Patent Application
20220290881
The present application claims priority to Korean Patent Application No. 10-2021-0032321, filed Mar. 11, 2021, the entire contents of which is incorporated herein for all purposes by this reference.
The present disclosure relates to a variable hood apparatus mounted in a kitchen. More particularly, the present disclosure relates to a variable hood apparatus for a kitchen, the variable hood apparatus being capable of performing more efficient exhaust by bringing the variable hood apparatus closer to a point where odors and gas are generated since a position of the variable hood apparatus is can be adjusted.
Odors or harmful gas, such as fine dust, carbon monoxide, carbon dioxide, and the like, generated during heating and cooking a food is a contamination source contaminating indoor air, and is not good for the health of an indoor occupant and may cause discomfort to the indoor occupant. Therefore, indoor spaces are required to be frequently ventilated. However, in practice, ventilation of the indoor spaces is often insufficient.
Meanwhile, a hood for a kitchen is a ventilation apparatus configured to discharge smoke or odors as well as harmful gas generated during cooking to the outside, and is mounted above a heating source such as a gas stove, an induction range, and the like. For example, such a hood is an apparatus including a casing, an intake fan, a filter, a duct, and the like that are configured to receive gas. Further, the hood is configured to drive the intake fan so as to suction the gas, and is configured to exhaust the suctioned gas through the duct.
However, a conventional hood has a disadvantage in that gas is not efficiently suctioned since the conventional hood is far from a heating source. In other words, harmful gas generated from a gas stove, odors generated from a frying pan, and the like are not completely removed. When the intake fan is rotated at high speed, a removal rate of gas increases, but there is a problem that mechanical noise is generated.
In order to solve these problems, Korean Patent Application Publication No. 10-2009-0081262 (HOOD FOR KITCHEN) has been disclosed. The disclosed hood for the kitchen includes: a main cover mounted on a first side of a sink so as to be positioned above a gas stove, the main cover having a front surface of a first side of a lower end portion thereof provided with a controller, and the main cover having an upper surface of the first side thereof formed with an exhaust port; an auxiliary cover mounted on the front surface of a second side of the main cover so as to be in communication with the upper surface of the main cover; an exhaust fan mounted in the exhaust port that is formed on the upper surface of the first side of the main cover, the exhaust fan being connected to the controller; a vertical movement mechanism having a lower end thereof connected to the second side of the lower end of the main cover and having an upper end thereof connected to an upper end portion of the auxiliary cover, thereby being connected to the controller; and an intake mechanism having opposite side surfaces connected to the vertical movement mechanism, the intake mechanism being configured to move up and down as the vertical movement mechanism connected to the controller is operated.
However, the disclosed hood for the kitchen has a limitation that the intake mechanism is moved in the vertical direction only. For example, the intake mechanism cannot move in a horizontal direction. Therefore, in a kitchen where a plurality of heating sources is mounted, it is difficult to use the disclosed hood for the kitchen.
In addition, since a motor for rotating a fan is disposed at a lower end portion of the intake mechanism, loud noise is generated while using the motor. Particularly, since the motor is positioned adjacent to a heating source, the fan is also heated together with a food by the heating source.
Accordingly, the present disclosure has been made keeping in mind the above problems occurring in the related art, and an objective of the present disclosure is to provide a variable hood apparatus for a kitchen, the variable hood apparatus being capable of freely adjusting a position of a hood so that a usable physical range of the hood is wide, the variable hood apparatus being capable of being folded and being in close contact with one side when the hood is not used, and the variable hood apparatus being capable of operating with low noise.
In order to achieve the above objective of the present disclosure, there is provided a variable hood apparatus for a kitchen, the variable hood apparatus including: a bent column formed by pressing a metal plate and having a predetermined cross-sectional shape in a longitudinal direction, the bent column being fixed to a wall of the kitchen and being configured to provide a supporting force; a support body detachably mounted on the bent column and configured to be capable of adjusting a height level thereof; a first horizontal bar which is supported by the support body and which extends in a horizontal direction, the first horizontal bar being configured to be rotatable while the horizontal bar maintains a horizontal state; a slider mounted on the first horizontal bar and configured to be slidably movable along a longitudinal direction of the first horizontal bar; a second horizontal bar which is supported by the slider and which extends in the horizontal direction, the second horizontal bar being configured to be rotatable while the second horizontal bar maintains the horizontal state; a foldable hood mounted on an extension end portion of the second horizontal bar, the foldable hood being configured to be unfolded while being used and to be folded while being not used; an exhaust pipe which is connected to the foldable hood and which extends to an outside; and an exhaust mechanism configured to generate an airflow which is formed inside the exhaust pipe and which is in a direction toward the outside, thereby inducing a negative pressure in the foldable hood.
In addition, the bent column may be fixed vertically and may have a plurality of locking holes spaced apart from each other in a vertical direction, wherein the support body may include: a main body provided with a support hole having a predetermined inner diameter; and a locking bracket fixed to a first side of the main body and supported by the plurality of locking holes, wherein the first horizontal bar may have a rotary shaft inserted into the support hole such that the first horizontal bar is axially rotatable with respect to the support hole, and may have an extension slit which extends in an extending direction of the first horizontal bar and which has a predetermined width, wherein the slider may include: a traveling guider configured to be movable along a longitudinal direction of the extension slit while being inserted into the extension slit; a cover plate which is formed integrally with the traveling guider and which is in surface contact with a top surface of the first horizontal bar; and a support pin fixed perpendicular to the cover plate, wherein the second horizontal bar may be linked to the support pin of the slider such that the second horizontal bar is rotatable with respect to the support pin.
In addition, the exhaust pipe may be a flexible bellows, an extension end portion of the exhaust pipe may be provided with a fixing block that is capable of being fitted into and fixed to a window frame, and the exhaust mechanism may include a blower and an air guiding pipe which is connected to the blower and inserted into an inside of the exhaust pipe, the air guiding pipe being configured to eject air supplied from the blower to the inside of the exhaust pipe.
In addition, a venturi portion may be further provided inside the exhaust pipe, and the air guiding pipe is disposed on a downstream of the venturi portion.
In addition, the foldable hood may include: a head portion fixed to an end portion of the second horizontal bar and connected to the exhaust pipe; and a wing portion positioned below the head portion, the wing portion being configured to guide gas to be exhausted to the head portion by being unfolded while being used, and the wing portion being folded while being not used.
In addition, the wing portion may include a plurality of split wings hinge-connected to the head portion and configured to be rotatable up and down, the plurality of split wings being configured such that opposite end portions in a side direction thereof are in close contact with each other while being rotated upward, thereby maintaining an unfolded state.
In addition, the wing portion may include: a plurality of fixing ribs which is fixed to the head portion and which extends in a radial direction around the head portion, and which is spaced apart from each other by predetermined intervals; a plurality of rotation ribs respectively pin connected to the plurality of fixing ribs and configured to be rotatable up and down; a plurality of rib fixing mechanisms configured to enable the plurality of rotation ribs to maintain an unfolded state when the plurality of rotation ribs is rotated upward; and a heat-resistant light permeable fabric fixed to the plurality of fixing ribs and the plurality of rotation ribs, the heat-resistant light permeable fabric being configured to be unfolded while the plurality of rotation ribs is rotated upward, thereby guiding the gas to be exhausted to the head portion.
In addition, the plurality of rib fixing mechanisms may include: a plurality of arcuate-shaped rods having a predetermined curvature and respectively fixed to the plurality of rotation ribs; a plurality of ratchet fingers respectively mounted on the plurality of arcuate-shaped rods, the plurality of ratchet fingers being configured to be rotatable; and a plurality of locking tubes supported by the head portion and providing a plurality of passages through which the plurality of arcuate-shaped rods respectively passes, the plurality of locking tubes being configured such that inner portions of the passages are respectively provided with a plurality of toothed portions, and the plurality of toothed portions being configured to be locked on the plurality of ratchet fingers, respectively, such that the plurality of rotation ribs is prevented from being moved downward.
The variable hood apparatus for the kitchen of the present disclosure configured as described above is capable of freely adjusting the three-dimensional position of the hood, so that a usable physical range of the hood is wide. In addition, when the hood is not used, the hood is folded and is in close contact with one side, so that a using region of the kitchen may be more widely provided. In addition, there is almost no noise during operating the variable hood apparatus for the kitchen.
The above and other objectives, features, and other advantages of the present disclosure will be more clearly understood from the following detailed description when taken in conjunction with the accompanying drawings, in which:
Hereinafter, an embodiment of the present disclosure will be described in detail with reference to the accompanying drawings.
As illustrated in the drawings, the variable hood apparatus 30 according to the present disclosure includes a bent column 31, a support body 33, a first horizontal bar 34, a slider 36, a second horizontal bar 38, the foldable hood 40, the exhaust pipe 65, and an exhaust mechanism.
The bent column 31 is formed by pressing a rectangular metal plate having both a predetermined thickness and a predetermined width. Further, the bent column 31 is fixed to a wall 11a of a kitchen 11, and is perpendicular to a top plate of a sink 12. The bent column 31 may be mounted on any positions on the top plate of the sink 12, but the bent column 31 is preferable to be mounted adjacent to a gas stove 13.
The bent column 31 is formed by bending a stainless steel plate, and has a plurality of locking holes 31a. The locking hole 31a is a portion to which a locking bracket 33c that will be described later is locked and supported, and the plurality of locking holes 31a is spaced apart from each other in a vertical direction. Distances between the plurality of locking holes 31a may be variously designed. In addition, as long as the locking bracket 33c is locked on and fixed to the plurality of locking holes 31a, the number of the locking holes 31a and the types of the locking holes 31a may be variously changed. Fixation of the bent column 31 to the wall 11a may be realized by an adhesive tape (not illustrated). The bent column 31 may be fabricated from synthetic resin instead of metal.
In addition, the support body 33 is a member that supports the first horizontal bar 34 while being detachably hung on the locking hole 31a of the bent column 31. Which locking hole 31a among the plurality of locking holes 31a is used for supporting the support body 33 is determined by a user.
The support body 33 includes a main body 33a and the locking bracket 33c. The main body 33a is formed in a hexahedral shape, and a center portion of the main body 33a is provided with a support hole 33e. The support hole 33e is a hole having a predetermined inner diameter, and extends vertically. That is, a central axis of the support hole 33e is perpendicular to the top plate of the sink 12.
The locking bracket 33c is a bent piece which is substantially formed in an āLā shape and which is fixed to a first side of the main body 33a. When the locking bracket 33c is inserted in a horizontal direction into the locking hole 31a and is released, the locking bracket 33c is moved downward by the action of gravity, so that the locking bracket 33c is automatically locked on and supported by the locking hole 31a. As a result, the support body 33 is mounted on and fixed to the bent column 31 via both the locking bracket 33c and the locking hole 31a.
The first horizontal bar 34 is a rod-shaped member which rectilinearly extends in the horizontal direction and which is supported by the support body 33, and the first horizontal bar 34 supports the slider 36 such that the slider 36 is slidably movable. A rotary shaft 34c is fixed to a lower portion of a first end portion of the first horizontal bar 34.
The rotary shaft 34c is a shaft member which has a predetermined diameter and which is inserted into the support hole 33e. The rotary shaft 34c is configured to be axially rotated while being in surface contact with an inner circumferential surface of the support hole 33e. As the rotary shaft 34c is inserted into the support hole 33e, the first horizontal bar 34 automatically maintains a horizontal state, and the first horizontal bar 34 is rotatable in left and right directions around the rotary shaft 34c. The insertion and the separation of the rotary shaft 34c with respect to the support hole 33e may be freely performed.
In addition, an extension slit 34a is formed in the first horizontal bar 34. The extension slit 34a is a slit which extends in a longitudinal direction of the first horizontal bar 34 and which has a predetermined width, and the extension slit 34a supports the slider 36 such that the slider 36 is rectilinearly movable. The slider 36 is supported by the first horizontal bar 34, and is configured to be rectilinearly moved while maintaining a constant height level.
The slider 36 includes a traveling guider 36c, a cover plate 36a, and a support pin 36e. The traveling guider 36c is a portion that is moved along a longitudinal direction of the extension slit 34a while being inserted into the extension slit 34a, and opposite side surfaces of the traveling guider 36c are in surface contact with an inward surface of the extension slit 34a. By the action of the traveling guider 36c, the slider 36 is prevented from being twisted or turned while the slider 36 is traveling.
The cover plate 36a is a plate-shaped member formed integrally with an upper portion of the traveling guider 36c, and is hung on a top surface of the first horizontal bar 34, so that the traveling guider 36c is prevented from being fallen below the first horizontal bar 34. The support pin 36e is a shaft which is vertically fixed to an upper center portion of the cover plate 36a, and is fitted into a pin accommodating hole 38a of the second horizontal bar 38. The slider 36 configured as described above can be freely disassembled from the first horizontal bar 34. For example, the user may replace the slider 36.
The second horizontal bar 38 is a rod-shaped member that extends rectilinearly, and a first end portion of the second horizontal bar 38 has the pin accommodating hole 38a. The pin accommodating hole 38a accommodates the support pin 36e of the slider 36. The second horizontal bar 38 is rotatable in the left and right directions with respect to the support pin 36e. As a result, while the second horizontal bar 38 is supported by the slider 36 and maintains the horizontal state, the second horizontal bar 38 is rectilinearly movable and rotatable.
The support body 33, the first horizontal bar 34, the slider 36, the second horizontal bar 38 that are configured as described above are not fixed by bolts, and are operated while being fitted to each other, thereby capable of easily disassembling the configuration if necessary. Parts of the components can be replaced, or all components can be reassembled after all components are separated and are cleaned.
Meanwhile, the foldable hood 40 is mounted at an extension end portion of the second horizontal bar 38, and can be unfolded when the foldable hood 40 is used and can be folded when the foldable hood 40 is not used. That is, during cooking, the foldable hood 40 is disposed above the gas stove 13 while being in the unfolded state, and is folded when the foldable hood 40 is not needed. A basic function of the foldable hood 40 is the same as a basic function of a conventional hood. In other words, the foldable hood 40 is configured to suction and exhaust odors or gas that is generated during cooking. A description of the foldable hood 40 will be described later.
The exhaust pipe 65 is a flexible bellows, and extends in the longitudinal direction. Further, a first end portion of the exhaust pipe 65 is connected to a head portion 41 of the foldable hood 40, and a second end portion of the exhaust pipe 65 is coupled to a fixing block 66.
The fixing block 66 is formed in a substantially hexahedral shape. Further, as illustrated in
In addition, the exhaust mechanism generates an airflow inside the exhaust pipe 65 in a direction toward the outside, thereby inducing a negative pressure in the foldable hood 40. That is, by forming the negative pressure inside the head portion 41 of the foldable hood 40, harmful gas or odors, which is gas to be exhausted, generated during cooking is guided to the exhaust pipe 65 via the head portion 41.
The exhaust mechanism includes a blower 67 and an air guiding pipe 67a. The blower 67 is mounted outside the exhaust pipe 65. For example, the blower 67 may be disposed on a shelf 16 that is mounted in the kitchen 11. As long as air can be supplied inside the exhaust pipe 65, a position of the blower 67 may be variously changed. The blower 67 generates compressed air and provides the compressed air to the air guiding pipe 67a.
The air guiding pipe 67a ejects the air supplied from the blower 67 to the inside of the exhaust pipe 65. A spray nozzle 67b is mounted on an end portion of the air guiding pipe 67a. The air ejected via the spray nozzle 67b is moved toward a downstream of the exhaust pipe 65, and exits to the atmosphere. At this time, a pressure of an upstream is lowered, and gas to be exhausted is introduced into the inside of the exhaust pipe 65.
The exhaust mechanism illustrated in
The air guiding pipe 67a in
In addition, the exhaust mechanism in
As illustrated in the drawings, the foldable hood 40 includes the head portion 41 having a shape of a hollow cylinder, and includes a wing portion 43 mounted below the head portion 41. The head portion 41 is supported by the extension end portion of the second horizontal bar 38, and is connected to the exhaust pipe 65. As the negative pressure is formed inside the exhaust pipe 65, gas under the head portion 41 is collected in the head portion 41, and the gas is suctioned into the exhaust pipe 65. The head portion 41 and the exhaust pipe 65 can be disassembled from each other.
In addition, a plurality of lower fixing hinges 41e is fixed to a lower portion of the head portion 41. The lower fixing hinges 41e are in a one-to-one correspondence with rotation hinges 43e of split wings 43a. In a state in which the lower fixing hinges 41e are respectively brought into contact with the rotation hinges 43e, other hinge pins 43f are connected, so that the split wings 43a are coupled to the head portion 41.
The wing portion 43 includes a plurality of split wings 43a. The split wings 43a all have the same size. Further, as described above, the split wings 43a are connected to the lower fixing hinges 41e by the other hinge pins 43f, respectively. In a state in which each of the split wings 43a is fully deployed upward, each of the split wings 43a maintains a state in which a thickness surface of the split wing 43a is in contact with another thickness surface of the adjacent split wing 43a. To this end, a protruding portion 43c is formed on one thickness surface of each of the split wings 43a, and a groove portion 43d is formed on an opposite thickness surface of each of the split wings 43a.
In a state in which the wing portion 43 is fully opened, the protruding portion 43c of each of the split wings 43a is fitted into the groove portion 43d of each of the adjacent split wings 43a. As such, since the protruding portion 43c is inserted into the groove portion 43d, the split wings 43a are in close contact with each other and are prevented from being dislocated from each other under the action of gravity.
When the user holds and dislocates any two split wings 43a by hand in order for folding the wing portion 43, other split wings 43a are also separated, and the split wings 43a are moved downward by the action of gravity and are in a state illustrated in
The wing portion 43 may be fabricated from a light permeable heat-resistant glass, acrylic, or the like. Otherwise, as illustrated in
Hereinafter, the same reference numerals described above indicate the same members having the same functions.
The foldable hood 40 illustrated in
The fixing ribs 45a are members which are fixed to a peripheral portion of the head portion 41, and which extend in a radial direction and which are spaced apart by predetermined intervals. Further, the fixing ribs 45a respectively have accommodating grooves 45b. The accommodating grooves 45b are grooves in which insertion portions 45d of the rotation ribs 45c are respectively accommodated.
The rotation ribs 45c are linear members which are connected to the fixing ribs 45a via connecting pin 45q, respectively, and which are rotatable in the up and down directions like umbrella ribs. The insertion portions 45d are respectively formed on an end portion of each of the rotation ribs 45c. The insertion portions 45d are portions inserted into the accommodating grooves 45b, respectively. In a state in which the insertion portions 45d are respectively inserted into the accommodating grooves 45b, the rotation ribs 45c are connected to the fixing ribs 45a by passing the connecting pins 45q therethrough, respectively.
The heat-resistant light permeable fabric 51 is a known flexible heat-resistant flame-retardant fabric that is attached to and fixed to bottom surfaces of both the fixing ribs 45a and the rotation ribs 45c. When the rotation ribs 45c are unfolded, the heat-resistant light permeable fabric 51 is tightly unfolded like a waterproof fabric of an umbrella, and the heat-resistant light permeable fabric 51 guides the gas to be exhausted to the head portion 41.
Meanwhile, in a state in which the rotation ribs 45c are rotated upward, the rib fixing mechanisms serve to maintain the unfolded state. As illustrated in
Each of the locking grooves 45e is a groove into which an end portion of each of the locking pins 45f is respectively inserted, and each of the mounting space portions 45p is a space in which each of the springs 45m and a portion of each of the locking pins 45f are accommodated. Each of the mounting space portions 45p corresponds to each of the locking grooves 45e.
The locking pins 45f are pin-shaped members movable in an arrow c direction or in a direction opposite to the arrow c direction, and have pin heads 45g and spring locking portions 45h. For example, the pin heads 45g are handles for a user to pull respective locking pins 45f in the arrow c direction.
In addition, the spring locking portions 45h are portions receiving an elastic force by the springs 45m. The locking pins 45f receive the elastic force via the spring locking portions 45h and are elastically supported in the direction opposite to the arrow c direction, and the locking pins 45f are fitted into the locking grooves 45e, respectively, so that the rotation ribs 45c maintain the unfolded state.
The pin heads 45g that protrude toward side portions of the fixing ribs 45a are pulled in the arrow c direction in order for folding the rotation ribs 45c, and the locking pins 45f are separated from the locking grooves 45e. When the locking pins 45f are separated, the rotation ribs 45c are folded downward by weight thereof.
The rotation ribs 45c are pulled upward while the locking pins 45f are pulled in the arrow c direction in order for unfolding the folded rotation ribs 45c, and each of the locking grooves 45e is positioned on an extending line of each of the locking pins 45f, and then the locking pins 45f are released. When the locking pins 45f are released, the locking pins 45f are respectively fitted into the locking grooves 45e by the action of the springs 45m.
The foldable hood 40 illustrated in
The rib fixing mechanisms are configured to enable the other rotation ribs 45c rotated upward to maintain the unfolded state, and include arcuate-shaped rods 46, ratchet fingers 46a, locking tubes 47, and tube holders 48.
Each of the arcuate-shaped rods 46 is an arcuate-shape member having a predetermined curvature. Further, a first end portion of each of the arcuate-shaped rods 46 is formed integrally with each of the other rotation ribs 45c, respectively, and a second end portion of each of the arcuate-shaped rods 46 is inserted into each of side portion holes 41f, respectively. The side portion holes 41f are through-holes formed on a peripheral portion of the another head portion 41, and enable the arcuate-shaped rods 46 to pass therethrough, respectively. Each of the arcuate-shaped rods 46 is partially inserted inside the another head portion 41 via each of the side portion holes 41f, respectively.
In addition, the ratchet fingers 46a are respectively mounted on the arcuate-shaped rods 46. The ratchet fingers 46a are members which are rotatably mounted on the arcuate-shaped rods 46 via finger shafts 46b, respectively, and are configured to be locked on respective toothed portions 47c, thereby preventing the other rotation ribs 45c from being moved downward.
The locking tubes 47 are square pipe-shaped members fixed to an outer portion of the another head portion 41 via the tube holders, respectively, and the tooth portions 47c are provided inside the locking tubes 47, respectively. The toothed portions 47c are portions locked on the ratchet fingers 46a, respectively. In a state in which each of the arcuate-shaped rods 46 is respectively fitted into passages 47a that are provided by the locking tubes 47, if the ratchet fingers 46a are not provided, the arcuate-shaped rods 46 are freely rotatable in an arrow g direction or in a direction opposite to the arrow g direction when the other rotation ribs 45c are rotated.
However, since the ratchet fingers 46a are provided and the toothed portions 47c are formed inside the locking tubes 47, the movement of the arcuate-shaped rods 46 in the arrow c direction is restricted. In other words, when the other rotation ribs 45c are unfolded, the other rotation ribs 45c may maintain the unfolded state.
The specific embodiment of the present disclosure is described in detail above. However, the present disclosure is not limited to the specific embodiment. It would be apparent to a person of ordinary skill in the art that various modifications to the present disclosure are possible within the scope of the technical idea of the present disclosure.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10-2021-0032321 | Mar 2021 | KR | national |
