/en
Publication of CN105135516A publication Critical patent/CN105135516A/en
Application granted granted Critical
Publication of CN105135516B publication Critical patent/CN105135516B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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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
    • F24F1/0018Indoor units, e.g. fan coil units characterised by fans
    • F24F1/0025Cross-flow or tangential 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
    • F24F13/20Casings or covers

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Air-Flow Control Members (AREA)

Abstract

The invention discloses a through-flow cabinet air conditioner which comprises a shell, a through-flow air wheel assembly and a heat exchange assembly, wherein the through-flow air wheel assembly and the heat exchange assembly are arranged in the shell. A vertically-arranged air outlet is formed in the shell. A door assembly, an air guide assembly and a guide device installed in the shell are installed in the air outlet. The guide device comprises a drive piece and a guide piece connected with the drive piece. The guide piece is driven by the drive piece to drive the door assembly to rotate horizontally in the air outlet and move linearly at the same time, so that the door assembly does not extend out of the air outlet when opening and closing the air outlet. By the adoption of the technical scheme, the door assembly is driven by the drive device to move, so that the door assembly does not extend out of the air outlet when rotating, the situation that a moving door is blocked by an external object and then damaged is effectively avoided, and safety work of the door is facilitated; and when the door is in a certain position in the opening or closing process, air blown out of the air outlet can be guided and the air direction can be controlled by a user.

Description

Through-flow cabinet air-conditioner
Technical field
The present invention relates to field of air conditioning, particularly a kind of through-flow cabinet air-conditioner.
Background technology
Existing pair of through-flow cabinet air-conditioner, when switch gate, when door body moves a certain position, the part of door body can extend the air outlet outside of cabinet air-conditioner, when door body to be blocked by object in this position or blocks, door body cannot continue motion and cause cabinet air-conditioner to run, and even cause the generation of accident.
Summary of the invention
Main purpose of the present invention is to provide a kind of through-flow cabinet air-conditioner, is intended to the security improving the use of through-flow air-conditioning cabinet gate body assembly.
For achieving the above object, the through-flow cabinet air-conditioner that the present invention proposes, comprise housing, be installed on tubular wine wheel assembly in described housing and heat-exchanging component, described housing is formed with the air outlet vertically arranged, the guider being provided with a body assembly, wind guiding component in described air outlet and being installed in described housing, the guide that described guider comprises actuator and is connected with described actuator; Described guide drives described door body assembly horizontal direction in described air outlet to rotate and moves linearly simultaneously under the driving of described actuator, with realize air outlet open with closed while do not stretch out outside described air outlet.
Preferably, described guide comprises for driving the guide gear of described door body assembly and driving box, and described driving box offers gathering sill, and described door body moves along described gathering sill.
Preferably, described gathering sill comprises the first gathering sill and the second gathering sill; On described door body, corresponding described first gathering sill is provided with the first guide pillar, and described first guide pillar is installed in described first gathering sill, and corresponding described second gathering sill is provided with the second guide pillar, and described second guide pillar is installed in described second gathering sill;
On described guide gear, corresponding described first guide pillar is formed with the 3rd gathering sill, and corresponding described second guide pillar is formed with the 4th gathering sill; Described first guide pillar is connected with described guide gear by described 3rd gathering sill, and described second guide pillar is connected with described guide gear by described 4th gathering sill.
Preferably, the guiding tooth bar that described guide comprises driven wheel, coordinates with described driven wheel, and connector; Described connector connects described door body and described driven wheel, and described driven wheel is connected with described actuator; Described door body moves along the gear teeth arragement direction of described tooth bar in the effect of described driven wheel.
Preferably, described cabinet air-conditioner comprises two described door bodies, two described guides, and two transmission devices, described transmission device is connected with described actuator, the driving of described actuator is passed to two described guides by two described transmission devices respectively, and guide described in two drives door body described in two respectively.
Preferably, also comprise and being located at for supporting the gripper shoe of described cabinet air-conditioner guider in described housing, described gripper shoe is installed on the position of described housing near described air outlet.
Preferably, described gripper shoe is fixedly installed in described housing.
Preferably, described gripper shoe and described housing is one-body molded makes.
Preferably, described through-flow cabinet air-conditioner also comprises the second drive unit be installed in described housing, described second drive unit drives described wind guiding component horizontal direction in described air outlet to rotate, to realize the adjustment to the distinguished and admirable horizontal direction through described air outlet.
Preferably, described housing comprises the top cover and the front panel be located between described base and described top cover and rear board that base and described base be oppositely arranged, and described air outlet is located on described front panel.
Preferably, described tubular wine wheel assembly comprises spiral case assembly and is installed on the tubular wine wheel in described spiral case assembly, and described tubular wine wheel is vertically arranged.
Preferably, the quantity of described tubular wine wheel is two, and tubular wine wheel described in two is set in parallel in described spiral case assembly, and tubular wine wheel described in described spiral case assembly corresponding with the housing of described cabinet air-conditioner two forms two through-flow air channel structure.
Technical solution of the present invention is moved by drive unit driving gate body assembly, and the door body assembly being does not extend outside air outlet all the time when rotation, effectively prevent foreign object and is blocked by the door body in motion, cause damage, be conducive to a job of body safety; A body is arranged in open or a certain position of door closing procedure time, can lead to the wind of air outlet blowout, be conducive to the control of user to wind direction.
Accompanying drawing explanation
Fig. 1 is the structural representation of through-flow cabinet air-conditioner first scheme of the present invention;
Fig. 2 is the part-structure schematic diagram of through-flow cabinet air-conditioner first scheme of the present invention;
Fig. 3 is the partial enlarged drawing at A place in Fig. 2;
Fig. 4 is the structural representation of another embodiment of through-flow cabinet air-conditioner first scheme of the present invention;
Fig. 5 is the detonation configuration schematic diagram of cabinet air-conditioner guider first scheme of the present invention;
Fig. 6 is the structural representation of the guide gear of cabinet air-conditioner guider first scheme of the present invention;
Fig. 7 is the structural representation of the box body of the driving box of cabinet air-conditioner guider first scheme of the present invention;
Fig. 8 is the structural representation of through-flow cabinet air-conditioner alternative plan of the present invention;
Fig. 9 is the part-structure schematic diagram of through-flow cabinet air-conditioner alternative plan of the present invention;
Figure 10 is the part-structure schematic diagram of another embodiment of through-flow cabinet air-conditioner alternative plan of the present invention;
Figure 11 is the partial enlarged drawing at C place in Figure 10;
Figure 12 is the structural representation of the lid of through-flow cabinet air-conditioner alternative plan of the present invention;
Figure 13 is the structural representation of the pinion stand of through-flow cabinet air-conditioner alternative plan of the present invention;
Figure 14 is the detonation configuration schematic diagram of the part-structure of through-flow cabinet air-conditioner alternative plan of the present invention.
Drawing reference numeral illustrates:
Through-flow cabinet air-conditioner 1 Door body assembly 10 First body 11 Second body 12
First guide pillar 13a Second guide pillar 14a Wind guide strip 20a Wind guide strip rotating shaft 21a
Housing 30 Actuator 40a Actuator shell 41a Hangers 42a
Drive box 50a Lid 51a Fixed structure 511a Slot 512a
Button bit 513a Via hole 514a Box body 52a Base plate 521a
Flanging 522a First chamber 523a Second chamber 524a Buckle 525a
First gathering sill 526a Second gathering sill 527a First guiding rotating shaft 528a Dodge a 529a
First power transmission shaft 530a Second driving shaft 531a First via hole 532a
Guide gear 60a First guide gear 601a Second guide gear 602a Rotation section 61a
Drive division 62a First guide part 63a Second guide part 64a 3rd gathering sill 65a
4th gathering sill 66a First guiding axis hole 67a Reinforcement 68a Escape groove 69a
Transmission device 70a First travelling gear 71a Second travelling gear 72a Gripper shoe 80a
Fixed leg 81a Groove 82a
First guide pillar 13c Second guide pillar 14c Backplate 20c Actuator 40c
Actuator shell 41c Hangers 42c Base 43c Substrate 431c
Second fixed part 432c Via hole 433c Tooth bar box 50c Lid 51c
Second groove 511c Bayonet socket 512c Fixed structure 513c Box body 52c
Base plate 521c Flanging 522c Buckle 523c First groove 524c
Driven wheel 60c Rotation section 61c Drive division 62c First drive shaft hole 63c
Guiding tooth bar 70c Gripper shoe 80c First side 81c Second side 82c
Flanging 83c First gathering sill 84c Second gathering sill 85c Fixed leg 86c
Pinion stand 90c Support portion 91c Connecting portion 92c First fixed part 93c
Through hole 94c
The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.
Detailed description of the invention
Be described further with regard to technical scheme of the present invention below in conjunction with drawings and the specific embodiments.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.
The present invention proposes a kind of through-flow cabinet air-conditioner.
Usual through-flow cabinet air-conditioner comprises housing, housing has air inlet and air outlet, air channel is formed between air inlet and air outlet, evaporimeter is provided with in air channel, after air enters from air inlet, the fin through evaporimeter is entered air outlet, then can reach the effect of regulating outlet air temperature when evaporator operation.Air channel has two openings, comprises the inner opening relative with evaporimeter, and the outward opening relative with air outlet.The tubular wine wheel of through-flow cabinet air-conditioner is located in air channel usually, forms blast and drive the air in air channel to move from the outside opening of inner opening when tubular wine wheel rotates and between wind path wall, thus forms the wind to air outlet blowout.
Through-flow cabinet air-conditioner is placed on the ground usually, after through-flow cabinet air-conditioner is in place, the axis of its tubular wine wheel usually (allowing positive and negative 10 ° of errors) perpendicular to the ground namely tubular wine wheel is setting up and down; Air outlet is generally the strip of the axis being parallel of length direction and tubular wine wheel.Then the wind institute overlay area of air outlet blowout is length direction strip along the longitudinal, and spreads gradually on air-out direction.And the outline of normal human body when standing is also substantially in length direction strip along the longitudinal, the air-out overlay area of through-flow cabinet air-conditioner above-mentioned as from the foregoing takes up space comparatively identical with the institute of human body when standing, improve the wind area of human body, accelerate the shell temperature changing human body.
The housing entirety of through-flow cabinet air-conditioner can be circular cylindrical shape, semi-cylindrical, rectangular cylindrical or polygon column etc.Usual housing is divided into shell, below shell top cover and bottom above, is column by these component combinations.
Through-flow cabinet air-conditioner can be divided into single through-flow cabinet-type air conditioner, two through-flow cabinet-type air conditioner and many through-flows cabinet-type air conditioner according to the quantity of the quantity in the air channel in it, the quantity of tubular wine wheel and air outlet.Wherein single through-flow cabinet-type air conditioner has an air outlet, an air channel and a tubular wine wheel; Two through-flow cabinet-type air conditioner has two air outlets, two air channels and two tubular wine wheels; In like manner many through-flows cabinet-type air conditioner comprises most air outlets, the air channel of respective amount and the tubular wine wheels of respective amount.
Hereinafter will mention the embodiment of several concrete through-flow cabinet air-conditioner, each embodiment wherein will have a place and improve or many places improvement.Improvement in a certain embodiment, when there is not interference, also can be applicable in other embodiment.
The novel control mainly for through-flow air-conditioning cabinet gate body assembly of this practicality, the control structure of through-flow air-conditioning cabinet gate body assembly has a lot, the present invention lists three kinds of comparatively preferred drive schemes, stablize to make a body assembly, reliably, accurately the mode of mounting design move, the advantage that each scheme is concrete will embody in the embodiment of correspondence.Because the parts related in each scheme are more, making label also more, in order to distinguish the label in three schemes, after the label in the first string, marking " a ", " c " is marked, to show the difference with other scheme label after label in second scheme.Certainly, the unified use of following label that two schemes are all general, can not distinguish: two through-flow cabinet air-conditioner 1, door body assembly 10, first body 11, second body 12, and housing 30, label is not herein distinguished, do not represent the parts that in two schemes, label is corresponding can replace arbitrarily, the architectural feature of each parts and work in order to determine in concrete scheme.
Scheme one, referring to figs. 1 through Fig. 7, this through-flow cabinet air-conditioner 1 comprises a body assembly 10, guider for guiding this body assembly 10 to move, and for supporting the support fixing this guider.Wherein, guider comprises actuator 40a, transmission device 70a, guide, wherein guide comprises guide gear 60a and drives box 50a, guide gear 60a is contained in and drives in box 50a, drive box 50a to be fixedly connected with support, the driving member of door body assembly 10 is connected with guide gear 60a through driving the gathering sill of box 50a.
Door body assembly 10 be arranged in parallel with tubular wine wheel, namely vertically arranges, and Bracket setting is in the inside of housing 30, and support comprises and is arranged on the body assembly 10 top gripper shoe 80a that arranges corresponding to driving member.Actuator 40a drives guide gear 60a by transmission device 70a, guide gear 60a is by driving member driving gate body assembly 10, door body assembly 10 moves along driving the gathering sill of box 50a, the orbiting motion that a body assembly 10 is formed according to the gathering sill of design, is conducive to the reasonability improving the motion of door body assembly 10; When door body assembly 10 moves to the stopping of a certain position, also can lead to the wind blown out from air outlet, namely door body assembly 10 can be used as movable wind-guiding door under certain condition; By the setting to track, can make a body assembly 10 in rotation process, not produce housing 30 all the time, thus avoid the impact of external environment condition opposite house body assembly 10 work, be conducive to a trouble free service for body assembly 10.
Through-flow cabinet air-conditioner 1 can be simple gate or two-door, the through-flow cabinet air-conditioner 1 of the application is introduced below with two-door structure, be understandable that, the structure of simple gate through-flow cabinet air-conditioner 1 adjusts accordingly and can obtain on the basis of the structure of two-door through-flow cabinet air-conditioner 1.In addition, the type of drive of door body assembly 10 has a lot, as the mode such as connecting rod, gear, based on gear drive in the application, to make a motion stabilization for body assembly 10, accurately.
Lower mask body introduces the structure of each parts of through-flow cabinet air-conditioner 1 of the present invention.
The profile of door body assembly 10 is strip arc, its profile is corresponding with the profile of housing 30, the cambered surface of door body assembly 10 caves in towards the direction away from cavity volume, and when door body assembly 10 is closed, door body assembly 10 is positioned on same curved surface with the housing 30 of door body assembly 10 periphery.Driving member is arranged on body assembly 10 two ends, and in the present embodiment, driving member is excellent with guide pillar, and in further embodiments, driving member also can be door pivot.The top of door body assembly 10 is provided with the first guide pillar 13a and the second guide pillar 14a, and the first guide pillar 13a is identical with the length direction of door body assembly 10 with the length direction of the second guide pillar 14a.Certainly, in order to door body assembly 10 can move smoothly, in the bottom of door body assembly 10, corresponding first guide pillar 13a and the second guide pillar 14a is provided with two other guide pillars.It is two-door through-flow cabinet air-conditioner 1 that this through-flow cabinet air-conditioner 1 comprises two door body assemblies.
Actuator 40a, can pass out rotation or oscillating motion drive unit can, be excellent with motor in the present embodiment.The working condition of motor is subject to the control of the control circuit of through-flow cabinet air-conditioner 1.Actuator 40a comprises actuator shell 41a, and actuator shell 41a is provided with hangers 42a, and actuator shell 41a is fixedly connected with driving box 50a by hangers 42a, and connected mode has a lot, excellent to be threaded to.The length direction of actuator 40a rotating shaft is identical with the length direction of door body assembly, the axes normal of the plane that machine shaft rotates and machine shaft, parallel with the plate face of gripper shoe 80a (allowing positive and negative 10 ° of errors).
Drive box 50a to comprise box body 52a and lid 51a, box body 52a comprises base plate 521a and is arranged on the flanging 522a of base plate 521a periphery, flanging 522a perpendicular to base plate 521a plate face and extend along the direction away from plate face.Flanging 522a and base plate 521a surrounds the host cavity of collecting guide gear 60a.The shape of lid 51a and the shape correspondence of base plate 521a, after lid 51a coordinates with box body 52a, deviate from a side for body assembly and block by host cavity.On the lateral wall of host cavity, the sidewall that namely flanging 522a deviates from host cavity side is provided with buckle 525a, the position of the corresponding buckle 525a of lid 51a is provided with button bit 513a, and buckle 525a and button bit 513a coordinates, and lid 51a is fixedly connected with box body 52a.In the present embodiment; by the setting to lid 51a; and make lid 51a by the top shutoff of host cavity; guide gear 60a in host cavity and transmission device 70a is protected; be subject to external environment influence to reduce; be conducive to the steady operation of guide gear 60a and transmission device 70a, be conducive to the stability improving the work of through-flow cabinet air-conditioner 1.
The profile of this box body 52a is kidney-shaped box body 52a, and dodges a 529a being provided with three near the side of tubular wine wheel, dodges as the length direction along box body 52a is arranged for three.Drive box 50a to be fixedly connected with gripper shoe 80a, particularly, drive the base plate 521a of box 50a to deviate from the plate face of host cavity and gripper shoe 80a and deviate from a plate face for body assembly side and fit and fix.On lid 51a, corresponding actuator 40a is provided with actuator via hole 514a, the plate face that actuator 40a and lid 51a deviate from host cavity is fixedly connected with, lid 51a support drive part shell 41a, and be fixedly connected with actuator shell 41a, the corresponding actuator 40a of lid 51a offers the slot 512a limiting actuator 40a.On lid 51a, correspondence is dodged a 529a and is provided with fixed structure 511a, and gripper shoe 80a is provided with fixed leg 81a dodging a 529a place, and fixed leg 81a is corresponding with the fixed structure 511a on lid 51a.Fixed leg 81a in the present embodiment, plate face that is vertical and gripper shoe 80a is arranged, and extend towards the direction away from door body assembly, the length direction along fixed leg 81a offers screwed hole, and fixed structure 511a is threaded with fixed leg 81a.
Because the through-flow cabinet air-conditioner of the application 1 is two-door, so drive the corresponding two fan door body assemblies of box 50a to be respectively arranged with guiding chamber, namely host cavity comprises and first corresponding the first chamber 523a arranged of body 11, and the second chamber 524a corresponding with second body 12.The structure of the first chamber 523a and feature are arranged according to the motion requirement of first body 11, and the structure of the second chamber 524a and feature are then arranged according to the motion requirement of second body 12.When first body 11 is identical with the motion mode of second body 12, first chamber 523a is identical with the architectural feature of the second chamber 524a, in the present embodiment, first body 11 and second body 12 are simultaneously toward the movement of air outlet centre or respectively toward two side direction housing 30 inner rotation of air outlet, namely there is symmetrical plane in the motion of first body 11 and second body 12, therefore, there is symmetrical plane in the first chamber 523a and the second chamber 524a, namely box body 52a and lid 51a all exists the plane of symmetry.Because the first chamber 523a and the second chamber 524a is symmetrical arranged, introduce structure and the feature of the first chamber 523a below, the structure of the second chamber 524a and feature corresponding with the first chamber 523a.
On the base plate 521a of the first chamber 523a, corresponding first guide pillar 13a offers the first gathering sill 526a, and the first guide pillar 13a is partially housed in the first gathering sill 526a, and the first gathering sill 526a limits the movement locus of the first guide pillar 13a; Corresponding second guide pillar 14a offers the second gathering sill 527a, and the second guide pillar 14a is partially housed in the second gathering sill 527a, and the second gathering sill 527a limits the movement locus of the second guide pillar 14a.Particularly, when the first guide pillar 13a and the first gathering sill 526a supports away from one end of the second chamber 524a, when the second guide pillar 14a and the second gathering sill 527a supports away from one end of the second chamber 524a, first body 11 is in open mode; When the first guide pillar 13a and the first gathering sill 526a supports near one end of the second chamber 524a, when the second guide pillar 14a and the second gathering sill 527a supports near one end of the second chamber 524a, first body 11 is in closed condition.
On the base plate 521a of the first chamber 523a, corresponding first guide gear 601a is provided with the first guiding rotating shaft 528a, and the rotating shaft of the first wind guide strip 20a of corresponding through-flow cabinet air-conditioner 1 offers the first via hole 532a, and corresponding transmission device 70a is provided with power transmission shaft.First via hole 532a and power transmission shaft arrange along the length direction of box body 52a, and power transmission shaft is positioned at the position near the second chamber 524a.The position of corresponding first gathering sill 526a and the second gathering sill 527a on gripper shoe 80a, offer groove 82a, the shape and size of groove 82a are corresponding with the shape and size of the first gathering sill 526a and the second gathering sill 527a, the shape being exactly groove 82a is specifically identical with the shape of the second gathering sill 527a with the first gathering sill 526a, the part of corresponding first gathering sill 526a, its flute length and groove width are all greater than the first gathering sill 526a; The part of corresponding second gathering sill 527a, its flute length and groove width are all greater than the second gathering sill 527a.First guide pillar 13a first through the groove 82a on gripper shoe 80a, then stretches in the first gathering sill 526a, and in like manner, the second guide pillar 14a first through the groove 82a on gripper shoe 80a, then stretches in the second gathering sill 527a.
First gathering sill 526a is deep-slotted chip breaker, and the second gathering sill 527a is straight-line groove, the camber line at the first gathering sill 526a place and the straight line intersection at the second gathering sill 527a place.Certainly, in other embodiments, the first gathering sill 526a and the second gathering sill 527a all can be deep-slotted chip breaker, the first gathering sill 526a and the second gathering sill 527a separately place camber line intersect; First gathering sill 526a and the second gathering sill 527a also all can be straight-line groove, the first gathering sill 526a and the second gathering sill 527a straight line intersection at place and not conllinear separately.First gathering sill 526a is vertical with the length direction of tubular wine wheel with the length direction of door body assembly with the face at the second gathering sill 527a place.
In the present embodiment, by the first gathering sill 526a is arranged to deep-slotted chip breaker, second gathering sill 527a is arranged to straight-line groove, make first body 11 in the process opened or closed, carry out the resultant motion of moving and rotating, particularly, under the position-limiting action of the second gathering sill 527a, second guide pillar 14a draws first body 11 and moves linearly, under the position-limiting action of the first gathering sill 526a, first guide pillar 13a draws first body 11 and does camber line and move, and namely draws first body 11 and rotates, and resultant motion so can make first body 11 according to the orbiting motion of design; By designing the shape of different first gathering sill 526a and the second gathering sill 527a particularly, curvilinear equation and linear equation in other words, can realize the movement locus that first body 11 is different, thus meets the different demands of different user; Make a body assembly not stretch out air outlet all the time in the process opened or closed, thus avoid foreign object by motion in door body assembly block, cause damage, be conducive to a job of body component safety; A body assembly is arranged in open or a certain position of door closing procedure time, can lead to the wind of air outlet blowout, be conducive to the control of user to wind direction.
Certainly, in other embodiments, in through-flow cabinet air-conditioner 1 housing 30, wind guide strip 20a can not be set, and carry out wind-guiding by door body assembly, door body assembly now can be made up of some wind deflector unit, and the shape of each wind deflector unit can be similar with the shape of former wind guide strip 20a, and the difference between wind deflector unit and wind guide strip 20a is, a body assembly can be synthesized, by air outlet shutoff when some wind deflector unit are closed.The driving of some wind deflector unit can link, and also can control separately.In the present embodiment, reduce firstly wind guide strip 20a, so the mounting structure of wind guide strip 20a, and drives structure is removed all thereupon; Secondly, the position of wind-guiding is moved to housing 30 most external, make the wind energy of wind-guiding process consumption reach minimum, the wind direction of wind-guiding reaches maximum; Then, wind deflector unit, when wind-guiding, is down to minimum to the wind energy consumption that the stop of wind produces by the wind deflector unit of door body assembly, because blown out housing 30 by the wind stopped to flow to user.
The camber line at the first gathering sill 526a place is circular arc, and the axis of the first guiding rotating shaft 528a passes through the center of circle of this circular arc, the more particularly axis of first axis of guide and the plane orthogonal at circular arc place.
Guide gear 60a comprises the first guide gear 601a corresponding with first body 11, and the second guide gear 602a corresponding with second body 12.Corresponding with the relation between the first chamber 523a and the second chamber 524a, the structure of the first guide gear 601a and feature are arranged according to the motion requirement of first body 11, and the structure of the second guide gear 602a and feature are then arranged according to the motion requirement of second body 12.When first body 11 is identical with the motion mode of second body 12, first guide gear 601a is identical with the architectural feature of the second guide gear 602a, in the present embodiment, first body 11 and second body 12 are simultaneously toward the movement of air outlet centre or respectively toward two side direction housing 30 inner rotation of air outlet, namely there is symmetrical plane in the motion of first body 11 and second body 12, therefore, there is symmetrical plane in the position relationship of the first guide gear 601a and the second guide gear 602a, especially, the plane of symmetry between first guide gear 601a and second guiding, 602 gears, overlap with the plane of symmetry between the first chamber 523a and the second chamber 524a.
First guide gear 601a has the first guiding axis hole 67a, and the first guiding axis hole 67a and first on the first chamber 523a base plate 521a rotating shaft 528a that leads coordinates, and the first guide gear 601a rotates for axle with the first rotating shaft 528a that leads.First guide gear 601a planar rotates, and its plane of rotating is arranged with door body assembly is vertical with tubular wine wheel.Because the first guide gear 601a and the second guide gear 602a is symmetrical arranged, introduce structure and the feature of the first guide gear 601a below.
First guide gear 601a comprises rotation section 61a, the drive division 62a be fixedly connected with rotation section 61a and guide part.Wherein, rotation section 61a is segment, first guiding axis hole 67a is arranged on the circle centre position at 61a circular arc place, rotation section, first guiding axis hole 67a extends along the thickness direction of rotation section 61a, run through rotation section 61a, first guiding axis hole 67a and first lead rotating shaft 528a loose fit, and rotation section 61a can be led rotating shaft 528a rotation around first.
Guide part is arranged on the edge of rotation section 61a curved portions, comprises the first guide part 63a corresponding with the first guide pillar 13a, and the second guide part 64a corresponding with the second guide pillar 14a.Reinforcement 68a is provided with, in order to increase the intensity of the first guide part 63a and the second guide part 64a between first guide part 63a and the second guide part 64a and rotation section 61a.First guide part 63a offers the 3rd gathering sill 65a, 3rd gathering sill 65a is straight-line groove, the straight line at its length direction place is through the center of circle of the first guiding axis hole 67a, first guide pillar 13a is partially housed in the 3rd gathering sill 65a, first guide part 63a rotates along with the rotation of rotation section 61a, in rotation process, the cell wall of the 3rd gathering sill 65a abuts with the first guide pillar 13a, drive the first guide pillar 13a to move in the first gathering sill 526a, the first guide pillar 13a also does radial motion in the 3rd gathering sill 65a simultaneously.In like manner, second guide part 64a offers the 4th gathering sill 66a, 4th gathering sill 66a is straight-line groove, the straight line at its length direction place is through the center of circle of the first guiding axis hole 67a, second guide pillar 14a is partially housed in the 4th gathering sill 66a, second guide part 64a rotates along with the rotation of rotation section 61a, in rotation process, the cell wall of the 4th gathering sill 66a abuts with the second guide pillar 14a, drive the second guide pillar 14a to move in the second gathering sill 527a, the second guide pillar 14a also does radial motion in the 4th gathering sill 66a simultaneously.
Drive division 62a is arranged on the edge of rotation section 61a arch section, and drive division 62a comprises driving gear, and driving gear is along the arrangement of rotation section 61a arc edge, and the tooth root of driving gear is connected with rotation section 61a, and top extends towards the direction away from rotation section 61a.In the present embodiment, driving gear is straight-tooth, also can be helical teeth certainly in certain embodiments.The side of drive division 62a is connected with guide part.
Certainly, in certain embodiments, rotation section 61a, drive division 62a and guide part can be wholely set.
Drive division 62a coordinates with transmission device 70a, and under the effect of drive division 62a, rotation section 61a is with the first guiding rotating shaft 528a for axle rotates, and the first guide part 63a and the second guide part 64a rotates with the rotation of rotation section 61a; Now, first guide pillar 13a accommodates in the first gathering sill 526a and the 3rd gathering sill 65a simultaneously, the cell wall of the 3rd gathering sill 65a extrudes the cylinder of the first guide pillar 13a, and the first guide pillar 13a moves in the first gathering sill 526a, drives first body 11 to do movement along the first gathering sill 526a track; Second guide pillar 14a accommodates in the second gathering sill 527a and the 4th gathering sill 66a simultaneously, the cell wall of the 4th gathering sill 66a extrudes the cylinder of the second guide pillar 14a, second guide pillar 14a moves in the second gathering sill 527a, first body 11 is driven to do movement along the second gathering sill 527a track, in this, first body 11, under the effect of the first guide pillar 13a and the second guide pillar 14a, does the resultant motion along the first gathering sill 526a track and the second gathering sill 527a track.In like manner, second body 12 does the motion corresponding with first body 11.
In the present embodiment, by the setting of guide gear 60a, the driving of actuator 40a is made to be able to stable be passed to a body assembly, guide gear 60a is while driving gate body assembly, coordinated with the first guide pillar 13a and the second guide pillar 14a respectively by the 3rd gathering sill 65a of the first guide part 63a and the 4th gathering sill 66a of the second guide part 64a, make the first guide part 63a drive the process of the first guide pillar 13a, and the second guide part 64a drive the process of the second guide pillar 14a to produce interference; In addition, the length of the 3rd gathering sill 65a defines the stroke of the first guide pillar 13a, namely when one end of the first guide pillar 13a and the 3rd gathering sill 65a is supported, then can not advance to this end, in like manner the length of the 4th gathering sill 66a also defines the stroke of the second guide pillar 14a again.
Through-flow cabinet air-conditioner 1 also comprises wind guide strip 20a and drives the drive motors of wind guide strip 20a.In the present embodiment, be provided with the first wind guide strip, the second wind guide strip, the 3rd wind guide strip and the 4th wind guide strip for four wind guide strip 20a.Four wind guide strip 20a be arranged in parallel, all be arranged in parallel with first body 11 and second body 12.Wherein, the first wind guide strip and corresponding first body 11 of the second wind guide strip are arranged, and the two links mutually, and the rotating shaft of the first wind guide strip is connected with drive motors; 3rd wind guide strip and corresponding second body 12 of the 4th wind guide strip are arranged, and the two interlock, the rotating shaft of the 3rd wind guide strip is connected with drive motors.Drive the drive motors of the first wind guide strip and the 3rd wind guide strip to be all arranged on the lid 51a of driving box 50a respectively, be arranged on the both sides of the actuator 40a for driving gate body assembly.Therefore the base plate 521a from gripper shoe 80a to driving box 50a, on guide gear 60a, then is provided with and corresponding with wind guide strip rotating shaft 21a dodges space to lid 51a.Certainly, because the height of through-flow cabinet air-conditioner 1 is higher, in order to make the control of wind guide strip 20a more in time, accurately, 8 can be arranged with wind guide strip 20a, first body 11 and each corresponding four of second body 12, the drive motors of four wind guide strip 20a is arranged on lid 51a above, below the drive motors of four wind guide strip 20a set out tuyere bottom.
The present embodiment still for the first guide gear 601a, on the first guide gear 601a, in order to dodge the first wind guide strip rotating shaft 21a to dodge space be escape groove 69a, escape groove 69a is that circular arc device is arranged.Escape groove 69a is opened between rotation section 61a and drive division 62a, and/or between rotation section 61a and fixed part, its position is arranged according to the position of the first gathering sill 526a and the second gathering sill 527a, with the process making the first guide gear 601a drive first body 11, do not interfere with the rotation process of the first wind guide strip 20a.The center of circle of the circular arc at this escape groove 69a place overlaps with first center of circle of leading axis hole 67a, namely be arranged in parallel with the circular arc of the circular arc portion of rotation section 61a.First wind guide strip rotating shaft 21a, through gripper shoe 80a and the base plate 521a driving box 50a, is then connected with drive motors through escape groove 69a.When the first guide gear 601a rotates under the effect of drive division 62a, first wind guide strip 20a only rotates, in order to dodge the first guide gear 601a and the first wind guide strip 20a interferes, the shape and size of escape groove 69a must be arranged with the stroke correspondence of the first guide gear 601a, certainly, the length of escape groove 69a is greater than the rotational travel of the first guide gear 601a.Certainly, the adapter sleeve for connecting the two can be set between the first wind guide strip rotating shaft 21a and machine shaft.
In the present embodiment, by offering escape groove 69a on the first gathering sill 526a, first wind guide strip rotating shaft 21a can be directly connected with drive motors through the first gathering sill 526a, thus realize wind guide strip 20a drive and door body Component driver be crisscross arranged, be conducive to the structure simplifying door body Component driver and wind guide strip 20a driving, make structure compacter, save installing space, be conducive to the layout optimizing through-flow cabinet air-conditioner 1 internal drive feature, be conducive to the reliability improving the driving of door body assembly and the driving of wind guide strip 20a.
Transmission device 70a, for by the energy transferring of actuator 40a to guide, one actuator 40a can drive two guides by transmission device 70a simultaneously, door body assembly fanned respectively by two guides with two corresponding, namely by the setting of transmission device 70a, the opening and closing that an actuator 40a drives two fan door body assemblies simultaneously can be realized.
Particularly, transmission device 70a comprises and the first travelling gear 71a and the second travelling gear 72a of coordinating with this first travelling gear 71a.Gearratio between first travelling gear 71a and the second travelling gear 72a is determined according to the movement relation between first body 11 and second body 12, certainly, in certain embodiments, if arrange two actuator 40a, just can not limit the transitive relation between the first travelling gear 71a and the second travelling gear 72a, only need to arrange the drive connection of two actuator 40a respectively and between the first travelling gear 71a and the second travelling gear 72a.Wherein, the first travelling gear 71a and the second travelling gear 72a is spur gear.
The position of corresponding first travelling gear 71a on the base plate 521a driving box 50a, be provided with the first power transmission shaft 530a, the first power transmission shaft 530a is arranged perpendicular to base plate 521a, and extends towards the direction away from base plate 521a.First travelling gear 71a is set on the first power transmission shaft 530a.In like manner, the position of corresponding first travelling gear 71a is provided with second driving shaft 531a, and the second travelling gear 72a is sheathed on second driving shaft 531a.Actuator 40a is connected with the first travelling gear 71a, and now, on lid 51a, the position of corresponding first power transmission shaft 530a offers the via hole 514a for passing through for the rotating shaft of actuator 40a.
The drive division 62a of the first travelling gear 71a and the first guide gear 601a is adaptive, and the drive division 62a of the second travelling gear 72a and the second guide gear 602a is adaptive.The situation that the first travelling gear 71a is identical with the second travelling gear 72a structure is only introduced in the present embodiment, now, the gearratio of the first travelling gear 71a and the second travelling gear 72a is associated according to the moving displacement of first body 11 and second body 12 and movement velocity.Because the first travelling gear 71a and the second travelling gear 72a links, so the first travelling gear 71a is identical with the time that the second travelling gear 72a works.
When the first guide gear 601a, the first travelling gear 71a, the second travelling gear 72a and the second guide gear 602a are interconnected, any one only in needs above-mentioned four gears of actuator 40a driving can drive above-mentioned four gears simultaneously.Because first body 11 and second body 12 are symmetrical arranged, in order to the motion realizing first body 11 and second body 12 is also symmetrical arranged, by the gearratio between the first travelling gear 71a and the first guide gear 601a, be set to equal with the gearratio between the second travelling gear 72a with the second guide gear 602a.
First guide gear 601a, the second guide gear 602a, transmission between the first travelling gear 71a and the second travelling gear 72a are positioned at same plane, and plane is arranged with door body assembly is vertical with the tubular wine wheel of cabinet air-conditioner.
In the present embodiment, arranged by the interlock of the first travelling gear 71a and the second travelling gear 72a, make only to need an actuator 40a just can drive the first guide gear 601a and the second guide gear 602a simultaneously, thus drive first body 11 and second body 12 simultaneously, simplify a structure for body Component driver, decrease a parts for body Component driver, be conducive to saving manufacturing cost; Owing to adopting gear drive, make the driving of actuator 40a can stablize, be transmitted efficiently, be conducive to the precision and stability improving the control of door body assembly; Be easy to handling, be convenient to safeguard and change parts.
Through-flow cabinet air-conditioner 1 has two fan door body assemblies, two air outlets, two air channels and two tubular wine wheels, and be two through-flow cabinet air-conditioner 1, wherein, two tubular wine wheels be arranged in parallel, and two air channels are symmetrical arranged.Tubular wine wheel, an air channel and an air outlet are corresponding with Yishanmen body assembly.Wherein, air channel is surrounded by the spiral case assembly of through-flow cabinet air-conditioner 1 and housing 30, and the door body assembly in the present embodiment is after opening also as the sidewall in air channel.Especially, in the present embodiment, two air channels be arranged in parallel near the part of air outlet, and the wind namely through heat exchange blows to wind guide strip 20a from two air outlets are parallel.In the present embodiment, by arranging two tubular wine wheels, the air output of through-flow cabinet air-conditioner 1 is increased, by being be arranged in parallel in two air channels, make the air-supply of two through-flow cabinet air-conditioner more steady, noise is less.
Scheme two: with reference to Fig. 8 to Figure 14, this through-flow cabinet air-conditioner 1 comprises a body assembly 10, for driving the guider of leading the motion of this body assembly 10, and for supporting the support fixing this guider.Wherein, guider comprises actuator 40c, guide, wherein guide comprises driven wheel 60c and guiding tooth bar 70c, and for installing the tooth bar box 50c of guiding tooth bar 70c, with the pinion stand 90c for installing driven wheel 60c, driven wheel 60c and guiding tooth bar 70c is all contained in tooth bar box 50c, and tooth bar box 50c is fixedly connected with support, and the groove that the driving member of door body assembly 10 passes tooth bar box 50c is connected with driven wheel 60c.Actuator 40c drives driven wheel 60c, driven wheel 60c and guiding tooth bar 70c coordinates and moves along guiding tooth bar 70c, to drive the driving member be connected with driven wheel 60c to move, thus the door body assembly 10 be connected with moving member is moved along the tooth bar 70c that leads.
Door body assembly 10 be arranged in parallel with tubular wine wheel, namely vertically arranges, and Bracket setting is in the inside of housing 30, and support comprises and is arranged on the body assembly 10 top gripper shoe 80c that arranges corresponding to driving member.Actuator 40c drives driven wheel 60c by actuator rotating shaft, driven wheel 60c is by driving driving member with driving gate body assembly 10 with coordinating of guiding tooth bar 70c, the orbiting motion that a body assembly 10 is formed according to the gathering sill of design, is conducive to the reasonability improving the motion of door body assembly 10; When door body assembly 10 moves to the stopping of a certain position, also can lead to the wind blown out from air outlet, namely door body assembly 10 can be used as movable wind-guiding door under certain condition; By the setting to track, can make a body assembly 10 in rotation process, all the time housing 30 is not produced, thus avoid the impact of external environment condition opposite house body assembly 10 work, be conducive to a trouble free service for body assembly 10, meanwhile, too increase the mode of through-flow cabinet air-conditioner driving gate body assembly, make a driving of body assembly more reliable and more stable, more accurately.
Through-flow cabinet air-conditioner 1 can be simple gate or two-door, the through-flow cabinet air-conditioner 1 of the application is introduced below with two-door structure, be understandable that, the structure of simple gate through-flow cabinet air-conditioner 1 adjusts accordingly and can obtain on the basis of the structure of two-door through-flow cabinet air-conditioner 1.In addition, the type of drive of door body assembly 10 has a lot, as the mode such as connecting rod, gear, coordinates drive in the application based on gear and tooth bar, to make a motion stabilization for body assembly 10, accurately.
Lower mask body introduces the structure of each parts of through-flow cabinet air-conditioner 1 of the present invention.
The profile of door body assembly 10 is strip arc, its profile is corresponding with the profile of housing 30, the cambered surface of door body assembly 10 caves in towards the direction away from cavity volume, and when door body assembly 10 is closed, door body assembly 10 is positioned on same curved surface with the housing 30 of door body assembly 10 periphery.Driving member is arranged on body assembly 10 two ends, and in the present embodiment, driving member is excellent with guide pillar, and in further embodiments, driving member also can be door pivot.The top of door body assembly 10 is provided with the first guide pillar 13c and the second guide pillar 14c, and the first guide pillar 13c is identical with the length direction of door body assembly 10 with the length direction of the second guide pillar 14c.Certainly, in order to door body assembly 10 can move smoothly, in the bottom of door body assembly 10, corresponding first guide pillar 13c and the second guide pillar 14c is provided with two other guide pillars.It is two-door through-flow cabinet air-conditioner 1 that this through-flow cabinet air-conditioner 1 comprises two door body assemblies.
Actuator 40c, can pass out rotation or oscillating motion drive unit can, be excellent to comprise motor in the present embodiment.The working condition of motor is subject to the control of the control circuit of through-flow cabinet air-conditioner 1.Actuator 40c comprises base 43c, actuator shell 41c, and actuator shell 41c is provided with hangers 42c, and actuator shell 41c is fixedly connected with base 43c by hangers 42c, and hangers 42c and base 43c connected mode have a lot, excellent to be threaded to.The length direction of actuator 40c rotating shaft is identical with the length direction of door body assembly, the plane of actuator 40c axis of rotation and the axes normal of machine shaft, parallel with the plate face of gripper shoe 80c (allowing positive and negative 10 ° of errors).Base 43c comprises the substrate 431c for carrying actuator shell 41c, being provided with the second fixed part 432c for fixing base 431c, substrate 431c also offering the via hole 433c of the rotating shaft for dodging actuator 40c at the two ends of substrate 431c.
Gripper shoe 80c overall U-shaped is arranged, and the first side 81c correspondence of U-shaped is provided with the driving guide frame for driving first body 11, and shape and the architectural feature of the first side 81c are corresponding with the motion mode of first body 11; The driving guide frame of corresponding second body 12 of the second side 82c, shape and the architectural feature of the second side 82c are corresponding with the motion mode of second body 12.When first body 11 is identical with the motion mode of second body 12, the first side 81c is identical with the architectural feature of the second side 82c.In the present embodiment, first body 11 and second body 12 are simultaneously toward the movement of air outlet centre or respectively toward two side direction housing 30 inner rotation of air outlet, namely there is symmetrical plane in the motion of first body 11 and second body 12, therefore, there is symmetrical plane in the first side 81c and the second side 82c, namely gripper shoe 80c exists the plane of symmetry.Because the first side 81c and the second side 82c is symmetrical arranged, introduce structure and the feature of the first side 81c below, the structure of the second side 82c and feature corresponding with the first side 81c.
The housing of side and cabinet air-conditioner that gripper shoe 80c is provided with curved edge is connected, gripper shoe is provided with flanging 83c away from the edge of housing side, the plate that flanging 83c deviates from gripper shoe 80c faces the side extension being provided with guiding tooth bar 70c, in the present embodiment, upwards extend perpendicular to gripper shoe 80c.By the setting of flanging 83c, the driving guide frame be arranged on gripper shoe 80c can be made not easily to depart from gripper shoe 80c, thus make the structure on gripper shoe 80c more reliable and more stable.
On the first side 81c of gripper shoe 80c, corresponding first guide pillar 13c offers the first gathering sill 84c, and the first gathering sill 84c limits the movement locus of the first guide pillar 13c; Corresponding second guide pillar 14c offers the second gathering sill 85c, and the second guide pillar 14c is partially housed in the second gathering sill 85c, and the second gathering sill 85c limits the movement locus of the second guide pillar 14c.Particularly, when the first guide pillar 13c and the first gathering sill 84c supports away from one end of housing 30, when the second guide pillar 14c and the second gathering sill 85c supports away from one end of the first gathering sill 84c, first body 11 is in open mode; When the first guide pillar 13c and the first gathering sill 84c supports near one end of housing 30, when the second guide pillar 14c and the second gathering sill 85c supports away from one end of the first gathering sill 84c, first body 11 is in closed condition.
First gathering sill 84c is deep-slotted chip breaker, and the second gathering sill 85c is straight-line groove, the camber line at the first gathering sill 84c place and the straight line intersection at the second gathering sill 85c place.Certainly, in other embodiments, the first gathering sill 84c and the second gathering sill 85c all can be deep-slotted chip breaker, the first gathering sill 84c and the second gathering sill 85c separately place camber line intersect; First gathering sill 84c and the second gathering sill 85c also all can be straight-line groove, the first gathering sill 84c and the second gathering sill 85c straight line intersection at place and not conllinear separately.First gathering sill 84c is vertical with the length direction of tubular wine wheel with the length direction of door body assembly with the face at the second gathering sill 85c place.
In the present embodiment, by the first gathering sill 84c is arranged to deep-slotted chip breaker, second gathering sill 85c is arranged to straight-line groove or deep-slotted chip breaker, make first body 11 in the process opened or closed, carry out the resultant motion of moving and rotating, particularly, under the position-limiting action of the second gathering sill 85c, second guide pillar 14c draws first body 11 and does straight line or camber line moves, under the position-limiting action of the first gathering sill 84c, first guide pillar 13c draws first body 11 and does camber line or rectilinear movement, namely draw first body 11 to rotate, resultant motion so can make first body 11 according to the orbiting motion of design, by designing the shape of different first gathering sill 84c and the second gathering sill 85c particularly, curvilinear equation and linear equation in other words, can realize the movement locus that first body 11 is different, thus meets the different demands of different user, make a body assembly not stretch out air outlet all the time in the process opened or closed, thus avoid foreign object by motion in door body assembly block, cause damage, be conducive to a job of body component safety, a body assembly is arranged in open or a certain position of door closing procedure time, can lead to the wind of air outlet blowout, be conducive to the control of user to wind direction.
Certainly, in other embodiments, in through-flow cabinet air-conditioner 1 housing 30, can not wind guide strip be set, and carry out wind-guiding by door body assembly, door body assembly 10 now can be made up of some wind deflector unit, and the shape of each wind deflector unit can be similar with the shape of former wind guide strip, and the difference between wind deflector unit and wind guide strip is, a body assembly can be synthesized, by air outlet shutoff when some wind deflector unit are closed.The driving of some wind deflector unit can link, and also can control separately.Now moving integrally of a body assembly can be set equally, when needs deflection air-supply, each wind deflector unit is regulated to deflect, when not needing deflection air-supply, door body component integration can be removed, wind directly can be blown out from air outlet, not by the stop of air ducting, be conducive to the air-supply efficiency improving wind.In the present embodiment, reduce firstly wind guide strip, so the mounting structure of wind guide strip, and drives structure is removed all thereupon; Secondly, the position of wind-guiding is moved to housing 30 most external, make the wind energy of wind-guiding process consumption reach minimum, the wind direction of wind-guiding reaches maximum; Then, wind deflector unit, when wind-guiding, is down to minimum to the wind energy consumption that the stop of wind produces by the wind deflector unit of door body assembly, because blown out housing 30 by the wind stopped to flow to user.
Driven wheel 60c comprises first driven wheel corresponding with first body 11, and second driven wheel corresponding with second body 12.Corresponding with the relation between the first side 81c and the second side 82c, when first body 11 is identical with the motion mode of second body 12, first driven wheel is identical with the architectural feature of the second driven wheel, in the present embodiment, first body 11 and second body 12 are simultaneously toward the movement of air outlet centre or respectively toward two side direction housing 30 inner rotation of air outlet, namely there is symmetrical plane in the motion of first body 11 and second body 12, therefore, there is symmetrical plane in the position relationship of the first driven wheel and the second driven wheel, especially, the plane of symmetry between first driven wheel and the second guide gear, overlap with the plane of symmetry between the first side 81c and the second side 82c.
First driven wheel has the first drive shaft hole 63c, and the first drive shaft hole 63c coordinates with the rotating shaft of actuator 40c, and the first driven wheel is along with the axis of rotation of actuator 40c.First driven wheel planar rotates, and its plane of rotating is arranged with door body assembly is vertical with tubular wine wheel.Because the first driven wheel and the second driven wheel are symmetrical arranged, introduce structure and the feature of the first driven wheel below.
First driven wheel is spur gear wheel, the drive division 62c comprise rotation section 61c, being fixedly connected with rotation section 61c.Wherein, rotation section 61c is cylinder, the axis of the first drive shaft hole 63c and the dead in line of rotation section 61c, first drive shaft hole 63c runs through rotation section 61c, the rotating shaft tight fit of the first drive shaft hole 63c and actuator 40c, makes rotation section 61c can rotate together along with the rotating shaft of actuator 40c.Drive division 62c is arranged on the edge of rotation section 61c, and drive division 62c comprises driving gear, and driving gear arranges along the sidewall of rotation section 61c, and the tooth root of driving gear is connected with rotation section 61c, and top extends towards the direction away from rotation section 61c.In the present embodiment, driving gear is straight-tooth, also can be helical teeth certainly in certain embodiments.
The connecting portion 92c that pinion stand 90c comprises support portion 91c, is fixedly connected with support portion 91c, and the first fixed part 93c be fixedly connected with connecting portion 92c.Wherein, support portion 91c contacts with the gripper shoe 80c of the first gathering sill 84c periphery, and driven wheel 60c is arranged on connecting portion 92c.
Particularly, connecting portion 92c is the connecting plate of strip, connecting portion the two ends on the plate face of actuator 40c are provided with two first fixed part 93c, first fixed part 93c is arranged to joint pin, support portion 91c is arranged on the sidewall of the first fixed part 93c, and support portion 91c extends connecting portion 92c, when making pinion stand 90c be arranged at the first gathering sill 84c, support portion 91c can contact with the gripper shoe 80c of the first gathering sill 84c periphery, allows gripper shoe 80c support teeth wheel seat 90c.Connecting portion 92c offers through hole 94c, and the first guide pillar 13c can be connected with the first driven wheel through through hole 94c.First fixed part 93c is corresponding with the second fixed part 432c of base 43c, and the two is fixedly connected with by screw.
Tooth bar box 50c comprises box body 52c and lid 51c, and box body 52c comprises base plate 521c and is arranged on the flanging 522c of base plate 521c periphery, flanging 522c perpendicular to base plate 521c plate face and extend along the direction away from plate face.Guiding tooth bar 70c is arranged on the madial wall of box body, and the length direction namely along flanging 522c is arranged.Lid 51c is connected with the lateral wall of box body 52c, and driven wheel 60c is contained in the space that lid 51c and box body 52c surrounds.The first groove 524c offered by corresponding first gathering sill 83 in bottom of box body 52c, on lid 51c, corresponding first groove 524c offers the second groove 511c, first guide pillar 13c is connected with driven wheel 60c through the first groove 524c, and the rotating shaft of actuator 40c is connected with driven wheel 60c through the second groove 511c.On lid 51c, the position of corresponding actuator 40c is provided with backplate 20c, and backplate 20c is arranged along the length direction of the second groove 511c.By the setting of backplate 20c, the interference making actuator 40c receive external environment weakens, and is conducive to the work that actuator 40c is stable.
Particularly, flanging 522c and base plate 521c surrounds the host cavity of collecting guiding tooth bar 70c.The shape of lid 51c and the shape correspondence of base plate 521c, after lid 51c coordinates with box body 52c, the bayonet socket 512c on lid 51c sidewall coordinates with the buckle 523c on box body 52c lateral wall, and lid 51c is fixedly connected with box body 52c.On lid 51c, the two ends of corresponding second groove 511c are provided with fixed structure 513c, on gripper shoe 80c, the position of corresponding fixed structure 513c is provided with fixed leg 86c, fixed structure 513c is fixedly connected with by screw with fixed leg 86c, to make lid 51c1 be fixedly connected with gripper shoe 80c, even if box body 50 is fixedly connected with gripper shoe 80c.
First groove 524c is opened on the base plate 521c of box body 52c, the all corresponding first gathering sill 84c of shape and size of the first groove 524c and the second groove 511c is arranged, first groove 524c is identical with the shape of the first gathering sill 84c with the shape of the second groove 511c specifically, the flute length of the first groove 524c and the second groove 511c is all slightly larger than the flute length of the first gathering sill 84c, and the groove width of the first groove 524c and the second groove 511c is all slightly larger than the groove width of the first gathering sill 84c.First guide pillar 13c first by the first gathering sill 84c, then is connected with driven wheel 60c through the first groove 524c.
In the present embodiment; by the setting to lid 51c; and make lid 51c by the top shutoff of host cavity; driven wheel 60c in host cavity and guiding tooth bar 70c is protected; be subject to external environment influence to reduce; be conducive to the steady operation of driven wheel 60c and guiding tooth bar 70c, be conducive to the stability improving the work of through-flow cabinet air-conditioner 1.
Should be noted that; the technical scheme of each embodiment of the present invention can be combined with each other; but must be can be embodied as basis with those skilled in the art; when technical scheme combination occur conflicting maybe cannot realize time will be understood that the combination of this technical scheme does not exist, also not within the protection domain of application claims.
The foregoing is only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every equivalent structure transformation utilizing description of the present invention 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 invention.

Claims (12)

1. a through-flow cabinet air-conditioner, it is characterized in that, comprise housing, be installed on tubular wine wheel assembly in described housing and heat-exchanging component, described housing is formed with the air outlet vertically arranged, the guider being provided with a body assembly, wind guiding component in described air outlet and being installed in described housing, the guide that described guider comprises actuator and is connected with described actuator; Described guide drives described door body assembly horizontal direction in described air outlet to rotate and moves linearly simultaneously under the driving of described actuator, with realize air outlet open with closed while do not stretch out outside described air outlet.
2. through-flow cabinet air-conditioner as claimed in claim 1, is characterized in that, described guide comprises for driving the guide gear of described door body assembly and driving box, and described driving box offers gathering sill, and described door body moves along described gathering sill.
3. through-flow cabinet air-conditioner as claimed in claim 2, it is characterized in that, described gathering sill comprises the first gathering sill and the second gathering sill; On described door body, corresponding described first gathering sill is provided with the first guide pillar, and described first guide pillar is installed in described first gathering sill, and corresponding described second gathering sill is provided with the second guide pillar, and described second guide pillar is installed in described second gathering sill;
On described guide gear, corresponding described first guide pillar is formed with the 3rd gathering sill, and corresponding described second guide pillar is formed with the 4th gathering sill; Described first guide pillar is connected with described guide gear by described 3rd gathering sill, and described second guide pillar is connected with described guide gear by described 4th gathering sill.
4. through-flow cabinet air-conditioner as claimed in claim 1, is characterized in that, the guiding tooth bar that described guide comprises driven wheel, coordinates with described driven wheel, and connector; Described connector connects described door body and described driven wheel, and described driven wheel is connected with described actuator; Described door body moves along the gear teeth arragement direction of described tooth bar in the effect of described driven wheel.
5. through-flow cabinet air-conditioner as claimed in claim 1, it is characterized in that, described cabinet air-conditioner comprises two described door bodies, two described guides, and two transmission devices, described transmission device is connected with described actuator, the driving of described actuator is passed to two described guides by two described transmission devices respectively, and guide described in two drives door body described in two respectively.
6. through-flow cabinet air-conditioner as claimed in claim 1, is characterized in that, also comprise and being located at for supporting the gripper shoe of described cabinet air-conditioner guider in described housing, described gripper shoe is installed on the position of described housing near described air outlet.
7. through-flow cabinet air-conditioner as claimed in claim 6, it is characterized in that, described gripper shoe is fixedly installed in described housing.
8. through-flow cabinet air-conditioner as claimed in claim 6, is characterized in that, described gripper shoe and described housing is one-body molded makes.
9. through-flow cabinet air-conditioner as claimed in claim 1, it is characterized in that, also comprise the second drive unit be installed in described housing, described second drive unit drives described wind guiding component horizontal direction in described air outlet to rotate, to realize the adjustment to the distinguished and admirable horizontal direction through described air outlet.
10. through-flow cabinet air-conditioner as claimed in claim 1, is characterized in that, described housing comprises the top cover and the front panel be located between described base and described top cover and rear board that base and described base be oppositely arranged, and described air outlet is located on described front panel.
11. through-flow cabinet air-conditioners as claimed in claim 1, is characterized in that, described tubular wine wheel assembly comprises spiral case assembly and is installed on the tubular wine wheel in described spiral case assembly, and described tubular wine wheel is vertically arranged.
12. through-flow cabinet air-conditioners as claimed in claim 11, it is characterized in that, the quantity of described tubular wine wheel is two, and tubular wine wheel described in two is set in parallel in described spiral case assembly, and tubular wine wheel described in described spiral case assembly corresponding with the housing of described cabinet air-conditioner two forms two through-flow air channel structure.
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