CN219325714U - Narrow wind gap steering linkage structure - Google Patents
Narrow wind gap steering linkage structure Download PDFInfo
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- CN219325714U CN219325714U CN202320338830.XU CN202320338830U CN219325714U CN 219325714 U CN219325714 U CN 219325714U CN 202320338830 U CN202320338830 U CN 202320338830U CN 219325714 U CN219325714 U CN 219325714U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
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Abstract
The utility model discloses a narrow air port direction-regulating linkage structure which comprises an air port shell, wherein one end of the air port shell is provided with an air inlet used for being connected with an air inlet component, the other end of the air port shell is provided with an air outlet used for air outlet, a horizontal blade is arranged in the air port shell, the horizontal blade is rotationally connected with the air port shell and driven by a motor, the horizontal blade comprises an upper blade and a lower blade, the upper blade is arranged at the air outlet, and the lower blade is arranged at one side close to the air inlet. Through set up horizontally last blade and lower blade in the wind gap casing, two horizontal blades simultaneously through motor drive regulation wind direction of wind-guiding, go up blade and lower blade and can reverse the setting after adjusting, go up blade down, send out wind up after the inside downside of wind gap casing forms the wind channel, reverse then will be down wind after the wind gap casing upside forms the wind channel, wind guiding effect is better after forming the wind channel, can obviously adjust the direction of blowing after the regulation.
Description
Technical Field
The utility model relates to the field of automobile accessories, in particular to a narrow air port direction-regulating linkage structure.
Background
In the process of continuously advancing automobile production and manufacture, automobiles become a common riding tool for people, functions in an automobile cabin are continuously perfected, high air temperature in summer can enable the closed cabin to be hot and uncomfortable, low air temperature in winter can enable personnel in the cabin to experience poorly, and therefore an air conditioner is usually arranged in the existing automobile cabin to adjust the temperature in the automobile.
However, along with the continuous iterative upgrade of automobile products, the external structure and the internal structure of the automobile are changed, especially the structure in the cabin is also in more and more diversified design, and in many vehicles, in order to pursue conciseness and integration, a part of small space is utilized to set a small air conditioner air outlet with a narrower air outlet, but the small air conditioner air outlet in the prior art is small in air outlet, so that the function of adjusting the air direction is not set generally or the air guiding effect is poor, and the direct blowing of the air outlet can reduce the vehicle experience of partial passengers.
Disclosure of Invention
For solving small-size air conditioner air outlet under the prior art because the air outlet is little, so do not set up the function of adjusting the wind direction generally or the wind-guiding effect is poor, the air outlet directly blows the problem that can reduce the car of partial personnel of taking and experience, this application provides a narrow wind gap and transfers to interlock structure, and concrete scheme is as follows.
The utility model provides a narrow wind gap steering linkage structure, includes the wind gap casing, wind gap casing one end is opened there is the air intake that is used for being connected with the air inlet part, and the other end is equipped with the air outlet that is used for the air-out, be equipped with horizontal blade in the wind gap casing, horizontal blade rotates with the wind gap casing to be connected and by motor drive, horizontal blade includes blade and lower blade, it sets up in air outlet department to go up the blade, lower blade sets up in the one side that is close to the air intake.
Through adopting above-mentioned technical scheme, through set up horizontally last blade and lower blade in the wind gap casing, two horizontal blades simultaneously through motor drive regulation wind direction of wind-guiding, go up blade and lower blade and can reverse the setting after adjusting, go up blade down, wind is sent out wind up after the inside downside of wind gap casing forms the wind channel, go up blade and lower blade reverse then will wind downwards after wind gap casing upside forms the wind channel, wind guiding effect is better after forming the wind channel, can obviously adjust the direction of blowing after adjusting.
Optionally, the upper blade is equipped with the crank with upper blade fixed connection after stretching out the wind gap casing, be equipped with the swing arm with lower blade fixed connection after stretching out the wind gap casing down, it has the sliding tray to open on the crank, be equipped with the linkage piece on the swing arm, linkage piece sliding connection is in the curved sliding tray, the linkage piece slides along the sliding tray.
Through adopting above-mentioned technical scheme, when last blade rotates, the crank rotates along with last blade together, can drive the linkage piece motion of embedding in the crank when crank rotates, the sliding tray then provides the space for the motion of linkage piece, the rocking arm is being driven when the linkage piece motion and is rotating, thereby link motion has been formed, when last blade clockwise rotation, then down the anticlockwise rotation of blade, also can drive the rotation that the reverse was done to last blade when the blade rotates down on the contrary, and can form the wind-guiding wind channel just after the reverse motion, only need drive one of them blade when consequently driving horizontal blade, both can also keep synchronous motion in order to form the wind channel, the air guiding effect is improved when reduce cost.
Optionally, the air outlet shell is close to the air outlet and is provided with an air guide inclined plane, and the air guide inclined plane inclines towards the air outlet from one side far away from the air outlet.
Through adopting above-mentioned technical scheme, the slope of wind-guiding inclined plane towards the air outlet, the slope of wind-guiding can cooperate the oblique angle of cutting of last blade to same angle will wind out, thereby can cooperate the blade to lead out wind when the wind-guiding, improve the wind-guiding performance.
Optionally, the upper and lower both sides of air outlet all are equipped with the wind-guiding inclined plane that inclines towards the air outlet.
By adopting the technical scheme, the wind guiding inclined planes on the upper side and the lower side can be matched with the inclined cutting angles of the upper blades, so that the upper blades can lead wind out along the wind guiding inclined planes when the upper blades are used for discharging wind downwards, and the wind guiding performance is further improved.
Optionally, still be equipped with vertical blade in the wind gap casing, vertical blade rotates with the wind gap casing to be connected, vertical blade sets up in the one side that is close to the air outlet and by motor drive.
Through adopting above-mentioned technical scheme, set up vertical blade and also by motor drive in the wind gap casing, the direction of adjustable wind gap horizontal air-out provides more regulation selections for the passenger, further reduces the condition that the air conditioner directly blows and causes the passenger uncomfortable.
Optionally, the vertical blade is provided with a plurality of, a plurality of be equipped with the gangbar between the vertical blade, the gangbar drives a plurality of vertical blade synchronous motion.
Through adopting above-mentioned technical scheme, a plurality of perpendicular blades form perpendicular blade group through the gangbar, carry out the wind-guiding simultaneously, and can adjust all perpendicular blades simultaneously through the gangbar for perpendicular blade synchronous motion, thereby further improve the wind-guiding effect.
Optionally, a socket for connecting the motor shaft is formed at the bottom of one of the vertical blades, and a socket is formed on the tuyere shell corresponding to the socket.
Through adopting above-mentioned technical scheme, the pivot of motor passes the interface, can pass through spliced groove and perpendicular blade fixed connection, and the motor only needs this blade of drive rotation can drive all perpendicular blades through the trace and do the syntropy and move.
Optionally, the upper blade is equipped with the rotating member that is used for connecting the motor after stretching out the wind gap casing, the rotating member sets up in the one side that does not set up the crank.
Through adopting above-mentioned technical scheme, the motor can drive the upper blade and rotate from top to bottom through carrying out the linkage with this rotating member, drives down blade and moves together when the upper blade rotates to adjust the wind direction of wind-guiding.
Optionally, the tuyere housing comprises an upper housing and a lower housing, and the upper housing and the lower housing are detachably connected.
Through adopting above-mentioned technical scheme, set up detachable upper and lower casing, it is more convenient when carrying out the maintenance of narrow wind gap, reduced the unable condition of handling of inside damage, and can be more convenient for install in the production process, integrated into one piece's wind gap casing is inside to be difficult to install, detachable setting then can improve installation effectiveness.
In summary, the present application has at least the following beneficial effects:
1. the utility model provides a small-size air conditioner air outlet under the prior art has been solved because the air outlet is little, so do not set up the function of adjusting the wind direction or the wind-guiding effect is poor generally, and the air outlet directly blows the problem that can reduce the person's of taking with the car experience, and this application forms the wind-guiding passageway through last blade and lower blade cooperation in the wind gap casing, and also sets up the wind-guiding inclined plane in air outlet department, has improved holistic wind-guiding performance.
2. The horizontal blade and the vertical blade of the utility model all adopt motor drive, can combine car machine system to carry out automatically controlled regulation to the wind gap, and automatically controlled regulation compares manual regulation more meticulously, also is difficult for appearing exerting oneself too big condition that causes the damage to the blade.
Drawings
Fig. 1 is a perspective view of the present embodiment.
Fig. 2 is a perspective view of the present embodiment, mainly for showing the internal structure.
Fig. 3 is a sectional view of the present embodiment.
Fig. 4 is a perspective view of the present embodiment, mainly for showing the bottom structure.
Fig. 5 is a side view of the present embodiment, mainly for showing a state at the upper limit blowing angle.
Fig. 6 is a perspective view of the present embodiment, mainly for showing a state at the lower limit blowing angle.
Reference numerals illustrate:
1. an upper housing; 11. an air outlet; 12. an air inlet; 2. a lower housing; 21. an air guiding inclined plane; 22. an interface; 3. a horizontal blade; 31. an upper blade; 311. a crank; 312. a sliding groove; 313. a rotating member; 32. a lower blade; 321. swing arms; 322. a linkage block; 4. a mounting bar; 41. a vertical blade; 411. a connecting block; 412. a plug-in groove; 42. a linkage rod; 421. and a connecting groove.
Detailed Description
The present application is further described in detail below with reference to fig. 1-6 by way of specific examples.
The utility model provides a narrow wind gap steering linkage structure, shown in fig. 1 and 2, includes the wind gap casing, and the wind gap casing includes casing 1 and lower casing 2, goes up through bolted connection between casing 1 and the lower casing 2, goes up casing 1 and the lower casing 2 amalgamation wind gap casing as an organic whole, and open at wind gap casing one end has the air intake 12 that is used for being connected with the air inlet part, and the other end is equipped with the air outlet 11 that is used for the air-out. The upper shell 1 and the lower shell 2 are respectively provided with an air guide inclined plane 21, the air guide inclined planes 21 are arranged on one side close to the air outlet 11, and the upper air guide inclined planes 21 and the lower air guide inclined planes 21 incline towards the air outlet 11 from one side far away from the air outlet 11. In specific implementation, the detachable arrangement is convenient for installation during production.
As shown in fig. 1 and 2, a horizontal blade 3 is disposed in the tuyere housing, the horizontal blade 3 includes an upper blade 31 and a lower blade 32, the upper blade 31 and the lower blade 32 are both rotatably connected with the tuyere housing, the upper blade 31 is disposed at the air outlet 11, and the lower blade 32 is disposed at one side close to the air inlet 12. The upper blade 31 is equipped with the crank 311 after stretching out the wind gap casing, and crank 311 and upper blade 31 fixed connection are equipped with swing arm 321 after the lower blade 32 stretches out the wind gap casing, and swing arm 321 and lower blade 32 fixed connection are opened on the one end that the crank 311 is close to swing arm 321 has sliding tray 312, and swing arm 321 corresponds sliding tray 312 department and is equipped with linkage piece 322 towards sliding tray 312 in, and linkage piece 322 sliding connection is in the sliding tray 312 of crank 311.
As shown in fig. 2, the upper blade 31 is provided with a rotating member 313 for connecting to a motor after extending out of the tuyere housing, and the rotating member 313 is provided at a side where the crank 311 is not provided. In specific implementation, the shape of the rotating member 313 only needs to be matched with the motor rotating shaft, the motor rotating shaft can drive the rotating member 313 and the upper blade 31 to rotate after being fixed with the motor rotating shaft, when the upper blade 31 rotates, the crank 311 at the other side also rotates along with the upper blade 31, the crank 311 drives the linkage block 322 to move when rotating, the sliding groove 312 provides a space for the movement of the linkage block 322, and the rocker arm is driven to rotate when the linkage block 322 moves, so that the connecting rod moves, and the rotating angle of the upper blade 31 has a certain limit because the length of the sliding groove 312 is limited. When the upper blades 31 are rotated clockwise as shown in fig. 3, the lower blades 32 are rotated counterclockwise, the upper blades 31 face upward, the lower blades 32 face downward, and wind is blown upward after forming a wind channel at the lower side inside the tuyere housing in the direction indicated by the arrow in the drawing. When the upper blade 31 rotates counterclockwise as shown in fig. 4, the lower blade 32 rotates clockwise, the upper blade 31 faces downward, the lower blade 32 faces upward, and wind forms a wind channel at the upper side inside the tuyere housing in the direction of an arrow in the drawing and sends out the wind. The air outlet path formed in fig. 3 and 4 can cooperate with the upper and lower air guiding inclined planes 21 to perform air outlet.
As shown in fig. 2 and 5, a mounting bar 4 is further disposed in the tuyere housing, the mounting bar 4 is disposed on one side close to the air outlet 11, the mounting bar 4 is fixedly connected with the tuyere housing, the upper housing 1 and the lower housing 2 are both provided with a mounting bar 4, a plurality of vertical blades 41 are disposed on the mounting bar 4, the vertical blades 41 are rotationally connected with the mounting bar 4, a linkage rod is disposed between the vertical blades 41, a connecting block 411 is disposed on the vertical blades 41, a connecting slot 421 is formed in the linkage rod, and the connecting block 411 extends into the connecting slot 421 and is fixedly connected with the linkage rod. In particular, the movement of the linkage rod drives all of the vertical blades 41 to rotate synchronously.
As shown in fig. 6, a socket slot 412 for connecting with a motor shaft is formed at the bottom of one of the vertical blades 41, the socket slot 412 is square, the mounting bar 4 at the bottom of the vertical blade 41 is opened, and the tuyere housing is also provided with a socket 22 at a position corresponding to the socket slot 412. In specific implementation, the rotating shaft of the motor is set to be square corresponding to the inserting groove 412, and the rotating shaft of the motor can rotate to drive the vertical blade 41 to rotate after extending into the inserting groove 412, and the linkage rod 42 drives other vertical blades 41 to rotate when the vertical blade 41 rotates, so that the adjustment of the left and right wind directions is realized.
Working principle: the fixed air port shell is assembled and placed into the air conditioner air port, the vertical blades 41 and the horizontal blades 3 are connected with corresponding motors, the vertical blades 41 and the horizontal blades 3 are respectively driven by a vehicle machine system control motor, when the horizontal blades 3 are driven, the upper blades 31 and the lower blades 32 of the horizontal blades 3 move reversely, an air guide channel can be formed when the air is blown upwards and downwards, the air guide performance is improved, the angle of the air guide channel can be just matched with the air guide inclined plane 21 on the air port shell, and when the vertical blades 41 are driven, the left and right air blowing angles can be adjusted.
The foregoing is a preferred embodiment of the present application, and is not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.
Claims (9)
1. A narrow wind gap steering linkage structure, its characterized in that: including the wind gap casing, wind gap casing one end is opened has air intake (12) that are used for being connected with the air inlet part, and the other end is equipped with air outlet (11) that are used for the air-out, be equipped with horizontal blade (3) in the wind gap casing, horizontal blade (3) are connected and are driven by motor with the wind gap casing rotation, horizontal blade (3) include upper blade (31) and lower blade (32), upper blade (31) set up in air outlet (11) department, lower blade (32) set up in the one side that is close to air intake (12).
2. The narrow tuyere direction adjustment linkage structure of claim 1, wherein: the utility model discloses a wind gap is characterized by comprising an upper blade (31), a lower blade (32), a swing arm (321) and a linkage block (322), wherein the upper blade (31) is equipped with a crank (311) fixedly connected with the upper blade (31) after stretching out of a wind gap shell, the lower blade (32) is equipped with a swing arm (321) fixedly connected with the lower blade (32) after stretching out of the wind gap shell, a sliding groove (312) is formed in the crank (311), the swing arm (321) is equipped with the linkage block (322), the linkage block (322) is slidingly connected in the sliding groove (312) of the crank (311), and the linkage block (322) slides along the sliding groove (312).
3. The narrow tuyere direction adjustment linkage structure of claim 1, wherein: the air outlet shell is provided with an air guide inclined plane (21) close to the air outlet (11), and the air guide inclined plane (21) inclines towards the air outlet (11) from one side far away from the air outlet (11).
4. A narrow tuyere direction adjusting linkage structure according to claim 3, wherein: the upper side and the lower side of the air outlet (11) are respectively provided with an air guide inclined plane (21) inclined towards the air outlet (11).
5. The narrow tuyere direction adjustment linkage structure of claim 1, wherein: the air outlet is characterized in that a vertical blade (41) is further arranged in the air outlet shell, the vertical blade (41) is rotationally connected with the air outlet shell, and the vertical blade (41) is arranged on one side close to the air outlet (11) and driven by a motor.
6. The narrow air gap steering linkage structure according to claim 5, wherein: the vertical blades (41) are provided with a plurality of linkage rods, and the linkage rods drive the vertical blades (41) to synchronously move.
7. The narrow air gap steering linkage structure according to claim 6, wherein: the bottom of one vertical blade (41) is provided with a plug-in groove (412) for connecting a motor rotating shaft, and the tuyere shell is provided with a plug-in port (22) corresponding to the plug-in groove (412).
8. The narrow air gap steering linkage structure according to claim 2, wherein: the upper blade (31) extends out of the shell of the tuyere (11) and is provided with a rotating piece (313) used for being connected with a motor, and the rotating piece (313) is arranged on one side where a crank (311) is not arranged.
9. The narrow tuyere direction adjustment linkage structure of claim 1, wherein: the tuyere shell comprises an upper shell (1) and a lower shell (2), and the upper shell (1) is detachably connected with the lower shell (2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320338830.XU CN219325714U (en) | 2023-02-17 | 2023-02-17 | Narrow wind gap steering linkage structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320338830.XU CN219325714U (en) | 2023-02-17 | 2023-02-17 | Narrow wind gap steering linkage structure |
Publications (1)
Publication Number | Publication Date |
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CN219325714U true CN219325714U (en) | 2023-07-11 |
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ID=87062799
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202320338830.XU Active CN219325714U (en) | 2023-02-17 | 2023-02-17 | Narrow wind gap steering linkage structure |
Country Status (1)
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CN (1) | CN219325714U (en) |
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2023
- 2023-02-17 CN CN202320338830.XU patent/CN219325714U/en active Active
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