CN110249180B

CN110249180B - Ceiling type air conditioner

Info

Publication number: CN110249180B
Application number: CN201880008216.9A
Authority: CN
Inventors: 张成录
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-01-25
Filing date: 2018-01-22
Publication date: 2021-03-19
Anticipated expiration: 2038-01-22
Also published as: CN110249180A; KR200485454Y1; WO2018139817A1

Abstract

The invention relates to a ceiling type air conditioner, which is characterized in that the invention comprises: a body in which a fan and a heater are formed for heat exchange; and an air suction/discharge member formed at a lower portion of the body, the air suction/discharge member including: a flat substrate portion; and a protruding portion protruding from a central portion of the substrate portion, the protruding portion including: a grating portion formed on the central plane; and a discharge part formed along the side surface inclined plane of the hexagon or more with the grid part as the center.

Description

Ceiling type air conditioner

Technical Field

The present invention relates to a ceiling type air conditioner, and more particularly, to a ceiling type air conditioner which can be installed on a narrow ceiling and supplies cold air and warm air in a plurality of directions.

Background

Generally, an air conditioner includes an air conditioner, a heater, and the like as equipment used for appropriately heating or cooling air inside a building or a home.

Among the air conditioners, the wall-mounted type air conditioners are mainly used in a wall-mounted type, a vertical type, a ceiling type, and the like, and the wall-mounted type air conditioners are mainly used in a room, a small living room, and the like because the wall-mounted type air conditioners have a small capacity and are generally installed in windows.

In addition, since the vertical air conditioner has a large capacity, it is widely used in a living room of a large apartment, a home house having a large space, and the like, and a ceiling air conditioner and the like are widely used in a building having a large floor space such as an office and a factory.

The ceiling type air conditioner is fixedly installed on a ceiling, and discharges cold air generated on the ceiling to a lower space.

However, the conventional ceiling type air conditioner has 4 blowing ports, and thus, wind cannot be smoothly supplied, and installation becomes difficult even when the installation position of the ceiling is narrow.

Disclosure of Invention

Technical problem

The present invention aims to provide a ceiling type air conditioner, that is, a ceiling type air conditioner which can provide wind in a plurality of directions to the maximum extent and can be installed even when the installation position of the ceiling is narrow.

Means for solving the problems

The invention provides a ceiling type air conditioner, characterized in that, it includes: a body in which a fan and a heater are formed for heat exchange; and an air suction/discharge member formed at a lower portion of the body, the air suction/discharge member including: a flat substrate portion; and a protruding portion protruding from a central portion of the substrate portion, the protruding portion including: a grating portion formed on the central plane; and a discharge part formed along the side surface inclined plane of the hexagon or more with the grid part as the center.

The air suction and discharge member may further include an opening and closing part formed at a corner portion of the base plate part, the opening and closing part including: an opening/closing hole formed in a corner portion of the substrate portion; and an opening/closing plate for opening/closing the opening/closing hole.

The base plate may be formed with grooves into which the opening/closing plates may be introduced, and the opening/closing part may include the opening/closing plates, and a distance b between the grooves may be greater than a length a of the opening/closing plates at a position where the opening/closing plates are introduced.

The opening/closing plate may be formed with a locking projection.

The discharge portion may include: a discharge gate formed at 8 discharge holes formed between the base plate portion and the protruding plate portion where the grill portion is formed; a hinge part for connecting the discharge door and the protruding plate part; and a door driving unit for rotating the discharge door with the hinge part as a shaft and opening and closing the discharge part.

The door driving unit may include: a rack member having one side coupled to the discharge door hinge; a pinion member engaged with the other end of the rack member; a motor driving unit for driving the pinion member; and a supporting roller member for supporting the rack member.

Only a part of the discharge part of the air suction/discharge member can be selectively opened.

In the above-described air intake/exhaust member, the discharge gate of the discharge portion may be opened in the horizontal direction.

The present invention may further include an elevating unit configured to elevate the main body together with the suction and discharge member, wherein the elevating unit may include: a ring part formed on the upper part of the air suction and exhaust parts; a cable part, one side of which is combined with the ring part; a lifting drive part such as a motor, wound on the other side of the cable part; and a guide roller part for guiding the cable part to the lifting driving part.

In the above-described air intake/exhaust member, an air guide portion may be formed along an inner side of the discharge door.

The air guide part comprises: a plurality of guide rods, wherein a plurality of guide rods are arranged in the discharge hole in order; a hinge shaft formed at each of the guide bars; a rack member spaced apart from the hinge shaft and connected to the plurality of guide rods by hinge coupling; a pinion member engaged with the rack member; and a driving part for driving the pinion member.

ADVANTAGEOUS EFFECTS OF INVENTION

The present invention has the following effects that the structure of the opening and closing plate is formed, under the condition of need, the whole air suction and exhaust components do not need to be separated from the body, the required repair can be carried out through the hole at the position of the opening and closing plate only after the closing plate is separated, thereby the operation is simple and the time can be saved.

The present invention has the following effect that the discharge door is in a structure which is opened along the horizontal direction by taking the discharge hole as the reference, thereby, the cold air or the hot air can be discharged along the regulated direction and can be uniformly diffused.

The present invention has the following effects that the discharge doors of the suction and exhaust parts can be formed in 6, and the cold air or the hot air can be uniformly diffused.

The present invention has an effect that the work can be easily performed by the lifting part when the air conditioner is installed and separated.

Drawings

Fig. 1 (a) is a front view of a ceiling type air conditioner according to the present invention, and fig. 1 (b) is a bottom view of the ceiling type air conditioner according to the present invention.

Fig. 2 is a schematic view enlarging a portion a shown in fig. 1.

Fig. 3 (a) is a partial front view of the opening/closing plate attached to the base plate portion, fig. 3 (b) is a sectional view of a portion C-C' in fig. 3 (a), fig. 3 (C) is a sectional view showing a state where the opening/closing plate is moved to the one-side groove in fig. 3 (b), and fig. 3 (d) is a sectional view showing a state where the opening/closing plate is separated downward of the base plate portion in the state of fig. 3 (C).

Fig. 4 (a) is a plan view showing the locking protrusion formed on one side surface of the opening/closing plate, and fig. 4 (b) is a side view showing the locking protrusion formed on one side surface of the opening/closing plate.

Fig. 5 (a) is a sectional view showing a state where the discharge vane of the discharge portion is closed, fig. 5 (b) is a sectional view showing a state where the discharge vane of the discharge portion is opened, and fig. 5 (c) is a front view showing a state of fig. 5 (b).

Fig. 6 is a front view showing that only a part of the plurality of discharge doors is selectively opened in the discharge portion of the air suction/discharge member.

Fig. 7 is a schematic diagram showing a modification of the intake/exhaust member.

Fig. 8 is a schematic bottom view showing a case where 6 discharge gates of the air suction/discharge unit are formed.

Fig. 9 is a schematic front view showing a lifting structure of a ceiling type air conditioner according to the present invention.

Fig. 10 (a) is a front view showing one of the exhaust parts of the air suction/exhaust means, fig. 10 (b) is a front view showing a state where the exhaust door is opened in the state of fig. 10 (a), and fig. 10 (c) is a schematic perspective view of fig. 10 (b) as viewed from above.

Detailed Description

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the drawings are only for the purpose of more simply disclosing the contents of the present invention, and it is understood by those skilled in the art that the scope of the present invention is not limited to the drawings.

Moreover, in describing the present embodiment, the same names and the same reference numerals are used for the same components, and additional description thereof will be omitted.

Also, the terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular references include plural references as long as they are not explicitly shown in the context. In the present application, terms such as "including" or "having" are used to designate the presence of the features, numerals, steps, actions, structural elements, components or combinations thereof described in the specification, and are not intended to preclude the presence or addition of one or more other features or numerals, steps, actions, structural elements, components or combinations thereof.

The ceiling type air conditioner 100 of the present invention includes: a body 110 having a fan 108 and a heater 109 formed therein for heat exchange; and an air suction/discharge member 130 formed at a lower portion of the body 110.

The suction/discharge unit 130 includes: a grill part 132 for moving indoor air toward the body 110; a discharge part 150 for discharging the indoor air passing through the grill part 132 to the outside in a state of being changed into cold air or hot air after circulating through the main body 110; and an opening/closing part 170 which can be repaired without separating the whole air suction/discharge member 130 when the main body 110 has a trouble such as a failure.

The suction/discharge unit 130 includes: a flat substrate portion 134; and an octagonal-shaped protruding portion 136, a central portion of the base plate portion 134 protruding along an opposite side of the body 110.

Further, the above-mentioned protruding portion 136 includes: a grill portion 132 formed in the center plane; and a discharge part 150 formed along the octagonal side inclined surface with the grill part 132 as a center.

The opening and closing part 170 is formed at a corner portion of the substrate part 134.

The grill 132 is positioned at the center of the air suction/discharge member 130, and has a plurality of small holes 133 formed therein, thereby functioning as a passage through which indoor air flows.

Fig. 2 is a schematic view enlarging a portion a shown in fig. 1.

As shown in fig. 2, the opening/closing portion 170 includes: an open-close hole 171 formed in a corner portion of the substrate portion 134; and an opening/closing plate 172 for opening/closing the opening/closing hole 171.

The part (a) of fig. 2 is a state where the opening/closing plate 172 is attached, and the part (b) of fig. 2 is a state where the opening/closing plate 172 is detached.

Fig. 3 shows a process of separating the shutter in the structure of fig. 2, in which part (a) of fig. 3 is a partial front view of the shutter mounted to the substrate portion, part (b) of fig. 3 is a sectional view of part C-C' in part (a) of fig. 3, part (C) of fig. 3 is a sectional view showing a state where the shutter is moved to one side groove in part (b) of fig. 3, and part (d) of fig. 3 is a sectional view showing a state where the shutter is separated downward of the substrate portion in the state of part (C) of fig. 3.

In the present invention, if necessary, the opening/closing plate 172 can be separated from the substrate portion 134, and the substrate portion 134 is formed with the recesses 134-2 into which the opening/closing plate 172 can be introduced, and the distance b between the recesses 134-2 is larger than the length a of the opening/closing plate 172 at the position where the opening/closing plate 172 is introduced, as shown in fig. 3 (c), and if one side of the opening/closing plate 172 is moved to one side of the recess 134-2, as shown in fig. 3 (d), the other side of the opening/closing plate 172 can be separated from the other side of the recess 134-2.

As shown in fig. 4, in the present invention, the opening/closing plate 172 has a form in which a locking protrusion 178 is formed on one side surface.

The plurality of locking protrusions 178 serve to allow the operator to easily move the opening and closing plate 172 between the recesses 134-2 of the base plate portion 134.

The opening/closing plate 172 can be moved between the concave grooves 134-2 of the base plate portion 134 in a state where the operator fits the tip of one finger on the locking projection 178, and the opening/closing plate 172 can be grasped and moved in a state where the tips of two fingers fit on the

adjacent locking projections

178a and 178b, if necessary.

The present invention has an effect that the opening and closing plate 172 is mounted, and when necessary, the whole air suction and discharge member 130 is not required to be separated from the main body 110, and only after the opening and closing plate 172 is separated, the required repair is performed by using the hole at the position of the opening and closing plate 172, so that the work is simplified and the time can be saved.

Fig. 5 is a sectional view illustrating a portion B-B' of fig. 1, and more specifically, a portion (a) of fig. 5 is a sectional view illustrating a discharge vane of a discharge part in a closed state, a portion (B) of fig. 5 is a sectional view illustrating a discharge vane of a discharge part in an open state, and a portion (c) of fig. 5 is a front view of a state of a portion (B) of fig. 5.

The discharge unit 150 includes: a discharge door 153 formed at 8 discharge holes 159, the 8 discharge holes 159 being formed between the base plate portion 134 and the protruding plate portion 201 where the grill portion 132 is formed; a hinge 155 for connecting the discharge door 153 and the projection plate 201; and a door driving unit 190 for rotating the discharge door 153 about the hinge 155 to open and close the discharge unit 150.

The door driving unit 190 includes: a rack member 192 having one side hinge-coupled to the discharge door 153; a pinion member 194 that meshes with the other end of the rack member 192; a motor driving unit 196 for driving the pinion member 194; and a support roller member 198 for supporting the rack member 192.

The support roller member 198 faces the pinion member 194 centering on the rack member 192, and the rack member 192 is moved up and down by the pinion member 194.

When the motor driving unit 196 is operated to rotate the pinion member 194 in the state shown in fig. 5 (a), the pinion member 194 rotates to move the rack member 192 downward as shown in fig. 5 (b), and the discharge door 153 coupled to the rack member 192 in a hinged manner rotates about the hinge unit 155 and is positioned as shown in fig. 5 (b) and 5 (c).

Also, the cold or hot air is discharged through the discharge hole 159 opened by the discharge door 153.

More specifically, fig. 6 (a) is a schematic front view showing a state where both the exhaust portions of the intake and exhaust members are closed, fig. 6 (b) is a schematic front view showing a state where only a part of the exhaust portions of the intake and exhaust members are open, and fig. 6 (c) is a schematic front view showing a state where only the other part of the exhaust portions of the intake and exhaust members are open.

In the present invention, the remote controller 300 is formed, and the remote controller 300 is formed with the buttons that can selectively open only a part of the discharge part 150 of the suction/discharge member 130, and as shown in fig. 6 (a), when the first button 302 that opens only the first discharge hole 159a of the discharge part 150 is pressed among the buttons of the remote controller 300 in a state where the discharge part 150 of the suction/discharge member 130 is closed, as shown in fig. 6 (b), only the first discharge hole 159a of the discharge part 150 is opened, and the cold air or the hot air is discharged through only the first discharge hole 159 a.

As shown in fig. 6 (c), when the second button 304 of the second and third discharge holes 159b and 159c of the discharge part 150 is pressed among the buttons of the remote controller 300, the first discharge hole 159a is closed, only the second and third discharge holes 159b and 159c are opened, and the cold or hot air is discharged only through the second and third discharge holes 159b and 159 c.

Fig. 7 (a) is a front view showing a modification of the air intake/exhaust member, fig. 7 (b) is a front view showing a state where the discharge unit is opened in the modification of the air intake/exhaust member, and fig. 7 (c) is a bottom view showing a state where the discharge unit is opened in the modification of the air intake/exhaust member.

In the present invention, the air suction/discharge member 130 is configured as shown in fig. 7 such that the discharge door 153 of the discharge portion 150 is opened in the horizontal direction.

Namely, the present invention comprises: a hinge shaft 153a formed in a vertical direction at one side of the discharge door 153 in order to open the discharge door 153 of the discharge part 150 in a horizontal direction; a rack member 153b for rotating the discharge door 153 about the hinge shaft 153a to be bent; a pinion member 153c engaged with the rack member 153 b; and a driving member 153d for driving the motor of the pinion member 153 c.

When the driving member 153d is operated, the pinion gear member 153c rotates, the rack gear member 153b engaged with the pinion gear member 153c moves, and the discharge door 153 rotates about the hinge shaft 153 a.

Accordingly, as shown in fig. 7 (b) and 7 (c), the discharge door 153 is opened in the horizontal direction with respect to the discharge hole 159, and particularly, when the discharge door 153 is opened by 90 degrees or less with respect to a closed state, the cold air or the hot air discharged through the discharge hole 159 is discharged in a predetermined direction and discharged in a cyclone shape to the outside, so that the cold air and the hot air can be uniformly diffused.

In the present invention, as shown in fig. 8, the number of the discharge doors 153 of the air suction/discharge unit 130 may be 6, and in this case, the cold air or the hot air is uniformly diffused, as compared with the case where only 4 discharge doors 153 are formed as the conventional structure.

For the convenience of cleaning, the ceiling-mounted air conditioner 100 of the present invention additionally includes an elevating unit 400, and the air suction/discharge member 130 is elevated and lowered together by pressing an elevating button 312 formed on the lower remote controller 300.

The lifting unit 400 includes: a ring part 402 formed at 4 corner portions of the upper portion of the suction and discharge part 130; a cable part 404 having one side coupled to the ring part 402; a lifting/lowering drive unit 406 such as a motor wound around the other side of the cable unit 404; and a guide roller portion 408 for guiding the cable portion 404 to the elevation driving portion 406.

The elevation driving unit 406 and the guide roller unit 408 are fixed to a ceiling portion where the ceiling type air conditioner 100 is installed.

In the ceiling type air conditioner 100, the worker sets the elevating unit 400 separately from the main body 110, and when the worker cleans or repairs the main body 110 or the air suction/discharge member 130, the worker pushes the down button of the remote controller 300 to operate the elevating driving unit 406 and release the 4 cable units 404, so that the air suction/discharge member 130 is lowered and separated from the main body 110.

In this case, after the worker presses the stop button of the remote controller 300 to stop the ceiling type air conditioner 100, the worker can clean or repair the body 110 or the air suction/discharge member 130.

After the worker cleans or repairs the main body 110 or the air intake and exhaust member 130, if the worker pushes the up button of the remote controller 300 and operates the up-and-down driving unit 406 to wind the 4 cable units 404, the air intake and exhaust member 130 is moved up to the original installation position.

In this case, the stop button of the remote controller 300 is pressed to stop the ceiling type air conditioner 100.

The present invention has an effect that cleaning or repairing of the main body 110 or the air intake/exhaust member 130 is facilitated by the elevating part 400.

Fig. 10 is a front view showing a part of an air suction and discharge unit of a ceiling type air conditioner according to the present invention in an enlarged scale.

In the air suction/discharge member 130 of the ceiling type air conditioner according to the present invention, the air guide portion 250 is formed along the inner side of the discharge door 153 in the discharge portion 150.

The air guide part 250 includes: a plurality of

guide rods

252a, 252b, 252c, which are arranged in the discharge holes in an aligned and parallel manner; a hinge shaft 254 formed at each of the

guide bars

252a, 252b, 252 c; a rack member 256 connected to the plurality of

guide bars

252a, 252b, and 252c by a hinge coupling, spaced apart from the hinge shaft 254; a pinion member 258 engaged with the rack member 256; and a driving unit 259 for driving the pinion member 258.

When the driving unit 259 is operated, the pinion member 258 is rotated, and the rack member 256 is moved to rotate the plurality of

guide rods

252a, 252b, and 252c about the hinge shaft 254, thereby guiding the cold air or hot air discharged to the outside.

The present invention has an effect of providing the air guide part 250 as described above to uniformly supply the cold air or the hot air.

As described above, the embodiments of the present invention have been described, and it is obvious to those skilled in the art to which the present invention pertains that the embodiments can be embodied in other specific forms than the embodiments described above without departing from the spirit or scope of the present invention. Therefore, the present invention is not limited to the above description, and may be modified within the scope and equivalents of the appended claims.

Claims

1. A ceiling type air conditioner is characterized in that,

the method comprises the following steps:

a body in which a fan and a heater are formed for heat exchange; and

an air suction and exhaust component formed on the lower part of the main body,

the air intake and exhaust member includes:

a flat substrate portion; and

a protruding portion protruding from a central portion of the substrate portion,

the above-mentioned protruding portion includes:

a grating portion formed on the central plane; and

a discharge part formed along the side surface inclined plane of the hexagon or more with the grid part as the center;

a lifting part for lifting the main body together with the air suction and exhaust parts is also formed,

the lifting unit includes: a ring part formed on the upper part of the air suction and exhaust parts; a cable part, one side of which is combined with the ring part; a lifting driving part of the motor, which is wound on the other side of the cable part; and a guide roller part for guiding the cable part to the lifting drive part,

in the air suction and exhaust component, an air guide part is formed along the inner side of the exhaust door,

2. The ceiling type air conditioner as set forth in claim 1,

the air suction and exhaust component also comprises an opening and closing part which is formed at the corner part of the base plate part,

the opening/closing unit includes:

an opening/closing hole formed in a corner portion of the substrate portion; and

an opening and closing plate for opening and closing the opening and closing hole.

3. The ceiling type air conditioner as set forth in claim 2,

a groove capable of introducing the opening and closing plate is formed in the substrate portion,

the opening and closing part comprises opening and closing plates, and the distance between the grooves is larger than the length of the opening and closing plates at the positions where the opening and closing plates are introduced.

4. The ceiling type air conditioner as claimed in claim 3, wherein the opening and closing plate is formed with a locking protrusion.

5. The ceiling type air conditioner as set forth in claim 4, wherein said discharge part comprises:

a discharge gate formed at 8 discharge holes formed between the base plate portion and the protruding plate portion where the grill portion is formed;

a hinge part for connecting the discharge door and the protruding plate part; and

and a door driving unit for rotating the discharge door with the hinge part as the shaft and opening and closing the discharge part.

6. The ceiling type air conditioner as set forth in claim 5, wherein said door driving unit comprises:

a rack member having one side coupled to the discharge door hinge;

a pinion member engaged with the other end of the rack member;

a motor driving unit for driving the pinion member; and

and a support roller member for supporting the rack member.