CN114590110B - Blade subassembly and use its vehicle air conditioner air outlet - Google Patents

Abstract

The invention discloses a blade assembly and an air outlet of an automobile air conditioner using the same, and the blade assembly comprises an upper air guide assembly, a lower air guide assembly, a left air guide assembly and a right air guide assembly, wherein the upper air guide assembly and the lower air guide assembly comprise two horizontal blades which are arranged in parallel, the two horizontal blades respectively comprise a blade rear section and a blade front section which is rotatably connected with the blade rear section, an installation space is formed between the two horizontal blades, and the left air guide assembly and the right air guide assembly comprise a plurality of vertical blades which are vertically arranged in the installation space. The invention also discloses an automobile air conditioner air outlet using the blade assembly, which comprises a shell, wherein an air guide channel is formed in the shell, and the blade assembly is arranged in the air guide channel. The invention provides a blade assembly and an air outlet of an automobile air conditioner using the same, which are compact in structure, small in occupied space and capable of integrating an upper air guide assembly, a lower air guide assembly, a left air guide assembly and a right air guide assembly.

Description

Blade subassembly and use its vehicle air conditioner air outlet

Technical Field

The invention relates to the technical field of automobile accessories, in particular to a blade assembly and an automobile air conditioner air outlet using the same.

Background

The automobile air conditioner air outlet belongs to automobile interior parts, is generally arranged on a main instrument desk and an auxiliary instrument desk, can adjust the environment temperature in an automobile when an air conditioner refrigeration or heating mode is started, and changes the air blowing direction by adjusting the blades of the air outlet.

Generally speaking, the main air guide blade is arranged on the front side of the air outlet shell, the secondary air guide blade is arranged on the rear side of the air outlet shell, the main blade and the secondary blade are separately arranged, the integration level is low, and the occupied space of the air outlet in an automobile is large.

Disclosure of Invention

Aiming at the defects of the prior art, the blade assembly and the automobile air conditioner air outlet using the same are provided, the structure is compact, the upper air guide assembly, the lower air guide assembly, the left air guide assembly and the right air guide assembly are integrally arranged, and the occupied space is small.

In order to achieve the above object, the present invention provides the following technical solutions.

The utility model provides a blade subassembly, includes upper and lower air guide component and controls air guide component, upper and lower air guide component includes two parallel arrangement's horizontal blade, two horizontal blade includes the blade back end respectively and rotates the blade anterior segment of being connected with the blade back end, two be formed with installation space between the horizontal blade, control air guide component and include the vertical blade that sets up in installation space of a plurality of.

The invention has the beneficial effects that: according to the blade assembly, the two transverse blades are respectively split into the rear blade section and the front blade section, the front blade section and the rear blade section can rotate relatively, and the vertical blades are integrally arranged in the installation space.

The utility model provides an use vehicle air conditioner air outlet of blade subassembly, includes the casing, be formed with the wind-guiding passageway in the casing, the blade subassembly sets up in the wind-guiding passageway.

As an improvement of the present invention, the front blade section is disposed adjacent to an outlet of the air guiding passage, and the mounting space is formed between the rear blade sections of the two transverse blades.

As an improvement of the present invention, a guide post is formed on a side wall of the rear blade section, an arc-shaped guide groove is formed on a side wall of the housing, the guide post extends into the guide groove, and when the rear blade section moves along the guide groove through the guide post, the front blade section is driven to rotate, so as to adjust an angle of the front blade section.

As an improvement of the invention, the side walls of the blade rear sections of the two transverse blades are connected through a connecting plate, the blade rear sections of the two transverse blades and the connecting plate are matched to form a wind guide frame which is through from front to back, and the guide columns are arranged on the connecting plate.

As an improvement of the present invention, an upper activity space located above the rear section of the blade and a lower activity space located below the rear section of the blade are provided in the air guide passage.

As an improvement of the invention, the side wall of the front section of the blade is provided with an installation shaft, and the side wall of the shell is provided with an installation hole matched with the installation shaft.

As an improvement of the invention, the two transverse blades also respectively comprise a blade air inlet section which is rotatably connected with the rear section of the blade, and the blade air inlet section is arranged close to the inlet of the air guide channel.

As an improvement of the invention, the side wall of the air inlet section of the blade is provided with a convex column, and the side wall of the shell is provided with a sliding groove matched with the convex column.

As an improvement of the invention, two sides of the outlet of the air guide channel are expanded to form diffusion parts, the vertical blades are provided with diffusion holes, the axes of the diffusion holes on the vertical blades at two sides are inclined outwards, under the diffusion mode, the adjacent vertical blades rotate to be attached, and the diffusion holes diffuse the direct wind entering the air guide channel into fan-shaped wind.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic cross-sectional view of fig. 1 of the present invention.

Fig. 3 is a schematic view of the structure of the upper and lower air guide assemblies and the left and right air guide assemblies of the present invention.

Fig. 4 is a schematic structural view of the up-down wind guide assembly of the present invention.

Fig. 5 is a schematic structural view of the left and right air guide assemblies of the present invention.

Fig. 6 is a schematic view of the left and right air guide assemblies according to the present invention in a spread state.

Fig. 7 is a schematic view of the air guiding in the diffused state of the present invention.

Fig. 8 is a cross-sectional schematic view of the housing of the present invention.

Fig. 9 is another schematic angular cross-sectional view of the housing of the present invention.

Fig. 10 is a schematic view of the structure of the present invention when upward blowing is performed.

Fig. 11 is a schematic view of a downward and upward blowing structure of the present invention.

In the figure, 1, an upper air guide assembly and a lower air guide assembly; 1.1, transverse blades; 1.2, the front section of the blade; 1.3, a rear section of the blade; 1.4, a blade induced air section; 1.5, connecting plates; 1.6, a guide post; 1.7, a rotating shaft; 1.8, convex columns; 2. a left air guide component and a right air guide component; 2.1, vertical blades; 2.2, diffusion holes; 3. a housing; 3.1, an air guide channel; 3.11, a diffusion part; 3.2, a guide groove; 3.3, moving space upwards; 3.4, a lower movable space; 3.5, mounting holes; 3.6, a chute.

Detailed Description

The invention is further explained with reference to the drawings.

Referring to fig. 1 to 9, a blade assembly includes an upper and lower wind guide assembly 1 and a left and right wind guide assembly 2, where the upper and lower wind guide assembly 1 includes two parallel transverse blades 1.1, and the two transverse blades 1.1 are distributed vertically, that is, the transverse blade 1.1 includes an upper transverse blade 1.1 at an upper end and a lower transverse blade 1.1 at a lower end; the upper transverse blade 1.1 and the lower transverse blade 1.1 respectively comprise a blade back section 1.3 and a blade front section 1.2 rotatably connected with the blade back section 1.3, an installation space is formed between the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 or between the blade back section 1.3 of the upper transverse blade 1.1 and the blade back section 1.3 of the lower transverse blade 1.1, the left and right air guide assembly 2 comprises a plurality of vertical blades 2.1 vertically arranged in the installation space, and the left and right air guide assembly 2 can be integrated in the upper and lower air guide assembly 1.

According to the blade assembly, the upper transverse blade 1.1 and the lower transverse blade 1.1 are respectively split into the blade rear section 1.3 and the blade front section 1.2, the blade front section 1.2 and the blade rear section 1.3 can rotate relatively, and then the vertical blade 2.1 is integrally arranged in the installation space, so that when the blade assembly is used, the upper wind direction and the lower wind direction are adjusted through the rotation of the upper transverse blade 1.1 and the lower transverse blade 1.1, the left wind direction and the right wind direction are adjusted through the rotation of the vertical blade 2.1, the integration degree is high, the occupied space is small, and the blade assembly can be applied to the design of a long and narrow air outlet.

An air outlet of an automobile air conditioner using the blade assembly comprises a shell 3, wherein a wind guide channel 3.1 is formed in the shell 3, the blade assembly is arranged in the wind guide channel 3.1 so as to guide wind discharged from the wind guide channel 3.1, specifically, the blade assembly comprises an upper wind guide assembly 1, a lower wind guide assembly 1 and a left wind guide assembly 2, the upper wind guide assembly 1 and the lower wind guide assembly 1 comprise an upper transverse blade 1.1 and a lower transverse blade 1.1 which are arranged in parallel, the upper transverse blade 1.1 and the lower transverse blade 1.1 are distributed up and down, the upper transverse blade 1.1 and the lower transverse blade 1.1 respectively comprise a blade rear section 1.3, a blade front section 1.2 rotationally connected with the blade rear section 1.3 and a blade air inlet section connected with the blade rear section 1.3, and an installation space is formed between the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1, or an installation space is formed between the blade rear section 1.3 of the upper transverse blade 1.1 and the blade rear section 1.3 of the lower transverse blade 1.1, the left and right air guide assemblies 2 comprise a plurality of vertical blades 2.1 which are vertically arranged in the installation space.

The blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 are arranged close to an outlet of the air guide channel 3.1, the blade air inlet section of the upper transverse blade 1.1 and the blade air inlet section of the lower transverse blade 1.1 are arranged close to an inlet of the air guide channel 3.1, and the installation space is formed between the blade rear section 1.3 of the upper transverse blade 1.1 and the blade rear section 1.3 of the lower transverse blade 1.1. An air outlet space is formed between the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1, and an air inlet space is formed between the blade air inlet section of the upper transverse blade 1.1 and the blade air inlet section of the lower transverse blade 1.1.

The blade back section 1.3 of the upper transverse blade 1.1 and the blade back section 1.3 side wall of the lower transverse blade 1.1 are connected through a connecting plate 1.5, the blade rear section 1.3 of the upper transverse blade 1.1, the blade rear section 1.3 of the lower transverse blade 1.1 and the connecting plate 1.5 are matched to form a wind guide frame which is through from front to back, by forming the wind guide frame, the upper transverse blade 1.1 and the lower transverse blade 1.1 can move synchronously, and the side walls of the blade back section 1.3 of the upper transverse blade 1.1 and the blade back section 1.3 of the lower transverse blade 1.1 are formed with guide posts 1.6, in the embodiment, the guide posts 1.6 are arranged on the side walls of the air guide frame, the side wall of the shell 3 is provided with an arc-shaped guide groove 3.2, the guide post 1.6 extends into the guide groove 3.2, when the blade rear section 1.3 of the upper transverse blade 1.1 and the blade rear section 1.3 of the lower transverse blade 1.1 are moved along the guide slot 3.2 by the guide post 1.6, the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 are driven to rotate. And because the existence of connecting plate 1.5 for blade back end 1.3 of last horizontal blade 1.1 and blade back end 1.3 of lower horizontal blade 1.1 can fixed connection, thereby go up blade back end 1.3 of horizontal blade 1.1 and blade back end 1.3 of lower horizontal blade 1.1 and can move in step, and when going up blade back end 1.3 of horizontal blade 1.1 and the blade back end 1.3 of lower horizontal blade 1.1 and moving, can drive the blade anterior segment 1.2 of last horizontal blade 1.1 and the blade anterior segment 1.2 of lower horizontal blade 1.1 and rotate, thereby adjust final air-out angle. The air guide channel 3.1 is internally provided with an upper movable space 3.3 positioned above the blade rear section 1.3 of the upper transverse blade 1.1 and a lower movable space 3.4 positioned below the rear end of the lower transverse blade 1.1, so that when the air guide frame moves upwards or downwards along the guide groove 3.2, the air guide frame can have a movable space, the air guide frame can move conveniently, the angles of the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 are adjusted, and the final air outlet angle is adjusted.

The lateral walls of the blade front sections 1.2 of the upper transverse blade 1.1 and the lower transverse blade 1.1 are respectively provided with an installation shaft, and an installation hole 3.5 matched with the installation shaft is formed in an outlet, located on the air guide channel 3.1, of the lateral wall of the shell 3. One end of the blade front section 1.2 of the upper transverse blade 1.1 is rotatably arranged at the outlet of the air outlet channel through the matching of the mounting shaft and the mounting hole 3.5, the other end of the blade front section 1.2 of the upper transverse blade 1.1 is rotatably connected with the blade rear section 1.3 of the upper transverse blade 1.1, one end of the blade front section 1.2 of the lower transverse blade 1.1 is rotatably arranged at the outlet of the air outlet channel through the matching of the mounting shaft and the mounting hole 3.5, the other end of the blade front section 1.2 of the lower transverse blade 1.1 is rotatably connected with the blade rear section 1.3 of the lower transverse blade 1.1, so that when the blade front section 1.2 of the upper transverse blade 1.1 rotates around the mounting shaft and when the blade front section 1.2 of the lower transverse blade 1.1 rotates around the mounting shaft, the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 can be always located at the outlet of the air guide channel 3.1, and the direction of air flow blown out between the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 is the final air outlet direction of the air guide channel 3.1.

Referring to fig. 10, when the air guiding frame moves downward along the guide groove 3.2, the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 are driven to rotate downward around the mounting shaft, so that the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 are arranged obliquely upward integrally, and thus the air flow is guided upward and blown out through the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1, and finally, the upward air guiding adjustment is realized.

Referring to fig. 11, when the air guiding frame moves upward along the guiding groove 3.2, the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 are driven to rotate upward around the mounting shaft, so that the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 are integrally arranged obliquely downward, and thus the air flow is guided downward and blown out through the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1, and finally the downward air guiding adjustment is realized.

The lateral walls of the blade air inlet sections of the upper transverse blade 1.1 and the lower transverse blade 1.1 are respectively provided with a convex column 1.8, and the lateral wall of the shell 3 is provided with a sliding groove 3.6 matched with the convex column 1.8. One end of the air inlet section of the upper transverse blade 1.1 is rotatably arranged at the inlet of the air outlet channel through the matching of the convex column 1.8 and the chute 3.6, the other end of the air inlet section of the upper transverse blade 1.1 is rotatably connected with the rear section 1.3 of the upper transverse blade 1.1, one end of the air inlet section of the lower transverse blade 1.1 is rotatably arranged at the inlet of the air outlet channel through the matching of the convex column 1.8 and the chute 3.6, the other end of the air inlet section of the lower transverse blade 1.1 is rotatably connected with the rear section 1.3 of the lower transverse blade 1.1, so that when the blade air inlet section of the upper transverse blade 1.1 and the blade air inlet section of the lower transverse blade 1.1 rotate, the blade air inlet section of the upper transverse blade 1.1 and the blade air inlet section of the lower transverse blade 1.1 can be always positioned at the inlet of the air guide channel 3.1, thereby ensuring that the air flow in the air guide channel 3.1 can smoothly enter between the blade air inlet section of the upper transverse blade 1.1 and the blade air inlet section of the lower transverse blade 1.1.

The direction of the air flow blown out between the blade front section 1.2 of the upper transverse blade 1.1 and the blade front section 1.2 of the lower transverse blade 1.1 is the final air outlet direction of the air guide channel 3.1.

The two sides of the outlet of the air guide channel 3.1 are outwards expanded to form diffusion parts 3.11, the vertical blades 2.1 are provided with diffusion holes 2.2, the axes of the diffusion holes 2.2 of the vertical blades 2.1 in the middle are vertically arranged, the axes of the diffusion holes 2.2 on the vertical blades 2.1 on the two sides are gradually outwards inclined, as shown in specific figures 6 to 9, when the vertical blades 2.1 are rotated to a diffusion state, namely the adjacent vertical blades 2.1 are mutually attached, the ends of the two vertical blades 2.1 at the head end and the tail end are attached to the inner wall of the shell 3 and are in a diffusion state, at the moment, the air flow in the air guide channel 3.1 firstly enters an air inlet space and then is discharged from an air outlet space after passing through the diffusion holes 2.2, the axes of the diffusion holes 2.2 on the vertical blades 2.1 on the two sides are gradually inclined, and the air flow is guided through the diffusion holes 2.2, so that the air flows on the two sides are outwards blown out, cooperate with diffusion portion 3.11 of wind-guiding passageway 3.1, thereby can change the straight wind of input into even constant velocity fan-shaped wind in the wind-guiding passageway 3.1, the comfort level of human impression has been improved, the high temperature in the car concentrated wind mode rapid cooling effect has both been satisfied, switch to the diffusion mode simultaneously and can solve the uncomfortable problem of direct-blow human impression when the constancy of temperature again, and diffusion hole 2.2 directly sets up on vertical blade 2.1, need not to increase solitary part structure, neither influence the regulation of wind direction, also influence the appearance effect, strong structural adaptability.

The above are only preferred embodiments of the present invention, and all equivalent changes or modifications made according to the structure, characteristics and principles of the present invention are included in the scope of the present invention.

Claims (4)

1. The utility model provides an use vehicle air conditioner air outlet of blade subassembly, includes the casing, be formed with the wind-guiding passageway in the casing, the blade subassembly sets up its characterized in that in the wind-guiding passageway: the blade assembly comprises an upper air guide assembly, a lower air guide assembly, a left air guide assembly and a right air guide assembly, wherein the upper air guide assembly and the lower air guide assembly comprise two transverse blades which are arranged in parallel, the two transverse blades respectively comprise a blade rear section, a blade front section which is rotatably connected with the blade rear section and a blade air inlet section which is rotatably connected with the blade rear section, an installation space is formed between the two transverse blades, the left air guide assembly and the right air guide assembly comprise a plurality of vertical blades which are vertically arranged in the installation space, the blade front section is arranged close to an outlet of an air guide channel, the installation space is formed between the blade rear sections of the two transverse blades, guide posts are formed on the side walls of the blade rear sections, arc-shaped guide grooves are formed on the side walls of the shell, the guide posts extend into the guide grooves, the side walls of the blade rear sections of the two transverse blades are connected through connecting plates, and the blade rear sections of the two transverse blades are matched with the connecting plates to form a front-back through air guide frame, the guide post set up in on the connecting plate, work as when the blade back end passes through the guide post and removes along the guide way, drives the blade anterior segment rotates to the angle of adjustment blade anterior segment, the entry setting that the blade air inlet section closes on the wind-guiding passageway, the both sides of the export of wind-guiding passageway expand outward and be formed with the diffusion portion, be equipped with the diffusion hole on the vertical blade, and the axis that is located the diffusion hole on the vertical blade of both sides is and leans out the setting, and under the diffusion mode, adjacent vertical blade rotates to laminating mutually, and the diffusion hole is fan-shaped wind with the straight wind diffusion that the wind-guiding passageway got into.

2. The air outlet of air conditioner for vehicle using blade assembly as claimed in claim 1, wherein: an upper moving space located above the rear section of the blade and a lower moving space located below the rear section of the blade are arranged in the air guide channel.

3. The air outlet of air conditioner for vehicle using blade assembly as claimed in claim 1, wherein: the lateral wall of the front blade section is provided with an installation shaft, and the lateral wall of the shell is provided with an installation hole matched with the installation shaft.

4. The air outlet of air conditioner for vehicle using blade assembly as claimed in claim 1, wherein: the lateral wall of the blade air inlet section is provided with a convex column, and the lateral wall of the shell is provided with a sliding groove matched with the convex column.

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