JP4109771B2 - Embedded ceiling air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a ceiling-embedded air conditioner that performs air conditioning such as indoor air conditioning, and more particularly to a ceiling-embedded air conditioner in which a suction grill is provided on a ceiling panel so as to be movable up and down.
[0002]
[Prior art]
Among air conditioners that perform air conditioning such as indoor heating and cooling, there is an embedded air conditioner in which the unit body is embedded in the ceiling. Such embedded air conditioners include those disclosed in Japanese Patent Application Laid-Open No. 9-21545 and Utility Model Registration No. 2532897.
[0003]
In the former ceiling-embedded air conditioner, the unit body is embedded in the ceiling, and the suction grille is supported by four suspension wires (hanging strings) extending from the unit body side so that it can be raised and lowered. It can be automatically moved up and down by driving a lifting motor through the.
[0004]
In the latter ceiling-embedded air conditioner, the ceiling panel is supported by a lifting wire extending from the unit body so that the ceiling panel can be raised and lowered, and the ceiling panel can be raised and lowered via each torque limiter by driving a motor for lifting and lowering. Is. The ceiling panel is provided with a suction grill.
[0005]
In conventional ceiling-mounted air conditioners, the tips of the four suspension wires suspended from the unit body are individually and directly attached to the suction grille or ceiling panel, and the clutch mechanism or torque is driven by the motor of the lifting motor. A suction grill or a ceiling panel is supported through a limiter so as to be movable up and down.
[0006]
Conventional ceiling-embedded air conditioners lift and lower the suction grille and ceiling panel with a lifting / lowering motor via a clutch mechanism or torque limiter. It absorbs winding irregularities, and the suction grille and ceiling panel can be raised and lowered stably and installed on the lower side of the unit body.
[0007]
However, in conventional ceiling-embedded air conditioners, the clutch mechanism and torque limiter functional parts are provided to absorb the length variation and winding unevenness of the suspension wire. As a result, the number of components increases, resulting in an increase in cost, adjustment man-hours during installation, simplification of installation work, and an increase in failure factors. There was a problem.
[0008]
As means for eliminating the disadvantages caused by incorporating a clutch mechanism and a torque limiter into the lifting mechanism, there is a ceiling-embedded air conditioner described in JP-A-10-38309. This ceiling-embedded air conditioner is provided with suspension wire guide means at the four corners of the suction grille, and further provided with two suspension wire guide means in the mounting housing above the suspension wire guide means. One suspension wire is passed through the means, one end of this suspension wire is fixed to the mounting housing, the other end is attached to the take-up pulley of a single mechanical unit driven by a motor, and this take-up pulley rotates forward and backward. Thus, the suction grill can be raised and lowered by winding or unwinding the suspension wire.
[0009]
In this ceiling-embedded air conditioner, since the suspension wire fixed to the winding pulley of the single lifting mechanism unit is wound, the winding amount of the suspension wire wound around the single winding pulley is small. In many cases, it takes time to raise and lower the suction grille, and the suspension wire is wound up from one place. Therefore, the balance is easily lost when the suction grill is raised and lowered, which is unstable. When lifting and lowering the suction grille, the entire amount of the suspension wire is wound from one direction. This winding may cause winding unevenness, or the suction grille cannot be lifted smoothly and stably.
[0010]
[Problems to be solved by the invention]
In conventional ceiling-mounted air conditioners, the clutch mechanism and torque limiter functional parts are installed to absorb the length variation and winding unevenness of the suspension wire. However, the clutch mechanism and torque limiter are included in the lifting mechanism. As a result, the number of component parts increases, resulting in increased costs, increased man-hours for adjustment during installation, simplification of installation work, and increased failure factors. was there.
[0011]
Further, in a ceiling-embedded harmony machine that winds a suspension wire from one direction with a winding pulley of a single lifting mechanism unit, a single wire whose one end is fixed to a housing is driven by a motor. Since the take-up pulley takes up a large amount of wire to be taken up by the take-up pulley, it takes time to raise and lower the suction grille, and since the wire is taken up from one direction, it is balanced when raising and lowering the suction grille. Tends to collapse and is unstable. Accordingly, the wire is easily tangled when the suction grill is raised and lowered, and if the wire is caught, the suction grill cannot be raised or lowered by winding the wire from one direction.
[0012]
The present invention has been made in consideration of the above-described circumstances, and can absorb the variation in the length of the suspension wire and the winding unevenness without requiring a clutch mechanism or a torque limiter, and can stably raise and lower the suction grille. An object of the present invention is to provide a ceiling-embedded air conditioner that is supported on the ceiling.
[0013]
Another object of the present invention is to provide a ceiling-embedded air conditioner that eliminates the need for a clutch mechanism and a torque limiter, reduces the number of components, simplifies installation work, and improves workability.
[0014]
Still another object of the present invention is to detachably support the suction grill and improve workability during maintenance and service, while removing the lifting mechanical unit and controller by opening the suction grill. The object is to provide a ceiling-embedded air conditioner that can be easily replaced.
[0015]
Another object of the present invention is that the suction grill can be lifted and lowered and supported by the suspension wire so as to be inclined and slidable, so that the filter can be attached to and detached from the suction grill efficiently and in a stable position. To provide a built-in air conditioner.
[0016]
Still another object of the present invention is to provide a ceiling-embedded air that can effectively prevent shaking of the suction grill when the suction grill is raised and can be installed without causing any interference to the lower portion of the unit body. To provide a harmony machine.
[0017]
Another object of the present invention is a ceiling-embedded type that eliminates the need for a clutch mechanism and a torque limiter, reduces component parts, simplifies installation work, improves workability, and further shortens the lifting time of the suction grille. To provide an air conditioner.
[0018]
[Means for Solving the Problems]
In order to solve the above-described problem, in the invention of claim 1, an air conditioner in which a unit body including a heat exchanger, a blower, and a controller is embedded in a ceiling, and a suction grill is detachably held at the lower part of the unit body. In the machine, the lower part of the unit body is driven by a lifting motor and this motor. Two series A lifting mechanism unit having a winding pulley is provided, One piece fed from the winding pulley Connect each end of the hanging wire Removably connect with one-touch fittings The suspension wire is connected, and the suspension wire is slidably inserted into the suspension wire guide means provided on the suction grille.
[0019]
According to a second aspect of the present invention, two lifting / lowering mechanical units are provided opposite to each other at the lower part of the unit main body, and the respective leading ends of the suspension wires fed out from both sides of the lifting / lowering mechanical unit are connected to each other.
[0020]
According to a third aspect of the present invention, a single lifting mechanism unit is provided at the lower part of the unit main body, and the tip ends of the suspension wires fed out from the lifting mechanism unit on both sides are connected.
[0022]
Claim 4 In this invention, the suspension wire guide means has a guide port through which the suspension wire can be inserted and guided, the port diameter of the guide port is formed larger than the outer diameter of the connection fitting, and the suspension wire guide means It is inserted and supported so as to be detachable.
[0023]
Claim 5 In this invention, the suspension wire guide means are attached to both sides of the lifting mechanism unit of the unit body to form a pair, and the suspension wire guide means on the unit body side forming a pair. Opposite A pair of suspension wire guide means is attached to the suction grille side, and the attachment span l of the pair of suspension unit guide means on the unit body side is attached. _P The installation span of the pair of wire guide means on the suction grille side _G A suspension support loop that is formed larger and is closed by suspension wires that are fed from both sides of the lifting mechanism unit is formed in a substantially inverted trapezoidal shape.
[0024]
Claim 6 In the present invention, the unit body has a rectangular mounting frame at the bottom, Opposite A lifting mechanism unit is attached to each side of the mounting frame, and a controller is provided on one of the remaining sides of the mounting frame.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of a ceiling-embedded air conditioner according to the present invention will be described with reference to the accompanying drawings.
[0026]
[First Embodiment]
FIG. 1 shows a first embodiment of a ceiling-embedded air conditioner according to the present invention, and is a cross-sectional view schematically showing a state in which an indoor unit 10 of the air conditioner is embedded in a ceiling.
[0027]
The unit main body 11 of the indoor unit 10 is embedded in the ceiling 12, while a blower 13 is built in the central portion of the unit main body 11, and a heat exchanger 14 is disposed around the blower 13. A drain pan 15 for collecting the generated drain is provided at the lower part of the heat exchanger 14. The blower 13 includes a fan 17 driven by a fan motor 16, and this fan motor 16 is driven and controlled by a controller 18 such as a microcomputer installed on the unit body 11 side. The controller 18 is provided, for example, on the inner peripheral side of the drain pan 15 so as not to obstruct the air flow path 20 formed in the unit main body 11.
[0028]
In addition, a rectangular attachment frame (cage) 21 is provided at the lower part of the unit main body 11, and a ceiling panel 22 is provided integrally or integrally with the attachment frame 21. The ceiling panel 22 constitutes a decorative panel and is provided at the bottom of the unit body 11. The ceiling panel 22 is installed so as to cover the attachment opening 23 of the indoor unit 10 formed in the ceiling 12 from below.
[0029]
A suction grill 25 is provided at the center of the ceiling panel 22 so as to be detachable and liftable. A long-life filter 26 such as an oil guard filter is detachably installed on the suction grill 25. The suction grill 25 is supported by an elevating mechanism unit 27 as an elevating device via a suspension wire 28 so as to be movable up and down, and is detachably installed in an attachment opening 23 formed at the center of the ceiling panel 22.
[0030]
The lifting mechanism unit 27 is attached to the mounting frame 21 at the bottom of the unit body 11. Opposite A pair is provided. The lifting mechanism unit 27 is attached to the mounting frame 21. Opposite The operation is controlled by a controller 29 for raising and lowering such as a microcomputer. The controller 29 controls the raising and lowering of the suction grill 25 and is provided on one of the remaining sides of the mounting frame 21. The elevating mechanical unit 27 and the controller 29 are provided at a dead space position in the lower part of the unit main body 11 that does not hinder the flow of air sucked from the suction grill 25.
[0031]
Thus, the indoor unit 10 of the ceiling-embedded air conditioner includes a blower 13, a heat exchanger 14, and controllers 18 and 29 in the unit body 11. An air flow path 20 is formed in the unit main body 11 from the suction port formed in the suction grill 25 to the outlet 30 via the heat exchanger 14. The outlet 30 is formed in the ceiling panel 22, and the outlet angle is adjusted by the outlet louver 31. The air outlet 30 is formed in the outer periphery of the suction grill 25, and the air flow path 20 is a flow path that is reversed in the unit body 11.
[0032]
On the other hand, by the operation of the blower 13, the indoor air sucked from the suction port of the suction grill 25 is guided radially outward and blown to the heat exchanger 14 side, and the heat exchanged on the heat exchanger 14 side is cooled. Wind or wet air is reversed and passes through the air flow path 20 and is blown into the room through the air outlet 30 to perform air conditioning such as indoor air conditioning. The operation control of the blower 13 is performed by an air conditioner controller 18 installed on the unit body 11 side, and is remotely controlled by a remote controller (not shown).
[0033]
On the other hand, since the two lifting mechanism units 27 and 27 provided in a pair on the left and right in FIG. 1 have the same configuration, description of one of them will be omitted. The elevating mechanism unit 27 is installed at the lower part of the unit main body 11, for example, on the inner surface of the mounting frame 21 so as not to obstruct the air flow path 20 from the suction port.
[0034]
As shown in FIGS. 2 to 4, the lifting mechanism unit 27 has a box-shaped unit casing 33 attached to the mounting frame 21. The lifting mechanism unit 27 includes a reversible lifting motor 35 and a motor output shaft 36. And a pulley gear 38 as a driven gear that meshes with the motor gear 37. The lifting motor 35 is provided with a reduction gear (not shown) as required, while the pulley gear 38 is integrally provided with two winding pulleys 40, and the winding pulley 40 is rotated by driving of the lifting motor 35. It can be driven. The drive of the lifting motor 35 is limited by the limit switch 41.
[0035]
Suspension wires 28a and 28b as take-up wires are guided from guide pulleys (guide rollers) 43 from two series of take-up pulleys 40 and are fed out from both the left and right sides. The suspension wires 28 a and 28 b are connected in the take-up pulley 40 and integrated to form a single suspension wire 28. The hanging wire 28 may be a wire cable, a hanging string, or a hanging rope. The suspension wires 28 a and 28 b fed from the take-up pulley 40 are slidably guided by the suspension wire guide means 44. The tip ends of the suspension wires 28a and 28b are detachably connected to each other by a one-touch type wire connection fitting 45 to constitute a closed suspension support loop.
[0036]
The suspension wire guide means 44 that slidably guides the suspension wires 28a and 28b is provided in pairs on the unit main body 11 side and the suction grille 25 side. A pair of suspension wire guides 44 are provided on the unit main body 11 side on both the left and right sides of the elevating mechanical unit 27, and on the suction grill 25 side, facing the unit main body 11 side. Each suspending wire guide means 44 is composed of wire guide members 46 having the same structure to reduce the cost. At that time, the attachment span l of the suspension wire guide means 44, 44 forming a pair on the unit body 11 side _P Is the attachment span l of the pair of suspension wire guide means 44, 44 on the suction grill 25 side _G It is formed to be larger and efficiently suppresses the vibration of the suction grill 25 at the time of raising and lowering and prevents interference between the suspension wire guide means 44 and 44 when the suction grill 25 is installed.
[0037]
The wire guide member 46 of the hanging wire guide means 44 is formed by molding. The wire guide member 46 has a guide port 47 through which the suspension wires 28a and 28b can be inserted and guided. The port diameter is formed larger than the outer diameter of the connection fitting 45 so that the wire connection fitting 45 can be easily inserted. The As shown in FIGS. 5A and 5B, the guide port 47 of the wire guide member 46 forms an arc-shaped smooth wire contact guide surface 48 on at least one side of the port, and the suspension wire inserted through the guide port 47 28 is smoothly in contact with the suspension wire 28, and the suspension wire 28 is effectively prevented from being damaged or broken. The wire contact guide surface 48 is formed over the circumferential direction of the guide port 47 so that the suspension wire 28 can be freely guided from any direction.
[0038]
Further, the ends of the suspension wires 28a and 28b that form a pair that are fed out from the two winding pulleys 40 to the left and right are caulked in a ring shape to form a connection loop 50 as shown in FIG. A one-touch type connection fitting 45 shown in FIG. 6 is passed through the connection loop 50 of one suspension wire 28b and is hooked. By hooking this connection fitting 45 on the connection loop 50 of the other suspension wire 28a, mutual connection is achieved. Is detachably connected with one touch.
[0039]
Thus, after passing the tip of the suspension wire 28b fed out from the two take-up pulleys 40 to the one side through the suspension wire guide means 44 on the unit body 11 side, the suspension wire guide means 44 on the suction grill 25 side is further passed. Insert. Similarly, the end of the suspension wire 28a fed from the other side of the two take-up pulleys 40 is inserted through the suspension wire guide means 44 on the unit body 11 side, and then the suspension wire guide means 44 on the suction grill 25 side. After that, the suspension wire 28 has a substantially inverted trapezoidal shape as shown in FIG. 2 by connecting the tip ends of the suspension wires 28a and 28b formed of one suspension wire 28 using a one-touch type fitting 45. A suspension support loop is formed, and one side of the suction grill 25 is suspended from the unit main body 11 side by the suspension support loop, and is supported by the lifting mechanism unit 27 so as to be movable up and down.
[0040]
The other side of the suction grill 25 is also supported by a lifting mechanism unit 27 attached to the other side of the unit body 11, so that the suction grill 25 is supported by the unit body 11 so as to be lifted and lowered. By driving the motor 35 using a remote controller, the suction grill 25 is detachably installed on the lower part of the unit body 11.
[0041]
A transmission signal from the remote controller is transmitted to the indoor controller 18 and the lift controller 29 through the light receiving unit 51. The light receiving unit 51 is provided on the ceiling panel 22 and the suction grill 25, for example. When an up / down / stop signal is transmitted from the remote controller, the motor 35 of the lifting mechanism unit 27 is forward / reverse / rotated or stopped. The motor of the lifting / lowering motor 35 guides the attachment / detachment and lifting / lowering of the suction grill 25 to / from the unit body 11.
[0042]
Next, the removal and lifting / lowering action of the suction grill 25 in the ceiling-embedded air conditioner will be described in comparison with a conventional ceiling-embedded air conditioner.
[0043]
FIG. 7A shows a method of supporting the suction grill 25 in the ceiling-embedded air conditioner of this embodiment, and FIG. 7B shows the suction grill a in the conventional ceiling-embedded air conditioner. This shows the support method.
[0044]
In the ceiling-embedded air conditioner of the present embodiment, when the suction grill 25 is installed, when the suction grill 25 is raised by driving the motor 35 of the lifting mechanism unit 27, the suction grill 25 is pulled up in an oblique state. However, the suction grill 25 can be installed smoothly and stably at the lower part of the unit body 11.
[0045]
In this case, the suction grill 25 is supported by the suspension wires 28a and 28b that are fed out from the left and right sides of the lifting mechanism unit 27. Since the suspension wires 28a and 28b are slidably guided by the suspension wire guide means 44, the oblique state of the suction grill 25 can be automatically corrected.
[0046]
For this reason, even if the suction grill 25 is pulled up in an inclined state when the lifting mechanism unit 27 is driven and one side of the suction grill 25 comes into contact with the point P first, the wire winding operation of the lifting mechanism unit 27 is stopped. It can be continued without. Even if the wire hoisting operation of the elevating mechanism unit 27 is continued as it is, the suspension wires 28 (28a, 28b) constituting the closed suspension support loop are slidably guided by the suspension wire guide means 44, so that the suction grill 25 The slanted state is automatically corrected and is securely and stably installed in the ceiling panel mounting opening 23 at the bottom of the unit body 11. In other words, the operation of the lifting mechanism unit 27 can be continued until the suction panel 25 is surely placed in the stepped mounting opening 23 of the ceiling panel 22 and becomes “closed”.
[0047]
In the conventional ceiling-embedded air conditioner, as shown in FIG. 7 (B), the tip ends of the suspension wires c fed from the left and right sides of the lifting mechanism unit b are directly connected to the suction grill a. If there is ΔL winding unevenness in the lifting mechanism unit b, it is necessary to stop the wire winding operation of the lifting mechanism unit b before the suction grille a fits in the lower part of the unit body d.
[0048]
That is, when the suction grille a is wound up in the state where ΔL winding unevenness exists in the lifting mechanism unit b and one side of the suction grille a contacts at the point P, the motor e of the lifting mechanism unit b is locked and stopped. End up. For this reason, the clearance of winding unevenness ΔL cannot be eliminated unless the elevating motor e is delayed using a clutch mechanism or the like.
[0049]
However, in the ceiling-embedded air conditioner of the present embodiment, even if there is winding unevenness in the elevating mechanism unit 27, the gap generated by the winding unevenness is caused to slide the suspension wire 28 without using a clutch mechanism or a torque limiter. Thus, it is possible to provide a suspension support method that can be solved automatically.
[0050]
In the ceiling-embedded air conditioner of this embodiment, the suction grille 25 is supported as shown in FIG. 8A by left and right hanging wires 28a and 28b. The wires 28a and 28b constitute an inverted trapezoidal closed loop.
[0051]
By supporting the suction grill 25 with the suspension wires 28 a and 28 b constituting the inverted trapezoidal suspension support loop, the suction grill 25 has a steadying function in a support state away from the unit body 11. In the support state of the suction grill 25 shown in FIG. 7A, the tension component acting on the suspension wires 28a, 28b always acts in a direction to prevent the suction grill 25 from swinging. It can be made smaller than before, and the vibration damping effect is great.
[0052]
For example, when the suction grille 25 comes to the left position indicated by the dotted line in FIG. 7A, a component force that attempts to return to the right side acts on the right suspension wire 28b. On the other hand, when the suction grill 25 comes to the right position indicated by the alternate long and short dash line, a component force is applied to the left suspension wire 28a to return to the left side. When the suction grill 25 comes to the center position, a component force that cancels each other acts on the left and right suspension wires 28a, 28b, so that a vibration damping action acts on the suction grill 25.
[0053]
On the other hand, in the conventional ceiling-embedded air conditioner, the suction grill a is supported in a swing state by the hanging wire c on the unit body d, and the steadying function does not act on the suction grill a. For this reason, when the left and right runout occurs in the suction grill a, the shake of the suction grill a is continued, and an unstable suspension state is set.
[0054]
Further, as shown in FIG. 9, when the suction grille 25 is tilted and raised, the component force that the suction grille 25 tries to firmly contact one side of the ceiling panel 22 at the point P works more strongly. Is securely and smoothly stored in the ceiling panel 22.
[0055]
That is, the mounting span on the unit body 11 side of the suspension wire guide means 44 is
l _P The mounting span on the suction grill 25 side is l _G L _P > L _G Since the tension of the suspension wire 28b due to the weight of the suction grill 25 is F, the component force acting on the suspension wire 28b is Fcos θ, and the attachment span is l. _P = L _G Can be larger than Accordingly, even if the suction grill 25 is pulled up in an oblique state, the suction grill 25 is stably brought into contact with the point P without being caught halfway, so that the opposite side of the suction grill 25 is connected to the stepped mounting opening 23 of the ceiling panel 22. Can be securely and securely attached.
[0056]
In addition, the suspension wire guide means 44 is attached to the suction grill 25 so as to form a pair, and the suspension wires 28a and 28b are slidably inserted into the suspension wire guide means 44, so that the suction grill 25 can be tilted and moved up and down. Can be supported. This facilitates attachment and removal of the filter 26 from the suction grill 25 during filter cleaning. FIG. 10 is a view for explaining a state in which the suction grill 25 is tiltably supported so as to be movable up and down.
[0057]
The lowering position of the suction grill 25 is adjusted by the lifting controller 29 so that it can be switched in multiple stages. By driving the lifting mechanism unit 27, for example, it can be lowered from the ceiling to a position of 3m / 2m / 1.5m / 1.0m, but it is a suspension support loop in which the suction grill 25 can be tilted and slidably closed. By inserting and supporting, the filter 26 can be easily attached and removed regardless of the height of the worker. Even when there is an obstacle 53 below, the filter can be removed and installed smoothly and smoothly.
[0058]
Further, in this ceiling-embedded air conditioner, the suction grill 25 becomes an open vertical state as shown in FIG. 11 simply by removing the one-touch connection fitting 45 at the time of service or maintenance. As a result, workability during maintenance and service on the side is improved, and maintenance and maintenance work of the suction grill 25 can be performed smoothly and smoothly.
[0059]
By simply opening the suction grille 52, the lifting mechanism unit 27 and the controllers 18 and 29 provided on the unit body 11 side can be smoothly attached and detached.
[0060]
For example, at the time of service / maintenance of the indoor unit 10 and the suction grill 25, the service and inspection of the controllers 18 and 29 and the lifting mechanism unit 27 in the indoor unit 10 can be performed simply by removing the connection fitting 45 on one side of the suction grill 25. It becomes. Since the elevating merca unit 27 and the suction grill controller 29 are screwed to the mounting frame 21 at the bottom of the unit main body 11, they can be easily attached and detached. At that time, since it is not necessary to remove the heavy ceiling panel 22 at a high position on the ceiling each time, the stability and workability at the time of service and maintenance are improved.
[0061]
Further, the elevating mechanism unit 27 and the elevating controller 29 are attached to the lower part of the unit body 11. Since the lifting mechanism unit 27 and the controller 29 are attached to the inner side surface of the attachment frame (attachment frame housing) 21 at the lower part of the unit main body 11, they are formed in the unit main body 11 without occupying the area of the suction portion. The resistance loss of the air flow path 20 is not increased. Therefore, the performance of the air conditioner is not degraded.
[0062]
Second Embodiment
FIG. 12 is a schematic perspective view showing a second embodiment of the ceiling-embedded air conditioner according to the present invention.
[0063]
In the indoor unit 10A of the ceiling-embedded air conditioner of the present embodiment, four suspension wire guard means 44 are provided in pairs on the suction grill 25 and the unit body 11 side. One suspension wire 28 is inserted through these suspension wire guide means 44. Both ends of the wire are respectively connected to a lifting mechanism unit 27a having two winding pulleys 40a driven by a lifting motor 35, and are joined in the two winding pulleys 40a of the lifting mechanism unit 27a. .
[0064]
In the lifting mechanism unit 27a, the suction grill 25 is lifted or lowered by feeding or unwinding the suspension wire 28 connected to the two winding pulleys 40a from both sides of the lifting mechanism unit 27a. The rest is the same as in the above embodiment, and the description is omitted.
[0065]
In this ceiling-embedded air conditioner, the wire connected to the two take-up pulleys 40a is fed or unwound from both sides of the lifting mechanism unit 27, so that suction is performed when the suction grill is raised and lowered as shown in FIG. Even if the grill 25 is tilted to some extent, it is firmly fixed to the mounting opening 23 without requiring a clutch mechanism or a torque limiter.
[0066]
According to the present embodiment, in addition to the same effects as those of the first embodiment, the single elevating mechanism unit 27a driven by the elevating motor 35 is provided, and the single elevating mechanism unit 27a has two motor-driven units. The take-up pulley 40a can be configured, and the apparatus configuration can be simplified.
[0067]
Further, since the suspension wire 28 is wound with good balance from both sides of the lifting mechanism unit 27a by the two winding pulleys 40a, the suspension wire 28 can be stably wound or fed out, and the suspension wire 28 becomes entangled. Difficult, It can be wound up efficiently and stably. Further, since the suspension wire 28 is simultaneously wound from both sides of the lifting mechanism unit 27a by the two winding pulleys 40a, the winding amount and the feeding amount of the suspension wire 28 are reduced accordingly, and the time required for winding or feeding is shortened. Thus, the effect of shortening the lifting and lowering time of the suction grill 25 can be obtained.
[0068]
(Modification)
FIG. 14 shows a modification of the second embodiment of the air conditioner.
[0069]
In the indoor unit 10B of this modification, each tip portion of the suspension wire 28 that is wound or fed from the winding pulley 40a of the elevating mechanism unit 27a is locked with a one-touch type connection fitting 45. Others are not different from those of the second embodiment, and the description thereof is omitted.
[0070]
According to this modification, in addition to the same effect as that of the second embodiment, an effect that the maintenance of the suction grill 25 can be easily performed by the detaching operation of the one-touch type connection fitting 45 is obtained.
[0071]
In the first embodiment of the ceiling-embedded air conditioner, the ceiling panel is installed at the lower part of the unit body, and the suction grill 25 is detachably attached to the installed ceiling panel 22 so as to be movable up and down. The ceiling panel 22 may be detachably attached to the lower portion of the unit body 11 so as to be movable up and down. In this case, the suction grill 25 may be formed integrally or integrally with the ceiling panel 22 or may be detachable from the ceiling panel 22.
[0072]
Further, the elevating mechanism unit 27 includes two take-up pulleys 40a so as to be reversibly rotatable, and one lifting wire is fed out from the take-up pulley 40a to the left and right. Two winding pulleys 40a that are motor-driven by the lifting motor 35 may be provided, and the suspension wire 28 may be individually fed out from each winding pulley 40a to both sides.
[0073]
【The invention's effect】
As described above, in the ceiling-embedded air conditioner according to the present invention, the tip ends of the suspension wires fed from both sides of the lifting mechanism unit are connected to each other, while the suspension wires are connected to the suction grille. Since the provided suspension wire guide means is slidably inserted and supported, a suspension support loop closed by suspension wires fed from both sides of the lifting mechanism unit is formed, and the suction grille is slid by this suspension support loop. It can be supported freely, and the winding wire winding unevenness by the lifting mechanism unit during the suction grill installation operation can be automatically absorbed and eliminated without installing a clutch mechanism or torque limiter, and the suction grill can be tilted Since the filter is slidably supported, the work for removing the filter from the suction grill can be simplified.
[0074]
Further, in the ceiling-embedded air conditioner according to the present invention, when the suction grill is detachably attached to the lower part of the unit main body, the clutch mechanism and the torque limiter are not required, and the number of components can be reduced. Assembling work can be simplified and workability can be improved, while maintenance and maintenance of the air conditioner indoor unit and suction grill filter can be performed simply by removing one mounting bracket from the suspension wire during maintenance and maintenance. Maintenance can be performed efficiently and efficiently.
[0075]
In the ceiling-embedded air conditioner according to the present invention, even if the suction grille is lifted in an inclined state, the suction grille has a component force to the suspension wire that tries to firmly contact the lower part of the unit body (ceiling panel) Acts strongly, and the suction grill can be stably and surely placed in the lower part of the unit body (mounting opening of the ceiling panel), and the suction grill is installed smoothly and automatically.
[0076]
Further, in the ceiling-embedded air conditioner according to the present invention, the lifting mechanism unit installed in the indoor unit can be easily attached / detached simply by releasing the suction grille from the lower part of the unit body. While improving workability at the time, the lifting mechanism unit and controller are provided on the inner side of the lower part of the unit body without obstructing the air flow path in the unit body, so that the resistance loss of the air flow path can be increased. Therefore, the heat exchange performance of the indoor unit can be sufficiently maintained, and the reliability of the device can be improved.
[0077]
In the ceiling-embedded air conditioner according to the present invention, a single lifting mechanism unit has two winding pulleys driven by a motor, and the two lifting pulleys provide a single lifting mechanism. Since the suspension wire is wound or unwound from both sides of the unit at the same time, the amount of wire winding and unwinding can be reduced, the instability of the suction grill can be prevented and the lifting work of the suction grill can be performed stably. The suspension wire inserted into the suspension wire guide means on the suction grille side can be removed by detaching the one-touch type fittings attached to the suspension wire, and the suction grille can be detached from the indoor unit. It is possible to easily maintain the suction grille.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view schematically showing a first embodiment of a ceiling-embedded air conditioner according to the present invention.
FIG. 2 is a perspective view showing a support structure of a suction grill in the ceiling-embedded air conditioner according to the present invention.
FIG. 3 is a view showing a mounting manner of a lifting mechanism unit that supports the suction grill so as to be lifted and lowered.
FIG. 4 is an exploded perspective view of components provided in the lifting mechanism unit.
FIG. 5A is a view showing a suspension wire guide means for slidably guiding a suspension wire drawn out from a lifting mechanism unit, and FIG. 5B is along a line VV in FIG. 5A. FIG.
FIG. 6 is a view showing an example of a connection structure of a tip end portion of a suspension wire that is fed from both sides of a lifting mechanism unit.
FIGS. 7A and 7B are diagrams showing a comparison of a suction grill support state in a ceiling-embedded air conditioner according to the present invention and a conventional air conditioner.
FIGS. 8A and 8B are diagrams showing an analysis of the force acting on a suspension wire in a state where a ceiling-embedded air conditioner according to the present invention and a conventional air conditioner support a suction grille.
FIG. 9 is an analysis of the force relationship acting on the suspension wire when the suction grill is tilted and raised in the ceiling-embedded air conditioner according to the present invention.
FIG. 10 is a diagram showing a replacement operation of the filter to the suction grill at a relatively high position.
FIG. 11 is a view showing an open state of the suction grille during maintenance of the ceiling-embedded air conditioner according to the present invention.
FIG. 12 is a schematic perspective view showing a second embodiment of a ceiling-embedded air conditioner according to the present invention.
FIG. 13 is a schematic perspective view illustrating a second embodiment of a ceiling-embedded air conditioner according to the present invention.
FIG. 14 is a schematic perspective view illustrating a modification of the second embodiment of the ceiling-embedded air conditioner according to the present invention.
[Explanation of symbols]
10, 10A, 10B Indoor unit
11 Unit body
12 Ceiling
13 Blower
14 Heat exchanger
15 Drain pan
16 Fan motor
17 fans
18 Controller
20 Air flow path
21 Mounting frame (Mounting housing)
22 Ceiling panel
23 Mounting opening
25 Suction grill
26 Filter
27, 27a Lifting mechanical unit
28, 28a, 28b Hanging wire
29 Elevator controller
30 outlet
31 Outflow louver
33 Unit casing
35 Lifting motor
36 Output shaft
37 Motor gear
38 pulley gear
40, 40a Winding pulley
41 Limit switch
44 Hanging wire guide means
45 Connection bracket
46 Wire guide member
47 Guide port
48 Wire operation guide surface
50 Connection bracket

Claims (6)

In an air conditioner in which a unit body including a heat exchanger, a blower, and a controller is embedded in the ceiling, and a suction grille is detachably held at the lower part of the unit body, a lifting motor and a motor are provided at the lower part of the unit body. A lifting mechanism unit having two driven take-up pulleys is provided, and the respective ends of one hanging wire fed out from the take-up pulley are detachably connected with a one-touch connection fitting. A ceiling-embedded air conditioner, wherein the suspension wire is slidably inserted into suspension wire guide means provided on the suction grill.   2. The ceiling-embedded air conditioner according to claim 1, wherein two units of the elevating mechanism unit are provided opposite to each other at the lower part of the unit main body, and the leading ends of the suspension wires respectively extended from the elevating mechanism unit are connected to each other. Machine.   The ceiling-embedded air conditioner according to claim 1, wherein a single lifting mechanism unit is provided at a lower portion of the unit main body, and ends of suspension wires fed out from both sides of the lifting mechanism unit are connected to each other.   The suspension wire guide means has a guide port through which the suspension wire can be inserted and guided, the port diameter of the guide port is formed larger than the outer diameter of the connection fitting, and the suspension wire guide means is inserted through the suspension wire in a removable manner. The ceiling-embedded air conditioner according to any one of claims 1 to 3, which is supported. The suspension wire guide means are attached to both sides of the lifting mechanism unit of the unit main body to form a pair, and the suspension wire guide means that forms a pair opposite the suspension wire guide means on the unit main body side and forms a pair on the suction grille side. The mounting span lP of the pair of suspension unit guide means on the unit body side is formed larger than the attachment span lG of the pair of wire guide means on the suction grille side, and is closed with suspension wires fed from both sides of the lifting mechanism unit. The ceiling-embedded air conditioner according to any one of claims 1 to 4 , wherein the suspension support loop is formed in a substantially inverted trapezoidal shape. The unit main body has a rectangular mounting frame at the bottom, the lifting mechanism unit is mounted on opposite sides of the mounting frame, and a controller is provided on one of the remaining sides of the mounting frame. The ceiling-embedded air conditioner according to any one of 1 to 3.

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