KR200328776Y1 - rotating blade of indoor-unit - Google Patents

Abstract

The present invention relates to a blade rotating structure of the indoor unit that can reduce the manufacturing cost by removing the stepping motor for rotating the blade of the indoor unit to control the wind direction of the cold air, and by positioning the blade easily rotated by hand.

Blade rotating structure of the indoor unit according to the present invention is an indoor unit of an air conditioner having a blade for controlling the direction of the cold air discharged from the discharge port of the front grill, each of which is provided in a straight line at both ends of the blade is raised and lowered by a predetermined distance A member and guide members are formed on both inner side surfaces of the front grill, respectively, and guide members for selectively elevating the elevating member and guiding the blade to be fixed at an arbitrary position.

Description

Rotating blade of indoor unit

The present invention relates to a blade rotating structure of the indoor unit, and more particularly, to reduce the manufacturing cost by removing the stepping motor for rotating the blade of the indoor unit to control the wind direction of the cold air, and by positioning the blade easily rotated by hand. It relates to a blade rotating structure of the indoor unit.

As shown in Fig. 1 and Fig. 2, the conventional indoor unit, the chassis 1 constitutes the rear exterior of the indoor unit, and the front grill 3 constitutes the front exterior of the indoor unit.

The front grill 3 is formed with a suction part 4 for sucking air in the space for air conditioning into the indoor unit.

In addition, a discharge port 5 through which the heat exchanged air inside the indoor unit is discharged to the space for air conditioning is formed in the lower part of the front grill 3.

On the other hand, in the internal space formed by the chassis 1 and the front grill 3, various components for forming an indoor unit are installed.

There is a heat exchanger 7 for heat-exchanging the air sucked in the space for air conditioning, and a blower unit 8 is provided at the rear of the heat exchanger 7 to provide a driving force for sucking air.

In addition, a discharge unit 9 is provided to discharge air, which is sucked by the blower unit 8 and passes through the heat exchanger 7, to discharge the air through the discharge port 5 into the space for air conditioning.

The discharge unit 9 is for adjusting the vertical and horizontal directions of the discharged air.

The discharge unit 9 is provided with a blade 10 provided in the discharge port 5 of the front grill (3).

And, the blade 10 is provided with a vane 12 for adjusting the vertical direction of the discharged air.

The vanes 12 are driven by the stepping motor 13, the stepping motor 13 is fastened to one side of the blade 10, as shown in FIG.

Fastening pieces 14 and 14 'are formed at both ends of the stepping motor 13, and fastening holes 15 are drilled in the fastening pieces 14 and 14', respectively.

The stepping motor 13 is fastened to the blade 10 by the fastening screw 16.

In addition, a suction grill 17 is installed to shield a portion except the discharge port 5 of the front grill 3.

The louver 18 is formed in the suction grill 17 at a position corresponding to the suction part 4 so that the air in the space for air conditioning can be sucked through the suction part 4.

In the prior art having such a configuration, when the indoor unit is operated, a refrigerant having a relatively low temperature flows into the heat exchanger 7 while the refrigeration cycle is operated, and the blower unit 8 is driven to provide air in a space for air conditioning. Is transmitted to the heat exchanger 7 through the suction part 4 via the suction grill 14 and the filter 13.

Then, the heat exchanger 7 is heat-exchanged while passing through the heat exchanger 7, and the air volume and the wind direction are controlled by the discharge unit 9 through the blower unit 8, and discharged through the discharge port 5 to the space for air conditioning.

At this time, the wind direction of the air discharged through the discharge unit 9 by the vane 12 is adjusted.

That is, the left and right directions of the air discharged by the vane 12 are rotated left and right, and the vertical direction of the air discharged by the vane 12 is rotated up and down by the stepping motor 13 is adjusted.

However, the conventional indoor unit has a very troublesome fastening operation because the stepping motor has to be fastened with a fastening screw to drive the blades and the vanes.

In addition, since the stepping motor is relatively expensive, the manufacturing cost of the indoor unit is increased, and there is a problem in that the replacement cost is high in case of failure.

The present invention is proposed to solve the above problems of the prior art, the elevating member provided on both ends of the blade is guided to the guide member formed on both sides of the inside of the front grill and fixed to any position while the rotation angle of the blade is limited It is an object of the present invention to provide a blade rotating structure of the indoor unit, which can easily rotate the blade and reduce the manufacturing cost and the purchase cost of the indoor unit by removing the stepping motor.

The blade rotating structure of the indoor unit according to the present invention for achieving the above object is provided in the indoor unit of the air conditioner having a blade for controlling the direction of the cold air discharged from the discharge port of the front grill, respectively provided in a straight line at both ends of the blade It is characterized by consisting of a lifting member which is lifted by a predetermined distance by the guide member, which is formed on each of both inner side surfaces of the front grill to selectively lift the lifting member and to fix the blade at an arbitrary position.

1 is an exploded perspective view showing a configuration of a conventional indoor unit.

Figure 2 is a side view showing a stepping motor mounting structure of a conventional indoor unit.

Figure 3 is a perspective view showing a rotating structure of the blade according to the present invention.

Figure 4 is a cross-sectional view showing a guide member according to the present invention.

5a and 5b is a cross-sectional view showing a rotating state of the blade according to the present invention.

* Description of the symbols for the main parts of the drawings *

3,53: front grill 5,55: discharge port

10,60: blade 62: extended shaft

100: lifting member 110: spring

120: installation groove 130: fixed ball

140: clip 200: guide member

210: fixing groove 220: guide groove

230: positioning groove

Hereinafter, with reference to the accompanying drawings, the configuration of the subject innovation will be described in more detail.

3 is a perspective view showing a rotating structure of the blade according to the present invention, Figure 4 is a sectional view showing a guide member according to the present invention, Figures 5a and 5b is a sectional view showing a rotating state of the blade according to the present invention.

The same or similar components as in the prior art will be given similar names, and detailed description thereof will be omitted.

3 to 5b, the blade rotating structure of the indoor unit according to the present invention is an indoor unit of an air conditioner having a blade 60 for adjusting the direction of the cold air discharged from the discharge port 55 of the front grill (53). In each of the blades (60) in a straight line, respectively provided in a straight line, the elevating member 100 and the inner side of the front grill 53 and the elevating member 100 to be elevated by a predetermined distance, respectively, selectively lift the elevating member 100 And guide member 200 for guiding the blade 60 to be fixed at an arbitrary position.

3 and 4, the blade 60 is installed inside the front grill 53 at a position corresponding to the discharge port 55.

The blades 60 are provided with lifting members 100 at both ends thereof.

The elevating member 100 is provided in a straight line in the longitudinal direction of the blade (60).

In addition, both ends of the blade 60 are formed with a cylindrical extension shaft 62 smaller than the size of the blade 60 so as to be inserted into the inner surface of the front grill 53.

The blade 60 and the extension shaft 62 are integrally formed.

In addition, the lifting member 100 is preferably formed on the extension shaft (62).

The elevating member 100 is shown in the circle of FIG.

At this time, the elevating member 100 is recessed at both ends of the blade 60, respectively, the installation groove 120 for inserting the spring 110, and the ball in the upper end of the spring 110 in the installation groove 120 The fixed ball 130 is installed, and the clip 140 to surround the outer periphery of the blade 60 in order to prevent the separation of the fixed ball 130 and to seal a part of the upper portion of the installation groove 120.

The installation groove 120 is formed to be recessed inward at a predetermined position on the outer circumferential surface of the blade 60.

In addition, a spring 110 is installed inside the installation groove 120.

In addition, the fixing ball 130 is formed on the top of the spring (110).

In particular, the fixing ball 130 may be welded to the top of the spring 110, it may be installed to be seated to be elastic.

In addition, the fixing ball 130 is preferably formed of a material having excellent durability that does not easily wear while sliding contact with the inner surface of the guide groove 220 to be described later.

In addition, the diameter of the fixing ball 130 is formed smaller than the diameter of the installation groove 120 to be moved by the spring 110 and to be elevated in and out of the installation groove 120.

The clip 140 is installed on the outer circumferential surface of the blade 60 corresponding to the installation groove 120 to prevent the fixing ball 130 from being separated from the spring 110 in the installation groove 120 and being separated. .

More specifically, the clip 140 is installed to insert the extension shaft 62, both ends thereof to block a portion of the upper end of the installation groove (120).

Thus, the fixing ball 130 is to be exposed to the outside only the upper portion by the clip 140.

On the other hand, the guide member 200 is recessed on both sides of the inner side of the front grill 53, the fixing groove 210 for inserting both ends of the blade 60, and a portion of the inner peripheral surface of the fixing groove 210 in an arc shape A recessed and formed guide groove 220 for limiting the angle of rotation of the elevating member 100 and the elevating member 100 which is recessed continuously by being fixed in a predetermined interval on the inner surface of the guide groove 220 at any position Positioning groove 230 is fixed to the insertion.

The fixing groove 210 is formed on both inner side surfaces of the front grill 53 to insert an extension shaft 62 extending from the blade 60.

The diameter of the fixing groove 210 is formed to be similar to the combined diameter of the extension shaft 62 and the clip 140 of the elevating member 100.

In addition, the guide groove 220 is recessed in the inner surface of the fixing groove 210.

The guide groove 220 has an arc shape of a predetermined length, while limiting the rotation angle of the blade 60 while the fixing ball 130 of the elevating member 100 is in contact with the inner surface of both edges.

In addition, the guide groove 220 guides the fixed ball 130 when the blade 60 is rotated at a predetermined angle.

Meanwhile, the positioning groove 230 is recessed in the guide groove 220 at predetermined intervals.

The positioning groove 230 is the blade 60 is fixed to the position while the fixing ball 130 of the elevating member 100 is inserted by the ball of the spring 110.

Hereinafter, the rotational state of the blade 60 according to the present invention made of the above configuration will be described in detail.

As shown in FIG. 5A, first, the fixed ball 130 of the elevating member 100 starts to be inserted into and fixed to the positioning groove 230 of the guide member 200.

At this time, the fixing ball 130 is pushed into the spring 110 provided in the installation groove 120, is partially protruded to the top of the clip 140 is inserted into the positioning groove 230.

As shown in FIG. 5B, when the user wants to change the wind direction by adjusting the direction of the blade 60, the user exerts an external force upward or downward on the blade 60.

Then, the fixing ball 130 is pressed by the upper edge of the positioning groove 230, this force is transmitted to the spring 110 and lowered into the installation groove 120.

The fixed ball 130 is separated from the positioning groove 230 and comes into contact with the guide groove 220.

If the user continues to apply an external force to the blade 60, the fixed ball 130 is inserted into the other positioning groove 230 is inserted so that the blade 60 is fixed below a certain external force.

At this time, the guide groove 220 limits the rotation angle of the blade 60 by limiting the moving distance of the fixed ball 130.

According to the blade rotating structure of the indoor unit according to the present invention as described above, the angle of the blade is set so that the fixed ball installed to be installed in the extension shaft of the blade is inserted into the positioning groove every time a predetermined distance is rotated from the inside of the front grill. And because the wind direction can be adjusted, it does not use the electronics for the rotation of the blade to reduce the manufacturing cost, there is an effect that can reduce the purchase cost.

Claims (3)

In the indoor unit of the air conditioner having a blade for adjusting the direction of the cold air discharged from the discharge port of the front grill, An elevating member which is provided at both ends of the blades in a straight line, and is elevated a predetermined distance by external pressure; Blade rotating structure of the indoor unit, characterized in that formed on each of both inner side surfaces of the front grill to guide the lifting member to selectively lift and lift the blade to a certain position. The method of claim 1, The elevating member is recessed at both ends of the blade and the installation groove for inserting the spring; A fixed ball installed on the upper end of the spring in the installation groove; Blade rotation structure of the indoor unit, characterized in that made of a clip surrounding the outer periphery of the blade to prevent the separation of the fixed ball and the upper portion of the installation groove is sealed. The method of claim 1, The guide member is formed in the recess on both sides of the inside of the front grill fixed groove for inserting both ends of the blade; A guide groove formed in a circular arc shape on a portion of the inner circumferential surface of the fixing groove to limit the rotation angle of the elevating member; Blade rotation structure of the indoor unit, characterized in that consisting of a positioning groove for inserting and fixing the elevating member which is recessed continuously in a predetermined interval on the inner surface of the guide groove at an arbitrary position.